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BIOL 2321_Microbiology for Science Majors - 2321_MW1130_4_06_23_Lecture_CH 23
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00:00 So I realized, uh because I was kind of a um last
00:06 not last minute, but, you , you may not have had
00:10 a lot of time to prepare for before, right? So I'm not
00:12 how many r even went through this or you just gonna give it a
00:15 over. That's fine. OK. we're gonna kind of begin with some
00:19 the basics uh in a way it of things that apply to the whole
00:25 . OK. So, uh of we're talking about. So the approach
00:30 we're taking is um uh how does body fight disease, right? And
00:38 , that immunity, then we look it from the other perspective of how
00:43 the pathogen? So by that time have learned all the different ways in
00:49 you can counteract infection, right? so then you look at,
00:54 well, how does, obviously it's , right? We get sick,
00:59 know. And so pathogens have ways get around all these different types of
01:04 , right? So that's what we at in chapter 25. And that's
01:08 , that's that um flip class So, um then we end,
01:14 end of it is kind of putting all together really, you know,
01:17 we look at different diseases and what mention. OK. Here, here
01:22 some of the ways you, you disease in the context of, of
01:26 particular disease and what, what the does to overcome it. So it
01:29 of puts it all together at the . OK. So uh innate
01:35 Um so we look at it in of one's own immunity, right?
01:41 you know, what is the state one's immune system? Of course,
01:45 to, you know, how susceptible are, you know, what's your
01:49 of resistance to disease? Ok. infection equal disease every single time?
01:56 it, we are well aware by of this particular group, all
02:03 what do we call those people? is a thematic characters, right?
02:10 . So, no, that's not equal. Uh Coke, Robert Coke
02:16 . But uh we learned that that's always the case. You, you
02:19 um good for meningitis organism. I almost half the population carries it in
02:27 throat and they have no symptoms of . Ok? But when an outbreak
02:32 , it's one of them. That's source of it. OK. So
02:36 so it's, that's true for many diseases that affect us. OK.
02:41 Mumps and measles um among others cold , et cetera. Uh any
02:48 Um So I kind of want to with this and why I mentioned it
02:54 several times this semester in various So that's a anybody know what that
03:01 from Chipotle? It's the burrito OK. So then we got avocado
03:08 on top of there, we got like lettuce looks pretty good.
03:15 I'm hungry. Um So, but know that um from 2016, I
03:22 it up 2016 2017 2018, 3 in a row was responsible for or
03:34 . Ok. Um And that, course, coined the phrase you can't
03:39 your coat without what is that equal ? Yeah, we call it
03:48 so it got so bad. So looked this up and it says um
03:53 from 2020 April. April 2020. uh three years ago, Chipotle agrees
03:59 pay 25 million in federal fines, ? So no, from 2015 through
04:07 . So 15, 16, 74 of food borne illness, outbreaks,
04:13 people sickened. Um I didn't say many people died. I'm sure there
04:18 a few deaths. Um the uh Chipotle uh 641 people in Boston.
04:28 . Ok. So um of course was it uh the the it was
04:35 to um people handling the food and hygiene, improper sanitation, right?
04:43 surprising. So, when you think uh and it related to um the
04:48 produce uh that they used and so learn this later, but you can
04:55 , you know, uh the farm the lettuce is grown and getting into
05:02 mouth on that burrito bowl, How many hands that change that went
05:07 ? Right? Distributor, that people picking it, distributors, blah,
05:10 , blah and anywhere along the you know, issue can happen.
05:15 , um, so what happens when have? Um, so there was
05:19 person who actually came was one of victims of this, right?
05:23 um and I have some stuff underlying . Oh, well, there's some
05:28 I wanna point out. So you know, Rita Bowl on October
05:31 became sickened. Four days later with diarrhea, uh common as we all
05:38 common G I tract infection symptoms, ? Uh registered nurse began experiencing buddy
05:45 , tell tale signs of an E infection. Stool sample tested positive for
05:50 toxin producing E coli. So uh here for a second and all right
05:56 and symptoms. So every as we , right, every focused on infectious
06:00 , right? Disease is due to acquiring a micro, right? Um
06:06 so signs of syndromes. So every has associated signs and symptoms,
06:12 Respiratory illness, you know, coughing in the throat, maybe these kind
06:17 things. G I tract infections all similar dehydrated when I lost some water
06:24 of thing. And so uh with cause of disease, every, every
06:30 disease has a cause ideological agent we it right. E coli, of
06:35 , it's a pathogen, um duration severity of the disease just went on
06:41 like uh typically for 10 days. stomach cramps, the fact that E
06:48 has, I remember this one This is the oh 157,
06:52 e coli uh virulence factors. Very . That's how pathogen causes disease,
06:58 for it. Uh The ciga toxin one uh I think is another one
07:04 attachment to your intestinal wall um and . And so it's what enable the
07:11 to do what it can do. many of these are evolved in overcoming
07:18 from your immune system. Ok? phase phase variation mechanism, right is
07:23 matter um reservoir, right? So source, right? So every infectious
07:33 has a reservoir reservoir is the source the, don't worry so much about
07:38 are kind of things we'll talk about 25. But um nevertheless, the
07:44 source. And so for e coli particular one, the source is actually
07:49 . Ok. Um We'll talk about later. How you know you go
07:55 , how do they get in my and how do they get it from
07:57 cow if everything less? Right? , there's that, that happens,
08:01 ? But um point is every infectious has a source and many times the
08:07 is a human, right? Like reservoir is a human mumps and
08:11 reservoirs are human. But for other , rabies, those are uh generally
08:18 , um bats, very common Uh anyway, the point is uh
08:23 are different types of reservoirs, They can be humans, they can
08:27 animals, they can be water or or just the depends uh transmission.
08:33 , reservoir is one thing, But it has to get to
08:38 right. Transmission of disease, various . Um food board, eating contaminated
08:44 , right? Water could be a uh when you transmit right um uh
08:53 right through the air. Very very that's probably the most common rou of
08:58 is through the air, right? I think of all the respiratory
09:02 right? Flu virus, the C , right? All those respiratory illnesses
09:09 uh airborne, right? And so uh so as we go through
09:16 again, this is kind of more 25 stuff, but that's the kind
09:19 at least get a preview of what do before we see what they we
09:23 do to them. OK. So , so the various factors the pathogen
09:30 , right? Various functions right? , I would say call this the
09:36 part of the infection here, Later part of the infection here,
09:42 ? So there is a kind of time element to it, right?
09:44 has to get in the host right? Maybe infect deeper into the
09:50 . These this is all things that time, but there's gonna be various
09:53 for each one of these things. . And so really how deadly a
10:00 pathogen is relates to a number of of factors. OK. So,
10:08 so again, this, we just in the context of that woman who
10:14 bowl, right? Uh pathology and is the process of causing disease,
10:20 ? So, infectious agents and their factors, et cetera, right?
10:24 we know that, you know, the infectious disease is, there's differences
10:29 terms of what they do to our , right, induces induce fever that
10:34 dehydrated, whatever, right? Rash all, it all depends all all
10:40 . OK. So um all So we'll get into the different,
10:45 let's see what we get to. , these are some easy questions.
10:48 think you'll, these are slam OK? Just kind of think about
10:54 , which responds faster, right? we look at adaptive and they just
10:59 of the organization of the immune Ok. Just a second.
11:21 OK. Let's count down 14, . Yeah, it's so think about
11:45 there's a pathogen right here is uh , COVID, right? What does
11:53 have to get through to cause Right. But how many layers,
11:59 . Well, COVID acquired through its transmission. So it's gonna go,
12:05 know, right? Mucous membranes, ? That's a, that's gonna be
12:08 physical barrier, right? Um Or it's something else maybe through the
12:14 skin is actually fairly impair, Yeah, you have natural openings and
12:18 . But um you know, airborne , right? So uh that's one
12:24 and then you go deeper, Then you have different cell types that
12:27 involved. Uh So let's just kind see the setup here. OK.
12:34 we refer to the each type. I think that's, that's three lines
12:39 defense, OK. Three lines of . First is your physical barriers,
12:46 mucous membranes, right? And your is nonspecific. OK? Whatever is
12:53 there, the physical barrier will stop , right? It's not specifically certain
12:57 OK? Um But that community the . OK. That community relies on
13:05 . OK. Recognizing antigen, that's it's all about. OK. And
13:11 a time limit to that, So we talked about that a little
13:15 in the context of the phase variation , right? It takes time to
13:20 uh seeing it's one thing then it buying to the engine, then it
13:26 a a um response, right? something will happen as a result.
13:31 all that takes time, right? is why in the immune system
13:36 of course, it's there much OK. So um first line
13:42 skin mucus membranes. But then remember both of these all right, skin
13:49 mucus membranes are bacteria, right? micro biotic enhance those two things,
13:59 ? So their presence, believe their presence also is a deterrent to
14:06 . OK. Um Third layer. if you get past that, now
14:11 get into more of what I call cell types and processes, processes kick
14:18 processes like the information like um um , I call these things processed,
14:27 involve chemical signals and step 12 and and these kind of things.
14:33 So, and then you have things compliment, these are non cell based
14:39 . OK? A compliment is um so um now once you get past
14:47 , then you have your third life that's your T cells and B
14:52 OK. So they're the ones that involved in recognition, but you do
14:58 um uh cell types that will work both sides. OK? And that's
15:09 that's your uh dendritic cells and So they have, they have um
15:18 in both on both sides. These can actually work with um key
15:26 . OK? And so the B are the ones that produce antibodies.
15:32 . T cells have a little bit function in actuality, certain T cells
15:38 of control the whole process. Uh But that's what we'll talk about
15:42 . Um we'll talk a little bit it today and next time, but
15:46 chapter 25. OK. So um three levels right now, uh
15:55 her, that immunity is all OK. Remember that can be what's
16:03 the periphery, right? Uh is it a gram gram out of
16:09 , the molecule sticking out of A virus and like the protein
16:14 envelope proteins. Um uh a flagellum ? Things that are on the
16:20 So uh let's look at this Should be another easy one. All
16:29 . So, among your family who do you think forgiving you,
16:37 microbiota such a thunderous sound? All . This can down from 10.
17:17 let's see. Let's see. of course. It's your mother.
17:22 . Mother's day is coming up, your card. Thanks for the
17:26 OK. Um Among other things, . So um when you were
17:34 obviously, it require me that microbiota birth. OK? Um Thereafter,
17:43 acquiring other types, right? Because you're in the environment, right?
17:50 in the air, things you eat these are all gonna be contributing to
17:55 microbiota as you grow up. And so uh here this table is
18:01 showing you and don't memorize this but it's just showing you kind of
18:05 numbers of these, right? So skin uh 10, 10,000 um 1000
18:18 per mil, right? C F is what we call form a
18:22 So basically think of C F U cell. So mil so the amounts
18:28 per line, for example, uh the mouth, the uh millions of
18:37 , the uh G U track, the G I track, right?
18:41 to the 11th per cubic centimeter. a humongous amount of bacteria in your
18:48 . OK. So uh now I saying, OK. Yeah, they're
18:54 everywhere, right? They're found everywhere your body well, they shouldn't be
18:58 , right? They shouldn't be floating in your brain, for example,
19:01 your heart, right. That signals signals some type of infection.
19:05 you know, aside from your vital , they are pretty much everywhere.
19:10 ? And they have their specialized micro environments. Ok. Uh They'll
19:17 . You'll have some certain types on skin you're not gonna have in your
19:22 . Ok. Many, you many will be aerobic, some
19:26 OK? Um But they create their little micro environment. So even in
19:31 mouth, your mouth, you'll have ropes in. There you go.
19:35 you're breathing air around them all the , right? Well, because they
19:39 , they're tiny, right? They hide mix and crannies in your,
19:42 your teeth, right? Your gums what not. That's how you get
19:45 cavities from bacteria. OK. So they ferment, right? And remember
19:51 need, you need to be anaerobic throw in for me. And so
19:54 , there's places that hide your mouth are anaerobic, you can't really create
19:57 OK. Uh environment. And so the skin typically is kind of salty
20:03 that attracts environment for staff, staff , can, can withstand higher salt
20:10 . So the point is all parts your body have these different micro environments
20:14 different types of, you know, terms of P H and so concentrations
20:19 salt concentrations, et cetera and the that inhabit those areas are very well
20:24 to them. Ok. As they be, as you want them to
20:28 , right? Because this principle of you learn, I, I assume
20:32 , by a one on the ecology there. Um, a criminal
20:38 Ok. Well, no, you heard it as competitive exclusion, but
20:42 mean, same thing, right? I think what's the textbook definition
20:47 No, two species can occupy the niche, right? Once you gotta
20:52 or be eliminated, right? And out. OK. And that's,
20:57 that principle is what helps keep, , helps keep pathogens out of your
21:02 or you have a well established microbiota something just to plop down and take
21:10 that can be very hard. When that can happen, what makes
21:15 easier for types to assert themselves and is this you're an antibiotic that can
21:23 the levels of, of your micro and that could open up opportunities for
21:29 . So that's one example, But you know, you're a healthy
21:34 , you're not on an inbox or , then you want that microbiota there
21:39 thing. OK? And so you look at these symbiosis, I'm sure
21:44 familiar with this. You, you um assign a zero plus or
21:50 to each member of the symbiosis, ? And so it is, and
21:54 of your microbiota falls into the first categories. OK? And mostly
22:02 but certainly those that are mutual. . So um and every day there's
22:09 new about one's microbio, right? everything from uh supplying you very effective
22:17 and amino acids to uh allowing you digest certain foods you otherwise couldn't because
22:24 can to immunological effects, positive immunological , um everything it could be like
22:35 effects as well. Like because remember those millions of micro micro microbes you
22:40 in the body that's millions of other you've got as well, so to
22:47 , right? And so the effects those, we understand some of
22:51 but there's a lot we don't And so um but think about how
22:56 they've been with us, right? have been evolving for six million
23:00 You've had that you had those bacteria humans, of course, the same
23:04 of time. So of course, gonna be some for the most
23:08 right? Um helping each other out . Um That's why I say you
23:14 , you can't be a germaphobe, ? You want those, you want
23:18 OK? Um The parasitic types, course, uh you can prior to
23:25 . Um obviously the parasites uh benefiting at your detriment. So, but
23:32 , uh commences mutual types. Those what pretty much make up your
23:38 but even those types, right? these guys, all right, every
23:43 in a while can become one of OK? Opportunistic. OK. Staff
23:51 a common example of this, You have staff primarily in your,
23:56 just memorize your nose skin. but if new areas open up to
24:04 , right, they can get beyond normal environment where they're more or less
24:08 a check and that's kind of where like to go. But if they
24:12 new entry to a cut or then you can have issues.
24:18 So now they're in areas they don't belong without the normal checks on them
24:22 they can proliferate uh not all but there's certain types that can do
24:27 . And so uh that's when a was once thought to be a mental
24:34 mutual type becomes an opportunistic pattern. . So uh that's so the primary
24:41 , right? Very different, The primary pathogen, if it's there
24:47 your body, it's not there just hang out, it's there to cause
24:51 , right? So primary pass something Ebola um anthrax um number of
25:00 right? So these are part of normal microbiota, obviously. OK.
25:06 , um all right. Any questions this? OK. All right.
25:13 let's look at, so it's gonna a little bit redundant because we look
25:17 physical barriers, we can look at in the context of being a physical
25:23 . But then also they have this function, which is being a chemical
25:27 because these physical barriers also produce secretions these secretions have chemicals that can have
25:37 activity. OK. So they kind have dual functions here. So,
25:41 the context of physical barrier, Skin obviously uh skin again is a
25:48 protective layer. OK. Um Thick remember it gives your cells stack on
25:54 of one another, right? It carrot, that kind of helps really
25:59 it, right? And so it's easy to penetrate through skin,
26:06 But the only way that happens is an insect vector, right? An
26:10 , uh what's not a virus, example, right. So the the
26:14 itself penetrating your skin through its uh . Um but you know, you
26:22 have natural openings obviously in your right? Pores, right? Sweat
26:26 , et cetera. That's where bacteria get in. Um when we talk
26:30 subcutaneous infection, that's usually introduced like a wound to some type of splinter
26:37 . What have you, then you get a subcutaneous infection um which can
26:42 be through a uh an opportunistic pathogen then arise this way. Ok.
26:50 , uh so mucous membrane. So are gonna be the line,
26:54 Your your body cas right? Not your nose and your throat and your
27:00 , right? These are all uh membranes. And so um that's a
27:05 as well. OK. And so uh have, for example, uh
27:12 and your mucous membranes have to be moist, right? Hence mucus,
27:17 ? That's what that mucus secretion is . And so uh uh tears and
27:22 , right? So saliva washing over teeth creates the contain, clean,
27:27 off your teeth of, of, microbes, um tears, you
27:32 you produce tears for the same function hairs in your nose and ears,
27:39 ? Um Help you keep stuff right? Trap dust, trap particles
27:44 whatnot. Um But especially this one escalator. Ok. So this is
27:52 your uh trachea or windpipe if you . Ok. Full of little hairs
27:59 are really moving, but it's that the mucous secretions that serve the
28:06 particulates get them out um when that's , right? Which, which
28:11 which it can be in, in illnesses. Ok. That stuff can
28:17 get into your lungs, right? often. Uh you might have
28:22 a uh primary infection due to a , right? Say a cold,
28:27 cold or flu in the course of infection, you become uh dehydrated,
28:36 ? Very common. What do what do you, what do you
28:38 told when, if you have a or a cold, drink fluids,
28:41 fluids, right? Because you get and if you, we normally don't
28:45 enough when it happens, it affects mucus um consistency. So it doesn't
28:52 as well. So it's not uncommon have a respiratory environmental infection that then
28:58 followed by a bacterial secondary infection. much worse because now it gets into
29:02 lungs. And um like pneumonia is , an example of that,
29:08 So the point is this is a important defense to keep functioning right?
29:15 in order to counteract a respiratory Ok. Um So other things you
29:22 go OK. What, how does have any use? Right. How
29:24 the ear wax? How does that me out? Well, it's it
29:28 , trapping stuff in there, Um Digestion, you constantly, your
29:33 are constantly about paralysis, right? material for your gut. Ok.
29:39 of course, covers the windpipe when swallow. So you don't get food
29:43 your uh trachea. So any these are all again, physical
29:48 but they all produce uh certain right? Chemical defenses, right?
29:55 , just the nature of the skin , very oily. Um although it
30:00 from person to person uh kind of . So these are environmental conditions that's
30:05 suitable for, for many microbial ok? Uh mucous membranes,
30:12 Saliva, gastric juice, low P and started by two um urine uh
30:19 slightly acidic. Um but a common is this, you see the multiple
30:27 Lyo design, right? So the apart pep, right? So it's
30:32 defense against bacteria. OK. Um defense and so defenses are produced by
30:42 lot of different cells in your right? They're just little short uh
30:48 um that basically acts like a it kind of goes into the membrane
30:55 leaks, right? And so there's of different types of defenses, hundreds
31:00 them, I think that various of cells produce uh your macrophages, your
31:07 um cells which are your, one your primary big acidic types have them
31:11 well as other types of cells in body. So um so just from
31:16 alone, physical barriers, chemical you get a lot of stuff already
31:22 can, that can counteract uh OK. Um Now one of those
31:31 fits in this category too, what call toll like receptors. So the
31:35 I think of these things is as alarm bells, let's the fire alarm
31:40 your body, right? Signaling something be going on here, infection
31:46 OK. And so of course, the way your body tells alert cells
31:53 your body through chemicals, right? signals is how your body talks to
31:58 cells, right? And so this uh it used to be called
32:05 OK. Now it sounds weird, it became maps. OK.
32:12 The maps. Uh oh to me it is is to me it kind
32:19 signals an action basically. OK. they call them maps. OK.
32:23 these are uh typically amino acid uh or sequences in these different types of
32:31 of flagella, the cell wall, LP S layer, et cetera.
32:36 amino acid sequences are recognized in these structures and they bind to a receptor
32:42 that binding generates a chemical signal. . So you have types that external
32:51 internal receptors, right? So your like receptors T L R S are
32:58 the surface, right? The other are what we call nod like
33:04 they're internal. So remember uh bobby , virus like a virus can infect
33:11 be inside of a cell. So some of those things can be found
33:17 by a nod like receptor and create effect. Ok. Um So here's
33:23 example of pathogen, right? There's bacterial pathogen and the flagellum part of
33:31 can act as a as a right? And internally. So say
33:38 have a, so the way toxins is bacter toxins, they get inside
33:43 cell and cause different effects. So in itself can also be an N
33:47 . So can a viral infection, of those can, can uh bind
33:52 these. And so whichever one it's to, it's gonna create this cascade
33:58 them, right? Basically, the the production of different signals that ultimately
34:04 lead to production of cytokines. And is something we'll, you'll hear time
34:09 time again in this unit is cyto , cytokine site. So it's a
34:15 term that describes a number of different which have various roles in fighting an
34:23 . Ok. And those roles there are some, not all of
34:27 , but some of the major So chemo attractive. So you have
34:32 infection somewhere. You want to bring the relevant cells that can take care
34:37 the infection to the site. So have to attract them and track them
34:41 the certain chemicals. Another important function um basaltic factors. Ok? Especially
34:52 . Ok. Your major cell pathogen fighters are neutrophils that are in
34:58 blood neutrophils, right? They go then ingest, right? So your
35:06 has like is full of like 70% your blood is is neutrophils.
35:12 So they're of course, circulating in blood vessels. So what you need
35:18 an infection, you need to get out of the blood vessels.
35:24 To do the job. And so where vasoactive factors can they manipulate blood
35:30 , making them more leaky, enable to come out, right? And
35:36 so very important function. So we'll that in the inflammatory response, we'll
35:41 about next time. Uh activating T activating macros, these are important infection
35:48 . So, t cells will activate adaptive immune system. Let me get
35:53 going. So, so, and are just 44 different types. There's
35:58 more than that, each with slightly different roles, inducing fever for
36:04 kind that do that. So very functions, all, all with the
36:08 of, you know, in some or another counteracting an infection.
36:15 Uh Basically telling other cells of the system to do different things to,
36:21 overcome this infection. OK. And , um so again, it's the
36:25 you hear a lot, you'll hear lot in intersection of and so,
36:30 so let's look at this question. . This won't be too difficult.
36:37 , you got the, uh, pictures. Wait, is there another
36:42 here? Hold on. All Yeah, of course, we have
36:47 , I think of it. All . So we got, uh,
36:51 have trophy, the macrophage and at site don't have a picture of a
37:00 . Yeah. If you're looking for cell of the adaptive immune system,
37:04 a name, a general name for . Ok. Let's count down
37:59 Um OK. See. Yeah, gonna be the sites of course.
38:10 . So uh T cells, B that fit into the lymphocyte mode.
38:16 . Um So we look at, we go from physical chemical barriers to
38:23 second line even. So different cell , specific cell types. OK?
38:29 So you take blood, of I'm sure you know this you can
38:33 , right? You'll have a uh fraction and a uh uh fraction um
38:41 set uh pellets. OK. And we got at the plasma which is
38:46 protein, heavy blood plasma contains basically of protein. OK? Including
38:52 complement and other um formed elements are cells. So erythrocytes, red blood
38:59 , leucocytes, that's our focus Um And so the term granular site
39:06 a granular site, all that refers is how it looks under a
39:11 OK. Granular sites have very obvious in them. OK? A grano
39:19 do not but it doesn't mean they have them. They're just not as
39:23 and visible in the light microscope. really the only, that's the difference
39:27 those two terms. OK. Um they look like under a microscope.
39:32 . So neutrophils basophils Eoin, Um lymphocytes are in the a on
39:41 side side. OK. So let's at some of these more closely
39:47 So neutrophils primary big city type early the infection. OK. So early
39:55 is a very, they have a kind of uh nucleus uh that we
40:02 load different loads. It's all connected they appear as like lumps or
40:10 single movie that they very characteristic in group. Um These are types that
40:17 blood that is again early early in infection cycle. They're the primary ones
40:22 the work. Ok. Um So are not about, they're much less
40:30 in the cell in the blood, me. Um They, they often
40:36 um antibodies sitting on top of Ok? And those antibodies will bind
40:44 and that will create an effect in basophil. Basic basophils are about emitting
40:50 . That's what they do. Um like histamine and others are part of
40:54 inflammatory response will talk about that But they thing about really chemicals.
40:59 you have allergies, these kind of overactive and that's when you get your
41:04 watery eyes and, and, and these can be acidic but their function
41:18 really with dealing large pathogens by I mean large could be multicellular
41:24 right? You can have infectious agents are things like worms, right?
41:30 so these tend to deal with those , ok? But again, they're
41:35 heavily a toxin releaser, ok? Among the leucocyte, a, I
41:43 say a grand you've got um monocytes typically are floating in the blood,
41:52 then they exit and go into your tissue. Lymphatic tissue is kind of
41:59 of it as a a it's in to your circulatory system, OK?
42:05 a system of vessels, OK? you have lymphatic fluid going through
42:10 We'll talk about that next time, that's where they develop into macrophages and
42:16 cells. OK? In this lymphatic , um these have a role as
42:22 mentioned in working with the adaptive immune . OK? A a function they
42:30 is what's called antigen presentation. And it's that function that kind of
42:39 them to the adaptive immune system, they work with cell to that
42:43 OK. Again, we'll elaborate on later. But um the, the
42:50 uh natural pillar cells are also a of lymphocyte um as well as T
42:58 and B cells. OK. uh so you differentiate T cells and
43:05 cell function in terms of what they , you gotta remember, um pathogens
43:14 be of two types, they can their disease cause stuff completely outside cells
43:22 exercise that right. Um Then there types that do not they go inside
43:30 , the obvious example there of But you haven't learned this yet,
43:36 you'll learn that there are also bacterial that can also go inside cells,
43:43 for the purpose of replicating cells like virus does, but to hide
43:48 hide out from the immune system and to penetrate deeper into your body.
43:56 the meningitis organism typically sits on the , right on the um mucous
44:02 OK. But then it gets into brain, right? So how does
44:07 do that? Well, it has to get inside your different cells and
44:13 to the brain. OK. So a type of intracellular pattern.
44:19 Um So the point is that viruses definitely are of that inciter type
44:26 so too can certain types of bacterial . OK? As we'll learn.
44:29 right. So you have to have that will deal with both types.
44:36 ? And um that works can work differently. OK. So you have
44:42 cells that, that's kind of their to do that. And then B
44:46 produce antibodies. So, antibodies, , which we always draws like these
44:51 shaped structures, right? They recognize on this part of the antibody.
45:00 . A G is short for OK. So then you have a
45:04 here, they actually combined to a , right? But um the engine
45:10 , this these only work outside the and anybody can't go inside of the
45:17 . And interact with an manager. only work outside the cell. The
45:21 cells are ways of dealing with uh that have been infected. OK.
45:26 we'll see. All right. um the natural killer cells,
45:33 So these are the type, they a type, they can recognize infected
45:38 . OK. Remember it could be virus infected cell. How you
45:43 how you gonna know that? Because not inside the cell being recognized,
45:47 inside the cell hiding. So you to have a way to, to
45:50 those type types of cells that are . Ok. Um Also some cancerous
45:58 uh can be recognized by natural killer in. OK. It's actually an
46:04 , has been an active area of is to take advantage of this,
46:10 ? In terms of using it to with different types of cancers.
46:15 Um OK. I don't, I not. We're gonna talk about these
46:22 . All right. Any questions? how I'm gonna, that's what we're
46:26 stop here today, folks. Pick up next time. Thanks. Have
46:31 good weekend. Go
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