immune ii

Question 1

Adaptive immune system

Answer 1

• protects against infectious agents and abnormal body cells
• amplifies inflammatory response
• activates complement
• must be primed by initial exposure to specific foreign substance
• Specific, systemic, and has memory

Question 2

humoral immunity

Answer 2

• antibodies, produced by lymphocytes, circulating freely in body fluids
• bind temporarily to target cells –> temporarily inactivate and mark for destruction by phagocytes or comlement
• has extracellular tergets

Question 3

Cellular immunity

Answer 3

lymphocytes act against target cell:

• directly by killing infected cells
• indirectly by releasing chems that enhance inflammatory response or activating other lymphocytes or macrophages
• has cellular targets

Question 4

Antigens

Answer 4

• substances that can mobilize adaptive defenses and provoke an immune response
• targets of all adaptive immune responses
• most are big, complex molecules not normally found in body (non-self)

Question 5

Complete antigens

Answer 5

• Immunogenicity = ability to stimulate proliferation of specific lymphocytes
• reactivity = ability to react with activated lymphocytes and antibodies released by immunogenic reactions

-e.g. foreign protein, polysaccharides, lipids, and necleic acids

Question 6

Haptens (incomplete antigens)

Answer 6

• small molecules, not immunogenic by themselves (peptides, nucleotides, some hormones)
• may be immunogenic if attached to body proteins and combination is marked foreign
• causes immune system to mount harmful attack

e.g. poison ivy, animal dander, detergents, and cosmetics

Question 7

Antigenic determinants (epitopes

Answer 7

• only certain parts (antigenic determinants) of entire antigen are immunogenic
• antibodies and lymphocyte receptors bind to them as enzyme binds substrate
• most naturally occuring antigens have numerous epitopes that mobilize several dif lymphocytes and form dif kinds of antibodies angainst them

Question 8

MHC proteins (major histocompatibility complex)

Answer 8

Self antigens on surface of cells
MHC antigens
-MHC or human leukocyte antigens
-normal func to help T cells recognize foreign or self
-class I MHC = built into all body cells except RBCs
-Class II MHC = only on antigen presenting cells

Question 9

Three cells of adaptive immune system

Answer 9

1. B lymphocytes (humoral immunity)
2. T lymphocytes (cellular immunity)
3. Antigen presenting cells (APCs) (Don’t respond to specific antigens; play essential auxiliary role in immunity)

Question 10

5 general steps of lymphocyte development

Answer 10

1. Origin - all originate in red bone marrow
2. Maturation - in thymus or bone marrow
3. Seeding secondary lymphoid organs and circulating
4. Antigen encounter and activation
5. Proliferation and differentiation

Question 11

Lymphocyte maturation

Answer 11

• “educated” to become mature –> B cells in bone marrow, T cells in thymus
• Immunocompetence: lymphocyte can recognize one specific antigen by binding to it –> B and T cells only have one type of antigen receptor
• Self-tolerance = lymphocytes unresponsive to own antigens

Question 12

B cell maturation

Answer 12

-mature in red bone marrow
-positively selected if successfully make antigen receptors
-those that are self-reactive are eliminated by apoptosis (clonal deletion
0

Question 13

Seeding secondary lymphoid organs and circulation

Answer 13

• immunocompetent B and T cells not yet exposed to antigen called naive
• exported from primary lymphoid organs (bone marrow and thymus) to “seed” secondary lymphoid organs (lymph nodes, spleen, etc…) –> increases chances of encountering antigen

Question 14

clonal selection

Answer 14

• naive lymphocytes’ first encounter with antigen –> selected for further development
• If correct signals present, lymphocyte will complete its differentiation

Question 15

Antigen Receptor Diversity

Answer 15

-genes, not antigens, determine which foreign substances immune system will recognize –> immune cell receptors result of acquired knowledge of microbes likely in environment

Lymphocytes make up to a billion types of antigen receptors –> coded for by 25ooo genes –> gene segments are shuffled by somatic recombination

Question 16

Antigen presenting cells (APCs)

Answer 16

• engulf antigens
• present fragments of antigens to T cells for recognition

Major types

• dendritic cells in CT and epidermis
• Macrophages in CT and lymphoid organs
• B cells

Question 17

Dendritic cells (APC)

Answer 17

• phagocytize pathogens
• enter lymphatics to present antigens to T cells in lymph node
• most effective antigen presenter
• key link bt innate and adaptive immunity

Question 18

Macrophages (APC)

Answer 18

• widespread in lymphoid organs and CT

- present antigens to T cells to activate themselves into voracious phagocytes that secrete bactericidal chemicals

Question 19

B lymphocytes (APC)

Answer 19

• don’t activate naive T cells

- present antigens to activated helper T cells to assist own activation

Question 20

Exogenous antigens

Answer 20

• present in fluid outside body cells

- APCs ingest antigen, process, and place next to MHC-II molecule in plasma membrane, and present to T cells

Question 21

Endogenous antigens

Answer 21

• antigens inside body cells

- infected cell displays antigen next to MHC-I

Question 22

Antibody mediated immunity

Answer 22

• During activation, antigen binds to B cell receptor
• Can respond to unprocessed antigen
• Response much more intense when B cell processes antigen –> antigen taken into B cell, combined with MHC-II, moved to plasma membrane–> helper T cell binds and delivers costimulation (interleukin 2 and other cytokines)

-B cell undergoes clonal selection: plasma cells secrete antibodies –> memory B cells don’t secrete antibodies, but wait for reappearance of antigen

Question 23

Immunological memory: primary immune response

Answer 23

• cell proliferation and differentiation upon first antigen exposure
• lag period: 3-6 days
• peak levels of plasma antibody are reached in 10 days
• antibody levels then decline

Question 24

Immunological memory: secondary immune response

Answer 24

• re-exposure to same antigen gives faster, more prolonged, moreeffective response
• sensitized memory cells respond within hours
• antibody levels peak in 2-3 days at much higher levels
• antibodies bind with greater affinity
• antibody level can remain high for weeks to months

Question 25

Active humoral immunity

Answer 25

-when B cells encounter antigens and produce specific antibodies against them

2 types:

• Naturally acquired = response to bacterial or viral infection
• Artificially acquired = response to vaccine or dead/attenuated pathogens

Question 26

Vaccines

Answer 26

• mostly dead or attenuated pathogens
• spare us symptoms of primary response
• provide antigentic determinants that are immunogenic and reactive

Question 27

Passive humoral immunity

Answer 27

• readymade antibodies introduced into body
• B cells aren’t challenged by antigens
• immunological memory doesn’t occur
• protection ends when antibodies degrade

Question 28

2 types of passive humoral immunity

Answer 28

1. Naturally acquired = antibodies delivered to fetus via placenta or to infant through milk
2. Artificailly acquired = injection of serum, like gamma globulin –> immediate protection, but ends when antibodies naturally degrade in body