Natural Born Killers: NK Cells and CD8 + T Lymphocytes Flashcards

1
Q

origin of NK and T cells?

A

Both arise from common lymphoid progenitor cell
Both part of the lymphocyte lineage

common lymphoid progenitor cell goes to innate lymphoid cells, B cells and T cells

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2
Q

why do we need cytotoxic lymphocytes?

A

as a means to destroy cells infected with bacteria, viruses or parasites and tumour cells

requires a cell-surface mechanism to display what is going on within a cell - MHC

There are “self” and ”non-self” – the immune system gets rid of “non-self”. But, what if the non-self was hidden inside the cells? The immune system needs to know what’s happening inside the cell by looking at the cell surface - this is what MHC class 1 is for.

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3
Q

MHC class 1 proteins?

A

these are found at the cell surface, form a structure that holds antigenic peptides for surveillance by T cells

display whats going on inside the cell

proteins expressed within a cell (whether healthy, mutated or resulting from infection) are processed and presented on MHC class I proteins - not just viral proteins

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4
Q

MHC class 1 are recognised by?

A

CD8+ cytotoxic T cells

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5
Q

MHC class I structure

A

Humans: HLA-A, -B, -C

Tissue distribution: on ALL nucleated cells

two polypeptides, non-covalently bound

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6
Q

MHC class I proteins are central to anti-viral immune responses, so why don’t we see many pathogens that have mutated to avoid antigen presentation?

A

Multiple genes (e.g. two copies each of HLA-A, B and C) - this protects against a wide range of pathogens and their tendency to mutate

High genetic variability within these genes

polymorphisms are in the upper peptide-binding part of the MHC protein - in and around the peptide binding groove

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7
Q

explain about the binding groove further

A

the amino acids in the MHC peptide binding groove create pockets where the bound peptide can “anchor”

substituting different amino acids produces different positive and negative charge between different MHC’s

size/shape of the pockets also vary

MEANS different peptides will bind to different MHC alleles, depending on the size/shape/charge of the pockets

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8
Q

the TCR recognises what and how does it bind?

A

two things:

MHC protein itself
Antigenic peptide presented by MHC protein

Binds with a diagonal footprint that cuts across both alpha helices with the peptide in between
- allows it to contact the MHC and the main part of the peptide, meaning the TCR can see both and differentiate accordingly

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9
Q

For cytotoxic T cells, the interaction between TCR and MCH isn’t paticularly strong - how is this fixed?

A

CD8, which acts as a co receptor and is needed for the T cell to make an effective response - strengthens MHC class I/TCR interaction

TCR binds to the α1α2 domains at the top

CD8 binds to the support domains (α3 and β2m) at the bottom, structural support region. This region is highly conserved - why? Being highly conserved means CD8 always binds there - too many variations would risk losing CD8 binding. The polymorphisms are all concentrated at the top around the peptide and TCR.

The same occurs with MHC class II and CD4.

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10
Q

Some microbes get rid of their peptides being presented on MHC class 1 to prevent cytotoxic T cell destruction - gives some examples?

A
  1. inhibition of MHC class I expression - adenovirus
  2. HSV blocks the TAP transporter, that transporter that gets the peptides from the cytoplasm to the ER
  3. HCMV has lots of different evasion mechanisms, one is retaining MHC in the ER, or shuttling MHC out of the ER so it can be destroyed
  4. HIV downregulates MHC class I from the cell surface

BACKUP and solution to this evasion is NK cells

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11
Q

What are NK cells?

A

Classical NK cells are large granular lymphocytes that are not T or B cells

Do not express T Cell Receptor (CD3) or B cell receptor

They express the cell surface marker CD56

They have cytotoxic functions and cytokine secretion (some are more cytokine specific)

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12
Q

Low NK cell activity correlates with what?

A

severe disseminating herpes virus infections

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13
Q

how is MHC class I recognised by NK cells?

A

innate immune receptors:

  1. Killer Ig-like receptors (KIR) - regulate NK cell activity
  2. Leukocyte Ig-like receptors (LILR) - regulate NK cell function

KIR and LILR are encoded in a gene complex on ch 19, called the leukocyte receptor complex/LRC

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14
Q

Function of Killer Ig-like receptors (KIR)

A

predominantly inhibitory, ‘don’t kill’ signal

KIR recognise MHC-I by binding to the same face as the TCR, and inhibit NK cells from releasing lytic granules

Some viruses down-regulate MHC-I as a means to evade cytotoxic T cells, loss of MHC-I is also a common feature of tumour cells

If a target cell does not express MHC-I then there is no KIR inhibition, lytic granules will be released to lyse the target

Known as “missing self”

KIR are polymorphic and recognise subsets of MHC-I alleles - Different KIR see different groups of MCH alleles

Individual KIR genes vary in their presence between individuals

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15
Q

Natural cytotoxicity receptors (NCRs)

A

Find them on NK cells, they provide an activating signal to NK cells

NCR 1 binds viral hemagglutinin

NCR2 – binds a ligand that is expressed on tumor cells and upregulated by viral infection

Ligand for NCR3 is a stress induced
protein

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16
Q

what does target cell death or survival depend on?

A

balance of activating and inhibitory signals

17
Q

Antibody-dependent cell-mediated cytotoxicity (ADCC)

A

super activating signal for NK cells are FC receptors

If you have an infected cell with viral antigen, and antibody response has been made, the antibody will bind to the antigen on the cell surface

NK cells will come along with their FC receptors and see the antibodies, cross linking happens with the Fc region

Very strong stimulus, huge activating signals.

18
Q

Common feature of tumour cells?

A

downregulating MHC class I expression in order to escape the adaptive immune system

19
Q

Mechanisms of lysis for T cells?

A

cytotoxic granules

NK cells and T cells carry granules filled with cytotoxic proteins

Release cytotoxic granules at site of contact with target cell - these must be directed to avoid damaging innocent bystander cells

20
Q

how can CD8 cells trigger apoptosis of their target?

A

Fas/FasL interaction

This process does not depend on cytotoxic granules

Fas ligand (FasL) on T cells engages Fas on target cells to trigger apoptotic pathway

Fas/FasL triggered apoptosis is used to dispose of unwanted lymphocytes

Loss of Fas can result in autoimmune lymphoproliferative syndrome (ALPS) - swollen glands because excess lymphocytes aren’t being gotten rid of

21
Q

do NK and cytotoxic T cells both have memory?

A

just cytotoxic T cells