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BIOL 2321_Microbiology for Science Majors - 2321_MW1130_4_13_23_Lecture_CH 24_Vaccines
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00:05 Mhm. Hey folks, welcome. can't have class outside today. Um
00:17 uh this down a little bit. right. So today we are uh
00:26 gonna get 24. We just start little bit last time. Um So
00:32 get through most of that about the . OK? But not, we
00:38 finish all of that. So we'll will carry over into next Tuesday.
00:43 I did that a little late but uh the video for the um 25
00:49 is on next Tuesday is available. sorry about a little late on
00:54 but it's available. You can look that beforehand. Um And so uh
01:01 you haven't already, so our exam tomorrow. Ok? So if you
01:05 last minute questions, you know, free to email or you can drop
01:11 . Um Let's see. Uh So we get to on the horizon very
01:18 is microbial diseases. So um the way to approach that stuff is really
01:28 make a, I would say make cable for yourself. OK. And
01:32 an example of that in the notes 26. Um You know, it's
01:37 opinion is me that, that most , that chapter 26 because you have
01:43 know a disease, disease, what it? What are some of the
01:47 things about it so forth? Uh elaborate as we get closer, but
01:52 to give you a, a heads on that, uh, and then
01:55 to remember that exam four, although can call it a final exam,
02:01 it's only going to be covering this . It's not comprehensive. OK.
02:08 uh and you've got, I guess a month until that happens.
02:13 uh lots of time yet. So what else um any questions about anything
02:21 particular? OK. So let's just bit of a recap, right?
02:27 kind of uh let's see. Um obviously, we're talking about our immune
02:35 , right? We started with innate system, right? And all those
02:43 , different cell types involved cytosis. uh what else? Uh complement
02:52 um inflammatory response. Um Mhm I think that Interferon, I think
03:02 touches all the bases there. uh so we consider that kind of
03:07 and 2nd line defenses now in like third line, which is uh very
03:15 . So number, first and foremost this right antigen, right, presence
03:21 antigen. So gotta recognize it, it, recognize it bind to it
03:28 in effect the curve, right? why we call the adaptive immune system
03:31 for that reason. OK. And um I, I think I mentioned
03:36 time that as we get into this goes into a lot of detail
03:42 OK? On. And because it's complicated, it, it,
03:46 it, it, it, it be nothing but detail and it's very
03:51 system. OK? So I'm only you a, don't wanna say water
03:59 , but you know, just kind the basics the to give me kind
04:02 OK. This is how it operates know that there's other layers of
04:07 And so we only talk about a types of tt cells, for
04:11 there's many more than, than what telling you. Um So, you
04:16 , but, but that's OK, don't need to get into the details
04:20 everything. All right, you may it interesting. So if you
04:25 you want to learn more and the course is um offered, I think
04:30 the fall semester, I believe. So there you get all the details
04:36 if, if you, if you that. Uh but it is
04:38 it is a fascinating system. So it's a a cell type um B
04:45 as we'll learn in, in a bit not super detailed, but these
04:51 have segments of your genome that rearrange recombine because they produce um antibodies.
05:00 . And so you have the ability recognize almost any kind of engine that
05:05 not there. You can something like to the 14th, different types of
05:10 they can make of different antibodies. so 10 to the 14th, that's
05:14 big number, right? So you imagine all types of ans that are
05:18 there, right? And, and just in terms of a microbe but
05:23 and right, we eat and floors this and all can serve as a
05:28 well. So anyway, um so briefly this um so the two
05:35 right? And um so, so that kind of differentiation here, cellar
05:44 . Um And with cytotoxic T cells pathogens, OK. Um But we
05:54 have uh other T cell types that job dealing with other cell types,
06:01 cells and micro that predict cells. that's another kind of part of the
06:05 . OK. So, um so talk a little bit about, but
06:11 we're gonna start with a question So about question about antibodies. That's
06:19 we're gonna start. OK. So a look through these. OK.
06:24 there's some terms you're gonna go through epitope. Uh OK. OK.
06:36 Antibodies finding antibodies. So uh what reading this um the types of
06:46 Um So in terms of chemical right, you can have protein
06:53 you can have carbohydrate, you can fat lipid based antigens. OK?
06:59 the all the biomolecules, you can of the basic types, those you
07:03 , those typically make up the structures an antigen which and uh so as
07:11 might imagine, you know, recognizing and embody a engine. It's gonna
07:17 one major type of binding like binding is a big thing with an
07:21 and embody um effects. OK. about how well is the painting and
07:28 , that translates into a a let's it better function. OK. So
07:34 binding peoples is a term called amino , right? How strong does the
07:41 um induce the immune system? So it can be very strong or
07:48 can be not so strong. And vary in terms of, of how
07:52 can stimulate, how well they can the immune system. OK. So
07:58 let me go ahead and turn this the and so it turns out that
08:05 strongest effects come from protein antigens. . Um Carbohydrates less. So uh
08:12 lipids even less. So OK. I'll elaborate a second on that.
08:20 right. So number four, So uh let's see the um if
08:34 antibodies have a bind epitope, that's true. So the antigen is a
08:40 entity within the androgen. If there's actual binding in, in that area
08:44 there, here's the epitope. That's . OK. So antibody types may
08:49 pollen forms. That's actually true as . So I've been drawing antibodies like
08:55 this generic form like that. They can some can form multiple types
09:04 this, right? Like a dimer form or even in this um 2345
09:13 this form, OK. A So there are variations they're basically two
09:19 , two variations, you see, some antibody types can do that.
09:25 ? The two B sets. here and here. OK. Um
09:33 Well, hold on. There's may a correction here. OK? Is
09:40 , so this was very nonspecific to sites? Is that true or
09:45 You argue that it might be more two. So yeah, this is
09:52 binding. OK. But so too be bind here, right? If
09:59 see that's where a cell may OK. So you could argue it
10:06 be three, OK, three binding . Now, if it said agen
10:10 sites getting specific right, then it would be, that would be
10:16 . But just generic binding sites, can, there can be three binding
10:22 , OK? Two agen and one that a cell combined to OK.
10:29 I'll circle that temporarily see what else got immuno levels are the same as
10:33 . Yes, that's just terminology So that means the same thing I
10:37 is how we abbreviated immunologic. Uh Antibody classes can be identified by
10:43 composition of their cost of because that's true as well. We'll talk
10:48 that in a second. So as , I would say that's not completely
10:54 . OK? As written. So , if it's specified, anybody has
11:00 , that's mostly true. OK? of the Y shape here and it
11:04 here and here. OK? Um even then, you know, you
11:09 have a third one here though, ? If you're just saying binding sites
11:12 not being specific, OK. And we can even expand that when we
11:17 into these polymer forms right here and , right? Because that even adds
11:22 binding sites, right? So let's let's get into specifics here about some
11:28 these things. OK. Um All . Uh So it's all that action
11:34 these sentences. So that's what they to. OK. And so what
11:39 antigens? What you can imagine what might be, it's gonna be on
11:41 periphery, right? Other virus bacterium protozoan. So remember, although we
11:47 on bacteria and viruses, there are many other things can cause disease as
11:52 , right? They can be ans uh proo types, even multicellular
11:57 right? That uh occasionally affect So in any case, you're gonna
12:02 things on the surface, you glycoprotein molecules, protein molecules out the
12:08 of gram negative. Um So things the periphery, right? And so
12:13 , the binding epitope versus antigen, ? So it's just a matter of
12:19 , let's say, right, the is a larger entity within the engine
12:24 an epitope that where the binding OK. And so this um
12:30 right? So agen types, Chemical types, right? Protein,
12:37 polys lipid, right, the protein peptide to these drugs and that relates
12:45 to tight binding, right? So , OK. Um the binding sites
12:52 sequences of amino acids, OK. because proteins in general, right,
12:58 have a very specific shape, Per structure. They have lots of
13:05 of even those amino acids, Humongous number of combinations, right?
13:12 lot of variety, right? And what led to tight binding with an
13:17 . Is that right? Um carbohydrates um uh even a acids and lipids
13:26 less of that variation. OK. So, so proteins don't necessarily bind
13:33 strong, right? So um proteins be the best, the best immunogenic
13:43 , prompting the immune system, um the immune system. OK? Um
13:50 I talk about or put in the , the proteins, carbs lipids.
13:55 ? Now, you can make um want specifics about this but you can
13:59 certain molecules that aren't so immunogenic like lipids and pines by often adding something
14:08 to it, adding another molecule to , oftentimes like you add another protein
14:13 it and that combination that makes it immunogenic. OK? Because there are
14:20 right? That the vaccines are all can take anything and they right.
14:26 you won't even make that as strong you can into the binding to get
14:29 good response. And so you can some molecules that aren't, so they
14:36 a sugar more. So by adding the market and we have vaccines that
14:42 polysaccharide types that uh counteract like a vaccine. Uh because the bacteria that
14:49 pneumonia, the primary one has a caption. And so we produce antibody
14:55 it, but we make it stronger adding other molecules to it to make
14:58 better. So anyway, those are of things tricks, so to
15:02 you can do to make something that's so immunogenic, more immunogenic.
15:08 Um All right. So anybody OK. So there's what we call
15:17 and variable, right? And so class is a uh G D
15:27 and OK. And so uh we differentiate those and that's the next
15:34 is about idiotype and isotype. That's we differentiate these things. OK.
15:39 of course, anybody binding site. . Up here contains variable regions.
15:45 the B cells that make these They will have RS of their viewing
15:51 can rearrange and rec combine and express sequences, right? And so that's
15:59 enables you to recognize a like an number of, right? Because we
16:05 variables, variable regions here, That can um um be specific for
16:13 particular antigen. OK. So then have regions that basically they're pretty much
16:18 , they're the same in terms of sequence, right? And so here
16:24 , binding site. So antigen binding and then here's where you can bind
16:28 F C route. So remember that's option, for example, a macro
16:33 have an F C uh um to the option process we call that.
16:41 so, so now we'll get into um the different types. OK.
16:49 do you distinguish uh an I G from an I G D and so
16:53 ? Ok. And that uh is here. So you have what they
16:58 ID types and isotopes? Ok. you have basically five isotopes, A
17:05 D E, yeah, or five , right? The um isotype differ
17:14 these regions. OK. So if have a pool of I G A
17:19 , OK. You'll have some I A s that recognize one type of
17:26 and others that recognize a different OK? But you know they're I
17:30 A s because they're all similar in region. OK? Idiotype. All
17:37 . So a idiotype, idiotype. one recognizes this engine, a
17:44 Other one recognizes that engine. So course, you're gonna have I G
17:48 s, you recognize many different types engines. OK? Um But all
17:53 idiotype to each other. OK? we talk about isotype. That's how
17:59 differentiate one from the other I G nine G G for example.
18:04 But they'll differ in these constant OK? Um So any questions about
18:17 time I type a type? Yeah. But the same field is
18:24 of the All right. So you have, right? So for
18:33 these I G A idiotype could have same a bic sides but they could
18:43 , you can have each, each type in the amount of, may
18:47 different in the very Yeah. Oh of those. Yeah. OK.
18:54 you're saying in one antibody, can regions be different? No, they're
19:00 be the same. Yeah. So will be the same for.
19:05 So in one antibody that and that the same, the sites are the
19:13 . OK. And so that's, see that that's actually important to have
19:21 you active, start activating the cells make them. OK. Um Any
19:26 questions? OK. So um all . So when you have antibody and
19:33 body, what can result from Well, we know some of this
19:38 , right? We know about the thing. But so agglutination,
19:44 think of gluten is basically clumping OK? So in doing so you
19:50 have you reduced the number of infectious . So think about concentrate.
19:58 So here you have uh we have bacteria but by clumping them, you
20:10 bring it down to 212. I'm , that's not a one, that's
20:17 one. All right. So this one unit and that's two,
20:21 So you reduce the number of infectious , you gotta deal with concentrate,
20:26 pump them up, OK? Um that's due to this fact that you
20:30 have these um antibodies have two binding binding sites, right? So you
20:38 continue clump them together this way. . Oops we know about that
20:43 All right. So remember that's the C region over here. That's binding
20:49 the cell. Um neutralization. neutralizing antibodies. So that's uh
20:55 the uh vaccines uh against code, what they produce are the antibodies,
21:01 code the virus and the virus can't enter, can't bind to a
21:06 , selling it in, right. neutralizing antibodies to it does have to
21:09 a virus. It can be a . It could be because bacteria
21:13 pathogens, adhere to your tissues. if you can coat them antibodies and
21:17 then they can't do that. Uh also, you know, part of
21:22 pathogen, the salt, if you , it's not just the cells themselves
21:27 the virus or, or bacterium, it's also gonna be toxins. All
21:30 . So they can secrete toxins and tend to be molo are specific,
21:35 find the target cell and bind to target cell and then get in the
21:39 . And so if you can prevent , you know, you antibodies can
21:43 that effect on them as well. uh the tetanus tetanus uh vaccine works
21:51 way. Um Compliment, you know that, right. So that's the
21:58 where a couple of activation pathways is antibody. And then um this
22:04 So this um I will only say whole term once uh antibody dependent cell
22:13 cytotoxic, right? Mouthful, A DC C. So basically what
22:18 is in a nutshell is use antibodies will uh buy into the engine and
22:27 use those antibodies to get other immune cells together to overcome this pathogen.
22:36 this is for your large pathogens. . Multicellular types very often.
22:43 So we mentioned that we mentioned last eosinophils in that context, they helped
22:50 , they collectively they kind of help bring down large pathogens and this is
22:55 they do it. Ok. So involve antibody and so they'll have a
23:00 to bind that end and then the end binds the antigens on the
23:05 OK. So it allows you to together you coat this parasite with these
23:10 and that allows you to have a of cells then buying into it.
23:14 so collectively eosinophils, all right, release toxins, right? Could be
23:20 macrophage as well. All right. so collect it all together, then
23:25 the toxin can help fill the So it's a way to bring down
23:30 types of um organisms like this that you. OK. So again,
23:36 these are occur as a result of antibody binding. OK. And so
23:43 let's look at this question here. . So we're gonna go into a
23:48 bit about antibody uh functions if you . OK. How do you differentiate
23:55 from the other? What's, what's about one versus the other, that
23:58 of thing? OK. Um And they do some do have, they
24:05 have differentiating functions, right, in of their role in this process.
25:14 . OK. Let's see, and looks like it's not correctly match.
25:23 . So uh let's go for the up. So I G D only
25:29 and back to us another cell That's generally true. OK. So
25:34 cells, b cells actually interact with through the antibodies on their surface and
25:41 antibodies are I G D and also G M. OK. So that's
25:47 . Um I G M yes, one of those forms that five headed
25:54 , if you will five antibodies coming . OK. Um I G A
25:59 true mucosal secretions. Uh And so incorrect because that's I G A that
26:07 this does this dimer formation, not G G I G G pretty much
26:13 as a in this monitor form. . So, um and here it
26:21 . All right, this is I I G eight. OK. So
26:28 percentages, you don't even memorize these but you know, it put you
26:31 relative amounts in um blood, And so um 15% but it's most
26:40 it's mostly found in, in your uh mucosal surfaces and secretions of your
26:48 , right? Nasal passages, et cetera. OK. Um And
26:54 for many pathogens and adherence to these surfaces is very important. The meningitis
27:02 for one sticks around in your, your throat. And so if you
27:07 are infected and it can produce I A, it will coat,
27:11 It can coat the uh um pathogen prevent it from, from um
27:18 And so, by forming a you increase the number of antigen binding
27:23 to four. OK. So you bind up more. So these can
27:29 the effect of neutralizing antibodies. And uh your I G G much higher
27:37 and turned in the blood. Often you refer to I G G
27:42 kind of a workhorse antibody. It a lot of different functions.
27:47 It's, it's um one of the ones in your response to an infection
27:54 to a vaccine. Uh the high level production of I G
27:59 OK. So um again, various functions, optimization compliment neutralize, neutralizing
28:07 . So and more, OK. so um your I G DS uh
28:15 , so I G D and I E we'll talk about in a
28:20 Both those are types of that sit top of a cell, right?
28:23 that's kind of where they do their . OK. So I G D
28:27 mentioned they sit on top of blood and so their quantity in and the
28:32 is very low because because being on of a B cell B cells are
28:37 found in your own fat. that's for their entire concentration.
28:42 Um But also you can find I M molecules on B cells as
28:49 OK. Both types, right? um and here comes a and that's
28:57 it works. So we'll talk about , that's the beginnings of how B
29:00 becomes active through this process. Um G M. So these are typically
29:08 first ones that are formed in first to vaccine or, or infection.
29:17 And they form these five, these forms. And so again, like
29:23 , you mentioned earlier, it reduces number of units, right? So
29:28 we have 1234 by having these petro , you basically reduce it down to
29:39 by concentrated. So uh it can dealt with. Um So uh I
29:47 E is mentioned, they don't sit top of a B cell, they
29:50 on top of baso fis mas these are involved in allergic responses um
29:56 also inflammatory response. Um and so can uh the binding can initiate release
30:03 uh cytokines from these cells. Sometimes overdo it, right? That's when
30:09 bind some kind of allergen that you , that may give a hyper hyper
30:15 . So that these are the effects most, I think most of us
30:19 Houston that at some point we all allergic to something. All right.
30:24 uh that's this is one of those to that, those effects the set
30:28 they release dignity, inflammation, watery and all the symptoms. I'm sure
30:34 familiar with which? Ok. Um . So those are the antibody
30:41 OK. So producing like how, are these things produced? Ok.
30:47 I I slightly switch the order of next three slides, I think it
30:53 more sense actually. So we start the kind of the clonal selection
30:59 OK. So as mentioned, you um lots of, I don't know
31:06 quantity, but you have hundreds thousands pools of B cells, OK?
31:15 are capable, like I said, forming an bodies 10 to 14 give
31:25 take, right? In terms of of different engines that they could potentially
31:31 . Remember? OK. And so what happens when and when first exposure
31:40 whether infection vaccine um that an engine presumably will bind to one of these
31:53 cell subpopulation. OK? It'll have antibody sitting on the surface that will
32:00 and bind the antigen. OK? so very simple example, we we
32:05 seeing 44 different types of B OK? So here comes the an
32:11 red, little red dots, So which of these does it bind
32:15 ? It binds to the antibodies on , this 1/4? OK. And
32:24 that then that that is the clonal process because now we're gonna, we
32:30 this one and now we're gonna make of it, right? So they
32:36 , right? So now we're that's the tonal expansion selection, expansion
32:41 , make more of it, And so they will all produce um
32:49 to that specific antigen. OK. this this red thing antigen is,
32:56 what it will produce. All produce same amount of bodies to that.
33:02 . Um And so in the not just you can have two types
33:10 plasma cells, which are the ones actually produce more antibodies. OK.
33:15 memory cells, memory cells don't produce , but they uh retain the knowledge
33:22 you will of that, right? if you see this again,
33:28 these will then differentiate to as cells met more memory cells. So um
33:43 the memory cells versus cells. So cells are and a lot of
33:50 60 days give or take OK. your memory cells have lifetimes of
34:00 10 years, 20 years, 30 , 40 years. OK. Long
34:05 . OK. Um Their response, ability to recognize that androgen again,
34:15 ? Can get less over time. . So that's one of the
34:21 of course, of many why you antibody responds to older people,
34:26 Maybe it's not as robust as somebody because their memory cells are kind of
34:30 little bit, right? Um Some died off as well. Uh And
34:35 the reason that you periodically have to this. You know what that
34:41 you have to do this maybe every years or so to help you out
34:47 terms of your, your memory zones are kind of going down. What
34:51 you do? Go to the doctor you get OK, the food
34:59 So that brings up. So tetanus about every 10 years, you have
35:04 get a booster so that pumps up memory cell population, get a better
35:12 if you need, you can encounter and Andy. So anyway, so
35:17 uh so um now this is one of the process is, is this
35:24 uh binding the antigen and then making happen? OK. And the antibodies
35:31 on top of this are I G I G D primarily. OK.
35:38 I'm gonna mention some things that you're gonna need to know those is when
35:44 , they, they are called which these are but naive B
35:51 they're, they, they don't know , right? They're active but,
35:55 they, they're, they're new. ? And like I said,
36:00 these are things if you want to immunology course, you learn it,
36:04 your book goes into some of it well. But um there's kind of
36:08 learning curve in a way. So cells that are first. So for
36:12 , this group here, right, forms and expands the antibodies they produce
36:20 that these produce are I G M G M I G M mission,
36:26 form that 5 30. OK? um those aren't as specific, they
36:34 and but it's not as it will OK. So further tweaking of the
36:43 cells in this process and more binding the same engine actually makes them
36:49 OK? Pro antibodies that are that are better bind more tight,
36:55 response. OK? And they actually . So initially I G M and
37:01 switch to I G G, And those I G G S in
37:06 second, you know, two point , let's call it these, these
37:11 point oh version the I G produce , very, very tech, very
37:16 effect with those antibodies. OK. again, there's, there's obviously,
37:22 know, chemicals and other signals underlying this, we're getting into all
37:27 But, but that, that that is the case, they kind
37:30 get, they get better at what doing, so to speak.
37:34 Um Now, uh so the other of this is activation, right?
37:41 , well, activation part two, say so um there's what's called t
37:49 and T dependent. All right, gonna go over something real quick and
37:53 we're gonna come back, we'll come to this in a second. So
37:57 one, don't, don't need to this concept of the test, but
38:01 helps to at least go over So you kind of have an idea
38:05 what's going on here, in So here's a B cell and we
38:10 to these, so here's your right? So we call that BC
38:17 for B cell receptor. OK? so these will bind, it's whatever
38:24 angel is, right? Um Like and so part of the process,
38:29 it's one thing to bind, let's like this, right? Binds angel
38:33 that. OK? But you need get these together in this fashion like
38:42 OK, that produces, that's step that produces an active cell but not
38:49 there yet. OK. That's something something we call camping. OK?
38:54 because you have, you know, binding sites of an bodies that can
38:59 , right? They can come together this. OK? And so this
39:04 um so for like, let's say smaller, but for your average size
39:13 , OK. Molecular weigh over 1000 sure. But um they sometimes sometimes
39:22 may have issues kind of getting this form properly, the capping part.
39:27 then you involve a T cell, T helper cell, OK? To
39:33 of help the activation process out because is this, this is not always
39:39 . OK? And so that's for C from our B cells. Mh
39:44 two. All right. B macrophage, den cells, Mh C
39:49 . So they, so B cells also internalize energy. They can also
39:54 that and then show it. And so that's where A T
40:00 OK? And then that will, will then send out cytokines that will
40:06 that Visa. OK? I wanna that probably most of the activation of
40:13 cells occurs this way. OK. of a key helper cell.
40:19 And uh that's what we call He depended that way. OK?
40:35 I wanna say that's probably how most these cells get. OK. The
40:40 way is what's on the previous OK. Is this here?
40:46 So here you see this big, . Very often it's A P Saar
40:54 be these big. And so they the ability because of their size to
41:00 contact a number of antibodies here, ? Forming that cluster that and that
41:07 B cell receptor, right? So kind of why because they're so
41:11 they can do that. You don't the involvement of a T helper
41:14 OK? But again, these uh uh only produce mud state activate and
41:23 plasma cells, they only produce I MS antibodies which are OK. But
41:28 not the best. That's kind of polysaccharide don't give you as good I
41:33 by themselves. That's how we have time to fiddle with them in the
41:37 to make them be better at But you don't even know that part
41:41 it. But it, it goes to why some, some make better
41:45 and others. OK. So, so again, it's really about creating
41:52 , this thing here, right? , and, and, and a
41:56 of them. And so because with type of engines or like let's say
42:01 average normal engine, let's say size wise that you have to involve
42:07 help of A T cell. Again, I think this is the
42:10 common way, most are the things , you know, pretty much average
42:18 size. OK? So basically the style is gonna reiterate this.
42:24 So um so here's a B cell its antigens on antibodies. On top
42:31 , here comes antigen and some of gets internalized, some out here,
42:36 internalized. And then we get the the key dependent process and involvement of
42:44 T helper cell. It's att H T help cell type two.
42:49 And I I made that distinction because H one types interact with macrophages and
42:57 cells. OK? But these guys specific for B cells. OK?
43:02 so they form plasma cells and memory . There we go. OK.
43:10 uh Yeah, what else? What's the next one? OK. Any
43:18 , right? So T dependent T . OK. Um OK. The
43:27 question, let's look at this question . Get this thing up. So
43:35 is about um secondary canon butter response antigen, either through vaccine or
43:45 right? First exposure, secondary antibody is faster and stronger than the primary
43:53 due to what cell types. Let's count down here. So it
44:58 , yeah, of course, it's memory cells. OK. So um
45:04 now you created those in your primary and now they're primed and ready uh
45:11 upon second exposure. OK. So so if you look at the primary
45:18 , OK. So um we need activation uh formal attachment memory cells and
45:27 um initially forming lots of I G . OK, which are OK at
45:34 and they form the the panto right? But then uh then they
45:39 improving I G G in more quantities in a better, better antibi better
45:46 uh bigger immune response. OK. so uh of course, because of
45:52 um memory cells you now have they can quickly respond. OK.
46:00 , just exposure or your immunization. . So um all right. So
46:10 to our T cells here. So there's gonna be two kind of
46:17 going on. OK. OK. recognition of uh the MH C molecule
46:24 , right? So uh set of T cells recognize class one.
46:31 And um they do that through what's a co receptor. OK. Shown
46:42 one aspect, the other one is T cell receptor that recognizes the
46:49 OK. So there's 22 parts of . OK. And on both
46:54 So for the uh side to T , they have the what's called CD
47:00 , the T helper cells have a one called CD four. And that
47:04 them to recognize the M AC class . OK. But also a receptor
47:10 recognize the antigen, right? So two parts are the agen M AC
47:16 OK. Recognition. OK. And uh with cytotoxic T cells, of
47:22 , it's about getting rid of infected . OK. So um so T
47:31 self media community interaction with yourselves, infected cells or cells that are presenting
47:40 OK? And creating effects. And with an infected cell um as part
47:46 the virus infection, for example, um parts of the virus, you
47:53 , because of course the virus life , we know right genome enters and
47:57 producing viral proteins and then and then . And so in any part of
48:02 cycle, some of those ans can bound up by and see molecules.
48:07 I remember that hold your like skin , liver cells, kidney cells hold
48:13 body cells right aside from red blood have the MH C class one.
48:18 any of those cells that can get , potentially can be seen by these
48:23 T cells. So finding occurs and leads to typically the the apoptosis release
48:31 chemicals inducing get itself out of the . It's no good. OK?
48:40 they also can release toxins as well kill it. So uh but the
48:45 line is that and what they do recognizing the ans on the surface.
48:52 . Now again, like I said , we don't go into all the
48:57 of this, but we mentioned memory in the context of these cells.
49:01 cells also have memory as well. . So it it it's on
49:06 both sides here. B cells and cells have that memory component.
49:12 And so your key helper cells, types, these recognize. So the
49:20 two uh Mh CS and these are macrophages and dendritic cells and B
49:26 OK. We talked about B cells . And so they uh uh recognize
49:34 your key helper type um uh ones microphage cells. Uh I mean,
49:44 saw one of the effects was the of the macrophage, for example.
49:47 but they can release uh cause release other types of molecules that can complement
49:53 set for these kind of effects. And then with these cells that
49:59 we talked about that before macro basically more of the super posit,
50:05 And then um T helper type two activate B cells. OK. So
50:13 the um and it's the HIV virus actually infects um the these types of
50:24 helper cells because they have the CD , except that's what the HIV virus
50:29 and gets in. So you can if you're uh basically infecting those T
50:35 types that you're really gonna um severely your immune system because now you don't
50:42 your affecting production of antibodies by B as a result. So, uh
50:48 um so any questions about T OK. So let's um this is
50:58 thing, a book, a book really talk about it, but
51:02 you're gonna, it's not that difficult I think you're gonna, you're gonna
51:06 these couple of questions here. So a way to um categorize and
51:14 I guess you're immune system, You adapt of immune, there's different
51:20 , a couple of ways you can this, right? In terms of
51:24 stimulating it and how you respond. . So basically you have four
51:32 OK. So just read, so from the um top down,
51:36 So go this way. OK. what would vaccination be ABC or
51:44 like I said, I don't think gonna be very difficult for any of
51:48 , but it's worth mentioning because you certainly, I would, I assume
51:52 hear these terms. Let's count down . Forget this one. Then another
52:35 . OK? 21. OK. um let's go to the next question
52:42 quick and see what we get All right, next question. There
52:49 go. Yeah, this is about baby acquiring antibodies or getting antibodies having
53:23 . 36, you clearly you have concept, no doubt. So c
53:36 the first one that everybody answered. it's all about um the source,
53:42 ? First is the source artificial. basically is the shot or you're applying
53:46 through the environment basically transmitted to you infection. Um or um then it's
53:55 through mother's milk, right? How acquires uh yeah, antibodies. Um
54:04 then it's a question of, are doing the work to make the antibodies
54:07 are you just basically handing them off you being, are you receiving the
54:12 from the source? OK. That's act of passive. So certainly vaccination
54:17 artificial or part acquisition. But it's it is uh you're actively, your
54:24 is actively producing antibodies in response to antigen you're being given, um,
54:30 naturally acquired uh passive that of is baby. Right. Something on
54:35 mother formed and bodies being given to baby doesn't have to do anything to
54:41 them, it's getting them already So it's passive. Ok.
54:45 artificially acquired um, massive immunity. would that be on the 50
54:56 You can actually get to a certain , doctor. Yeah, it is
55:02 . Yeah, exactly. Right. . So you can get, it's
55:06 uncommon to get, I think out I G G because you get out
55:12 a lot of G um the uh , if you're getting preformed antibodies and
55:18 do anything, it's passive and it's a shot, right? So,
55:22 acquired active immunity. That would be so that's where we talk about that
55:28 naturally acquired actives, immediate, what's one? Naturally acquire activity? I'm
55:39 , that requires activity. Yeah, . That you, you get sick
55:45 you, you produce antibodies, you COVID and you produce antibodies and you're
55:49 it or whatever, right? So infected. OK. So, uh
55:53 is explained on this slide. So, um so let's, let's
56:03 look at one question here to kind wrap up this part. So we'll
56:09 a little bit about vaccines before we . Um So it basically B
56:16 T cells, right? You not . Yeah, it's come down
57:47 Uh and there is a false So, if you need to change
57:51 answer, if you picked e pick else. All right, let's count
57:59 here. Yeah. If you pick you're correct. All right. So
58:10 is clonal single clonal antibodies to one , right? The clone, they
58:19 the same type of epitope slash Ok. So, you know,
58:26 T cells can directly kill infected Of course. Right. B cells
58:31 really don't, I mean, they antibodies but they don't really kill
58:35 So they produce antibodies that then it have an effect in some way.
58:40 . So um all right, any about. So we'll talk a little
58:46 about vaccines. OK? And uh one, you know, there's a
58:53 table, there's a few tables in . I'm not gonna ask you what
58:57 of virus is produced against polio. not gonna ask you those kind of
59:02 , right? So you have to the tables of OK. This is
59:06 polio virus vaccine is and blah, , blah. So don't worry about
59:09 . OK. It's more about what the types of vaccines, how do
59:15 , how do they differ and what's unique about it. OK. So
59:21 went through the whole uh fast to , primary secondary response, right?
59:26 obviously that's what a vaccine is doing you're exposing yourself and getting a
59:33 you're exposing your body to this engine you'll go through the process, you
59:38 to produce antibodies to that. And so of course, with the
59:42 , you try to produce a vaccine will produce a strong immune response,
59:48 know, and, and, and one probably first is to, to
59:54 sure it's safe. OK. And , um of course, that involves
59:59 of testing. Now, um one uh to mention here. So,
60:05 we also talk about, I talk , um I think we talk about
60:13 in the next section regardless. So immunity is all about um having an
60:21 population. OK. OK. Um will always be members in society that
60:33 right or wrong won't be vaccinated. Sometimes you just can't, it's,
60:38 , it's detrimental to their health, know, because they have some kind
60:40 condition or for other reasons. You can't expect 100 100% compliance on
60:48 in, in, in the So, so it's gonna be populations
60:52 won't, that will be vaccinated. how do you help them out?
60:55 do you help them? Now, most of the population most is like
61:00 is, that's kind of what the is about here. These are
61:04 OK. The that's the thing that's the percentage of the population that
61:11 be vaccinated for there to be help these other people who aren't vaccinated to
61:16 them from the effects of the So, in effect, the vaccinated
61:21 in the population are the syncs to the infectious agent keeping them away from
61:29 who are susceptible. Ok. So you have more people that are
61:33 right? So this is a, this is a, um, let's
61:39 this is an unvaccinated person. All . And this is uh un
61:49 let's call it un waxed, And then vaccinated people, triangles,
61:56 ? You have more vaccinated people, you are basically, there's an infectious
62:04 from the population, you have more people surrounding these unvaccinated types. Then
62:10 the important the vaccine is that's what keep the population healthy. OK?
62:15 spread. OK? But if most those triangles are red being unvaccinated,
62:22 you know there's not, there's not have much help. So there's a
62:25 for this, OK? And it to really to this value. So
62:29 of R zero as kind of a multiplication or a reproduction value for the
62:35 the infectious agent. OK. So 4 to 7, what that means
62:41 for each person with mumps, it'll transmitted to four or seven other
62:48 You go down here to measles, ? Or pertussis, right? One
62:56 thing 12 to 17, 12 to people, right? It's more
63:02 right? More contagious, right? you have these values that are high
63:07 O, more contagious, more OK? Um And so for that
63:14 , the threshold goes up, You need to have more people vaccinated
63:19 it's more easily transmissible. So more people need to be there to be
63:24 to absorb this. Ok. And think uh COVID is COVID is actually
63:29 here in this, in this range with mumps that four or five
63:38 So, but that's not uncommon. pertussis measles, uh these are as
63:45 disease which is just not as transmissible pertussis or measles. So through the
63:50 is gonna be the most common motor and not surprisingly, uh those that
63:55 very contagious are, are those OK. So, um all
64:02 So what about vaccination then? Well, um different approaches.
64:11 Uh You know, because of, know what we know with the technology
64:15 have nowadays, we come to DNA and otherwise we have a lot more
64:20 available. OK. So in terms what you try to do with the
64:25 is um make it very immunogenic, ? If there's a strong immune
64:31 make it safe, right? Um also um best ones, the best
64:41 stimulate the entire death immune system. remember you got two components,
64:46 T cells and B cells. All . And you want the best
64:53 get all of those activated. OK. And the ones that do
65:02 the best are ones that tend to um one is really this group right
65:08 . We'll talk about first live attenuated . OK. So we talk about
65:15 vaccines from way back, right? are basically to attenuate means to limited
65:22 inactivate it, right. Don't make disease causing, right? But keep
65:27 alive. Ok. So a liver vaccine I E virus as an
65:35 um that virus has the ability to them. They infect the cell and
65:42 , but it's not causing disease. . So it's basically acting like it
65:48 would minus the disease part. And what stimulates B cells and key
65:53 So it's basically limiting a natural And in doing so at the
66:01 the entire adaptive immune system. And one that's a long lasting strong
66:07 OK. Um And so the uh so a number of vaccines are like
66:16 measles mumps vaccine. And again, don't need to the list here.
66:23 But these are things you likely have, have certainly have received.
66:27 . So a flu virus as well in this category or the flu
66:32 excuse me. So, um and the uh ways to affect this are
66:39 basically, you know, for a , you pretty much know what are
66:45 genes involved and causing the various right? So, knock those
66:49 OK. And um and but the beauty of this is the fact
66:53 they can still replicate and that's what boosts the immune system, right?
66:58 strong response. OK. And so activating, kill vaccines. Now,
67:04 live vaccines, could somebody come down full disease? I don't know,
67:13 certainly you could have some effects for . I'm sure we've had vaccines like
67:17 and you, you felt some effects us, OK? Um Little a
67:24 would be inactivated to kill the OK. And so that, that
67:29 have the ability to replicate that. um it's more working on B cells
67:36 antibody production. OK? Which is fine. OK. But it's just
67:42 as robust, let's say as a vaccine. OK? And there's
67:47 many ways to, to um to the virus, chemically radiation and see
67:54 examples there. OK? Of the the the thing is to make
67:59 it retains how you activate it, sure it retains its ability to stimulate
68:03 immune system, right? Keep those intact, right? So, um
68:11 those in that category are things like um been coughed, is it
68:18 So I think you're having allergic aren't you? You're having allergic
68:23 aren't you that your, your mass ? Yeah, your ma cells
68:29 are kicking in. Um I feel you. Yeah. Um OK.
68:36 if you really wanna get safe, ? Don't even deal with the whole
68:42 , whether you inactivate it or whatever the parts, use the parts of
68:48 . Um Then obviously there's the parts cannot, cannot replicate and, and
68:54 infection, but you can produce a response. Certainly. So subunit vaccines
68:58 be a different subcategories. OK. so the bottom line is you're,
69:03 taking parts of this microbe, Whatever they may be, you presumably
69:09 what the parts are gonna produce in response, right? This is of
69:12 , where animal studies come in to of gauge this as well. And
69:16 one simple way is really just to up the microbe, right? And
69:20 fractionate it centrifuge. You take the that, you know, is,
69:25 the engines that produce the response, ? And then that's your shot
69:30 Right. That's what, that's what's your vaccine. OK? You can
69:34 more sophisticated, all right, this somewhat of a crude process. You
69:38 , you might um um surmise, then we get more sophisticated, of
69:44 , by taking the gene for the . And then cloning that using the
69:52 cloning technology, put it into a cell and then make it express that
69:58 for you. OK? And um this process compared to this, I
70:07 just see in terms of economics and and things is gonna be um I
70:12 it will be more efficient to do because you can get, you can
70:15 cells, you know, you can lots of cells, bacterial cells grow
70:18 , you grow lots of them, them express it from a might,
70:22 might come in from uh just the standpoint efficiency. That's gonna be much
70:27 . OK? And so, um , that's, that would be your
70:31 , the uh and so uh DNA , you can use um um cells
70:39 your own cells, right? get that gene into your own
70:44 OK? And make them right, , you and representing cells,
70:49 Macrophages and, and the like they uh absorb that um DNA express the
70:55 and put it on the surface right MH C molecule that will uh that
71:01 um activate your immune system. And that's what um the COVID vaccines
71:07 all about. They are in that . Uh One of them, it's
71:10 group, the other group is actually this, the, the Pfizer one
71:15 a type like that. Uh it's the R N A vaccine to
71:19 uh more specific, not DNA but common vector vaccine. That's the uh
71:24 and J one was that type. so basically, you're using a um
71:30 the virus that's replicate. OK? then you take out the part of
71:35 genes that are available and you put , put in the um gene for
71:39 engine. So it expresses, expresses on the outside here. So these
71:45 the, whatever the particular engine is cloned in it, it expresses them
71:49 the surface here. OK? And um the virus like particles, these
71:57 kind of like a shell almost, ? So if you separate uh proteins
72:03 a particle engines in there with so, so they'll be sitting here
72:11 on the surface here and then that's your body can find and respond to
72:17 . OK? Um H PB is virus like that or vaccine like
72:21 And so again, toxoids, These are um um basically taking like
72:27 tetanus toxin. So like the diphtheria due to a toxin as well and
72:32 others and the toxin itself, you and then that becomes the shot,
72:39 the vaccine, the inactivated toxin. , so a tetanus shot is,
72:43 just that OK. Um So the yeah, that's uh more time.
72:52 , uh, we'll pick this up finish this on Tuesday folks. So
72:56 a good one and we'll see you
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