review class

Question 1

how do IFN responses promote a feed-forward loop

4

Answer 1

FDCs are the main secreters of IFN

IFN increase the cytotoxicity of CTLs, which will kill infected cells and increase more local debris which can be utaken by APCs

maybe talk about first and second wave IFN signalling here?? idkidk

Question 2

How does the innate immune system react to PRR activaiton

Answer 2

NFkb
IRF
IFNS
pro-inflammatory cytokines
ISGs (and resttriction factors)

Question 3

First wave IFN

Answer 3

happens inside an infected cell
when a cell is infected
PRR activaiton

Question 4

second wave IFN

Answer 4

ifn produciton in initial infected cell and neighbouring cells

Question 5

IRF3

Answer 5

in the cytoplasm, when it dimerizes it activates the transcription of interferons alpha and beta, as well as other interferon-induced genes.[8]

IRF3 plays an important role in the innate immune system’s response to viral infection.

Question 6

IRF7

Answer 6

IRF7 regulates many interferon-alpha genes.[5] Constitutive expression of IRF7 is largely restricted to lymphoid tissue, largely plasmacytoid dendritic cells,

has been shown to play a role in the transcriptional activation of virus-inducible cellular genes, including the type I interferon genes

Question 7

Outcomes of IFN signalling cascades

Answer 7

???

Question 8

Redundancy

Answer 8

multiple moleucles have the same effects

Question 9

Exosomes

how do they stimulate immunity

2

Answer 9

extracellular vesicles deliver bioactive molecules
-> can supress or activate immune activities

effect on APC activation
Effect of Cytokines
Effect on cellular cytotoxicity

all depends on the cargo they hold
(look at examples in the text)

Question 10

Which forms of cell death drive inflammarion

3

which drive inflammation and which dont

Answer 10

NETosis, Necrosis = inflammaotry

Autophagy and apoptisis are non-inflammatory

Apoptotic bodies taken up by phagocytes
Autphagy = self degredations and autophaic grannules uptaken by phagocytes

necrosis lysis and release damps
pyrotosis releases cellular contents

silent clearence of apoptotic bodies
cell lysis drive prr activation through damps

Question 11

phagocytes clear apoptotic bodies

Answer 11

two stages:

recruitment and engulfment

Question 12

Compare and contrast the function of neutrophils and macrophages in the progress and resolution of inflammation

Answer 12

????

Question 13

What is NETosis

3

Answer 13

PROINFLAMMATORY

utalization of DNA as a trap for pathogens

decondensation of chromatin
ruptures the neutrophile or small release of DNA

Question 14

What is NETosis

3

Answer 14

PROINFLAMMATORY

utalization of DNA as a trap for pathogens

decondensation of chromatin
ruptures the neutrophile or small release of DNA

has pathogen toxin grannules inside the chromatin

benifit = trap and has antimicrobial enz

cons= proinflammatory and may lead to autoimmunity

Question 15

what is in NETs

Answer 15

granule protiens bind extruded DNA

elastase and cathepsis G

myeloperoxidase

DNA and Histones

prevents dissemination of microbes

Question 16

Dendritic cells, PRR activaiton and antigen presentation

innate immune response and apc, trafficking and maturation

6

Answer 16

???

Question 17

antigen processing in DC

Answer 17

MHC1 present endogenous peptides (intracellular)
= self proteins or viral and or cancer peptides
=loaded into the ER by tap proteins after degredation by the proteasome
=loaded onto the MHC1
=recognized by CD8+ T cells as well as NK cells (recall this is an inhibitory signal for these bad bois)
-> this happens in all cells of the body
-> essential such that cytotoxic cells can recognize strange or the lack of self peptides
-> smaller peptides (closed pocket)

MHC2 present exogenous peptides
-> expressed only on APCS like DCs, monocytes, macrophages, B cells and eosinophils
=brought into the endosome where is it digested
=vesicle fused with another that had MHC2 within, exchage with CLIP and then presented to CD4+ cells
-> biggerpeptides becasue there is an open pocket

Question 18

cross presentaion

Answer 18

in autophagy
= consumption of peptides and transfer to and MHC 2

DC can uptake exogenous antigen and present it to a type 1 pathway
= exogenous antigen to a ensogenous pathways

only happens in specific cell types
-CD8+ DC

CD8+ T cells are not the same as CD*+_ DC

Question 19

What activates a DC

Answer 19

PRR activaiton leads to increased antigen uptake and processing
=> DC starts to mature and presents antigen on it surfaces, presentation of co-stimulatory ligands and the capacity to activate a T cell

Question 20

stages of DC activaiotn

Answer 20

Myeloid vs plasmacytois DC

first stage is differentation from their precursors

seconds stages is increased rate of antigen uptake

thrid is antigen processing

fourth is phenotype maturation
=cell surface markers are CD CD80/86, CD83

functional maturation
=the capacity for a DC to actually activate a T cell
=secretion of cytokines like IL-13 and TNF

Question 21

`DC migration to the lymph node

Answer 21

diffedrend DCs resides as teh barrier sites
=skin and mucosla surfaces

upregulation of migratory capacity after antigen uptake
= upreg of CCR7 to home towards a lymph node ( just like the T cells do)

no longer uptakes any new antigen

snap shot of the site of infection

Question 22

how do you activate a Th17 cell

3

Answer 22

three signal activaiotn

want to expand and differentie

Il-2 for proliferation (clonal expansion) and polarizing cytokines

Th17 requires IL-6 and TGHbeta causes the upreguatio of RORgt which causes differentaiton to an effector cell
= leads to the secreation of mediatiors Il-17A, IL-17F and Il-22

Question 23

why is clonal expansion so important

Answer 23

multiple cells that all share the same specificity to a given MHC-peptide complex

lots of effectors targeted to the same outcome

more than one cell is requred to fight an infection

not all cells surrvive after an infeciton
=we need memory cell!!

Question 24

What motivates cells to traffic to organs and move into vessicles

know where cells develop from, and which organs the cell move to and traffic inbetween

3

Answer 24

chapter 14
511-533

go over those figures boisss

thymocytes reside in the thymus for 4-5 days undergoing negative selection

Question 25

CCR7 and S1PR1

Answer 25

CCR7 is essential for T cell homing to the lyumph nodes and the thymus

S1PR1 sensitivity recruits T cells abck to circulation and lymph

more CCR7 = will move to the lymph node
more S1PR1 = more likley to move towards circulation

Question 26

four key steps of immune cell extravasion from vasculatore into tissues

Answer 26

rollin, activaiton, arrest/ adhesion/ and transmigration

Question 27

four key steps of immune cell extravasion from vasculatore into tissues

Answer 27

rollin, activaiton, arrest/ adhesion/ and transmigration

Question 28

what is the fuction of cTECs and MTECs

4

Answer 28

purple thymus slides

know potive and negative selection in the thymus

cTECS
postive
=T cells need to recognize selfg MHC, otherwise if they dont revognize MHC they are usless
(because they need to see peptides in the context of MHC)

negative
=if they recognize MHC too strongly in the absene of peptides they are killed off because they are autoreactive

mTECS
= special because they express the transcription factore AIRE and express tissue specific antigen
=loses up chroimatin and allows the transcription of normally silenced genes

Question 29

Tregs

Answer 29

autoreactive

bind MHC stoo strongly

help to supress immune response of other immune cells

help to maintain tolerance

Question 30

How does antigen traffic through a lymph node

4

Answer 30

there is two ways

free flowing and fDCs

Question 31

Organization of lymph nodes

Answer 31

??

Question 32

Where does antigen enter the lymph node

Answer 32

via and afferent lymph and enter the B cell zone

is uptaked by resident Subcapular sinus macrophaged and fDCS

B cell interact with intake antigen through their BcR and processed antigen like T cells

Question 33

Lymphocyte migration alone the firbroblast reticular cells

Answer 33

guided by 3d netword

FRC network surround the HEVs and naive T cells exit from HEVs
________IDKk

Question 34

What are the products of an effective GC response

4

Answer 34

what the inital cells that are aftivation to undergo mutation = affintiy maturation

Question 35

classical T cell B cell interactions

Answer 35

Tfh cells are CD4 that provide something

Question 36

classical T cell B cell interactions

Answer 36

Tfh cells are CD4 that provide something

?????

Question 37

AID

Answer 37

important enzymne in SHM

mutates cytosine to uracil
= leads to DNA repair and mutation in the DNA sequence

trial and error processs

Question 38

differentiate light and dark zone of the GC

Answer 38

do it

Question 39

What does it mean to be a memory cell

3

Answer 39

what happens after the collapse of a immune response

Memory cells live

they are the first cells to be activated upon secondaary exposure to an antigen

differnt type of memory cells

T effector
Tem

CCR7 long lived
Trm memory celkls

not all reside in the same areas, lifespans or capacity to become memory cells

Question 40

Chemokine receptors

Answer 40

Typical vs atypical receptores

typical = DRYLAV motif, and are G protein coupled receptors

atypical =substituiton int he DRYLAVmotif and are not G protien coupled receptors
= can help to scavengw chemokines and are immunomodulatory

Question 41

Complement proteins

Answer 41

MAC complex

forms holes and pores in the target cell membrane

leads to lysis of the target cell

Chapter 12 437-438

know the purpose of the signalling cascade
-> and what C1 does as well as outcomes

Question 42

C5a

Answer 42

is a chemoattractant for inflammatory cells and is a part of the complement cascade

Question 43

antibody mediated immune reactions

Answer 43

know three effector mechanism for the final

neutralization, agglutination, precipitation

complemetn fixation, opsonizationa nd actiaviton of NK cells