L21: Immune Deficiencies

Question 1

Primary deficiencies include:

Answer 1

1. SCID
2. lymphoid deficiencies
3. myeloid deficiencies
4. Thymic deficiencies

Question 2

Secondary deficiencies include:

Answer 2

HIV and AIDS

Question 3

Severe Combined Immunodeficiency Disorder (SCID)

Answer 3

• A bucket term that encompasses a variety of defects that have multiple effects
• Caused by mutations near the beginning of the developmental branch points or to some proteins that affects overall function.
• Ex- Reticular Dysgenesis

Question 4

Reticular Dysgenesis

Answer 4

• Caused by mutation of adenylate kinase 2, a mitochondrial protein central toenergy metabolism.
• Red cell and megakaryocyte production is relatively normal
• Myeloid and lymphoid cells are largely absent
• Individuals lack both innate and adaptive functions, and die of septicemiawithin days.

Question 5

Lymphoid deficiencies

Answer 5

1. Many of these are also classified as SCID, because a failure of adaptive signalingcauses malfunction in innate responses as well
2. Most of the defective genes are recessive, although several are X-linked
3. The defect tends to involve T cells (If TH cells ain’t happy, ain’t nobody happy.)
4. Example- Bubble boy disease

Question 6

Bubble Boy disease

Answer 6

• results from a mutation in gene for the γ-chain of the IL-2 receptor. Recall that IL-2 signaling is central to all adaptive responses.
• Gene coded on the X chromosome
• Lack T and NK cells, tonsils nor lymph nodes, and only vestigial thymusesd. B cells present, but are ineffective at producing antibody
• David, its most famous victim (see Newsweek article).

Question 7

Thymic deficiencies:

Answer 7

DiGeorge (in humans)

Nude (in mice)

Question 8

DiGeorge/Nude

Answer 8

• Errors in function of neural crest cells lead to no or vestigial thymus, whichleads to no T cells (except NK) and sometimes no B cells (lack of signaling).
• Other structures produced by the neural crest cells may also be abnormal: thyroid, parathyroid, major heart vessels, head and neck structures, and hair follicles in mice.
• Disease is dominant in humans, resulting from the deletion of a region of chromosome 22 coding for a T-box transcription factor. It’s autosomal

recessive in mice.

• Particularly susceptible to intracellular infections: virus, intracellular bacteria,and fungi. Attenuated vaccines can kill them (TH1 signaling defect).
• Less susceptible to extracellular bacteria, which are targeted by complement,neutrophils, and B cells producing antigen to thymus-independent antibodies.No T17 signaling, however

Question 9

Nude mice can accept ____ from mice from other strains; they need not have the same MHC types.

Answer 9

skin grafts and other tissue transplants

Question 10

Myeloid defects

Answer 10

• low neutrophil counts (produced by a variety of defects) Can be caused by failureto produce granulocytic colony-stimulating factor (G-CSF), or acquired by radiation, chemotherapy or other drug treatments.
• Chronic granulatomous disease (CGD) - defect in the cytotoxic hydrogenperoxide pathway that kill phagocytized cells (affects neutrophils andmacrophages, interfering with antigen presentation to T cells).
• LAD – Leukocyte Adhesion Deficiency – defective CD18, which is part of threedifferent adhesion complexes.

Question 11

HIV is classified as AIDS once:

Answer 11

• your immune system is compromised to the point where your TH (and other CD4 T cells) levels have declined to under 200 cells per mm3 (from about 1000)and you have begun to experience recurrent opportunistic infections.

Question 12

HIV is a ____

Answer 12

• retrovirus-genetic information stored in RNA, in two single strands, which have the same nine genes in the same order, but which may have different alleles (the virus is essentially diploid)

Question 13

Once inside the cell, HIV RNAs are copied into DNA by an enzyme, reverse transcriptase, into DNA and then integrated into the genome of the cell as a provirus. The enzymes that carry out these processes are ___?

Answer 13

64 reverse transcriptase

p32 integrase

p10 protease

all are included in the internal capsid with the RNA

Question 15

The packaing and delivery system of HIV includes:

Answer 15

• an outer membrane derived the plasma membrane of the cell it infectedpreviously studded with protein projections made of up gp20 and gp41 andother protein components derived from the cell membrane including class I MHC
• a round capsid made up of p17 internal to the membrane
• bullet-shaped capsid at the core, made up of p24, surrounds the two RNAmolecules and infection enzymes
• A protein that attaches the ssRNA to the inner core

Question 16

HIV binds to cells through their ____ receptor

Answer 16

CCR5

Question 17

How does HIV infection lead to production of new virus?

Answer 17

• RNA from virus is turned into protein precursors:
• gag
• env
• pol

Question 18

gag precursor gets cleaved to

Answer 18

four different outer (p17) and inner (p24, Pp,p7) core proteins

Question 19

env protein gets cleaved to

Answer 19

the tip (gp120) and stalk (gp 41)

Question 20

pol precursor cleaved to

Answer 20

• the enzymes used in the infection process:
  
  • p64 (reverse transcriptase with RNAse activity)
  • p51 (reverse transcriptase)
  • p10 (protease)
  • p32 (integrase)

Question 21

HIV infection is classified into 3 clinical stages:

Answer 21

• Acute phase
• Chronic phase
• AIDS

Question 22

Opportunistic infections that usually affect AIDS patients:

Answer 22

• Candida
• pnuemonia
• wasting diarrhea

Question 23

Goal of HIV/AIDS therapies

Answer 23

prolong the latent period

Question 24

Types of HIV/AIDS therapies

Answer 24

• anti-retrovirals
• Bone-marrow transplants
• Gene engineering
• strategic marriage

Question 25

Anti-retrovirals

Answer 25

• interfere with the reverse transcriptase, thus stopping new cells from being infected.
• ex- HAART regimen

Question 26

Bone-marrow transplants

Answer 26

• not the cure for AIDS
• too risky by itself
• One succesful case:
  
  • ex-european patient who recieved mutant donor marrow lacking CCR5 receptor, cured him of his HIV

Question 27

Gene engineering

Answer 27

• Uses a Zinc Finger Protein (a transcription factor) hooked up to a DNAse
• The ZFN is designed to bind specifically to the CCR5 gene and nothing else
• Take lymphocytes from HIV patients and treat them with ZFN and then put them back
• Repair enzymes in the nucleus will splice the gene back together, but not with the original nucleotides
• The gene makes a defective CCR5, one the HIV can’t bind to

Question 28

Marriage

Answer 28

• Theoretically, chastity before marriage and fidelity afterward show protect you from HIV
• In practice, because one’s partner is not guaranteed to be trustworthy, an individual is better off using condoms
• However, one bright spot is a marriage program in which people who have test HIV positive are encouraged to marry each other