Study Guides for Week 3 and 4 (complete - looked up unsure ones) Flashcards
What is atrophy?
-Cells revert to a smaller size in response to changes in metabolic requirements or their environment
What is the difference between the MHC classes (I, II, III)?
I: cell surface receptors that help the immune system identify and eliminate abnormal cells. They are found on the surface of most nucleated cells, as well as platelets. (from online)
II: expressed on APC
III: complement system
What are the effects on the cells/tissues when exposed to extremes in temperature?
-Shivering becomes ineffective
-When body temp is less than 87.8 degrees (Confusion, stupor, lethargy, and Arrhythmias (J waves, A-Fib))
What are antibodies? Describe production, function, and types of antibodies (immunoglobulins)
- are complex (Y-shaped) glycoproteins
- produced by mature B lymphocytes
- specifically recognize and bind to a foreign antigen
Functions:
- directly impede the function of the pathogen
- neutralize secreted toxins and enzymes
- facilitate the removal of antigens by phagocytic cells
- participate in cell-mediated immunity
- activation of opsonization (tagging)
- activation of inflammation
5 types:
- IgG
- IgM
- IgA
- IgE
- IgD
What cells indicate a transition from innate to adaptive immunity?
Antigen-presenting cells (APCs)
- these begin the transition from innate to adaptive immunity (change from non-specific to specific)
APCs include:
- macrophages
- B lymphocytes
- dendritic cells
What is special about neutrophils?
In acute inflammation
- account for about 60-70% of WBCs
- non-specific
- phagocytosis
- very mobile, get to the injury site in 90 minutes
- short life span (24-48 hours)
What are Peyers Patches?
- lymphoid tissues in the GI, respiratory, and urogenital tracts
- only contain B cells
- not encapsulated
What does the term “intracellular accumulations” refer to?
- Buildup of substances that cells cannot immediately use or eliminate
- May be abnormal or stored products from other parts of the body
- Substances may accumulate transiently or permanently
– Normal body substances (i.e. Lipids)
– Abnormal exogenous Products, from errors in metabolism
– Exogenous products that cannot be broken down by the cell
What are lymph nodes?
- vessels provide lymph: protein-rich fluid
Function:
- filter foreign material from the lymph before it enters the blood
- centers for the growth and response of immune cells
- located throughout the body
Plasma derived mediators (coagulation system); what do they do?
- the main role is the formation of the fibrin clot
- traps exudate, microorganisms, and foreign bodies
- send chemotactic signals to neutrophils
- triggers kinins (and kinin triggers this)
What is herd immunity?
think COVID vaccine
- a bunch of people getting vaccine and collectively get herd immunity to a disease (just writing in my own words)
What is the role of dendritic cells in innate immunity?
- found in nose, lungs, mucosal lining of the GI tract and skin
- migrate through the lymphatic system
- provide major link between innate and adaptive immunity
– takes the organism to the B and T lymphocytes (antigen-presenting cell)
– some can produce interferon to suppress viral replications - also involved in cell-mediated immune reactions (e.g. allergic type IE contact dermatitis)
What types of cells are included in innate immunity?
- neutrophils
- monocytes/macrophages
- natural killer cells
What is inflammation?
Reaction to injury to the cells or the actual death of a cell
Production and release of the inflammatory mediators
An innate, natural immune response to cell injury or invading microorganisms by:
- neutralizing harmful agents
- removes damaged and dead tissue
- generates new tissue
- promotes healing
How is body temperature regulated in the brain?
-Hypothalamus
-Involves: Sweating, Vasodialation, Erector muscles constrict, shivering, vasoconstriction
How does acetaminophen/ibuprofen lower fever?
The synthesis of prostaglandin E2 (PGE2) depends upon the enzyme cyclooxygenase (pathway for prostaglandins).
- The basis for cyclooxygenase is arachidonic acid released from the cell membrane
- This release is the rate-limiting step in the synthesis of PGE2
- Inhibitors of cyclooxygenases (either COX-1 or COX-2) are potent antipyretics
How does the body generate heat?
Derived from metabolic activity in the muscles and liver
SNS neurotransmitters play a role (I.e. epinephrine and norepinephrine)
Released when an increase in body temp needed—so heat production rather than energy generation
What are the primary organs associated with the immune system? What do these organs do (split between cards for each)
- spleen
- thymus
- tonsils
- peyers patches
- appendix
- lymph nodes
Identify types of barriers of the first line of defense
Physical barriers
- skin
- mucous membranes
Mechanical barriers
- coughing
- sneezing
Chemical barriers
- tears
- sweat
- stomach acid
Activation of complement system
What role do leukotrienes play in the inflammatory response?
- slower and last longer than histamine
- permeability, adhesion of endothelial cells, chemotaxis of neutrophils, eosinophils, monocytes
- LTD4: causes slow and sustained constriction of bronchioles - asthma
Where are cell-derived mediators produced?
produced by the cells
i think produced by these:
- macrophages (monocytes)
- mast cells (basophils)
- endothelial cells
- leukocytes
- platelets
Special NSAIDs (Ketorolac and Indomethacin)
Ketorolac (Toradol):
- GIVE PO, IV, AND IM
- CAN BE USED AS AN ALTERNATIVE TO OPIOID THERAPY
- SHOULD NOT BE USED FOR MORE THAN 5 DAYS
- USUALLY WEANED TO ORAL
- NO PEDIATRIC USE
Indomethacin:
- USED FOR PERICARDITIS AND GOUT
- VERY IRRITATING TO THE GI TRACT
Plasma derived mediators: the complement system
- consists of over 30 plasma proteins
- make the inflammatory response work better and stronger:
– cell lysis: allows for granules to be released
– opsonization: recognizing and tagging
– chemotaxis: signaling - anaphylation:
– degranulation of mast cells
– release of histamine
– vasodilation and increase vascular pemeability
What is the difference between hormonal and compensatory hyperplasia? Example of each?
Pregnancy
Vs
liver regeneration
What is the role of chemokines in innate immunity?
Are a subgroup of cytokines produced by the thymus and lymphoid tissue
Control the movement and positioning of immune cells (T cells, B cells, dendritic cells) in tissues and critical for function on innate immune system
warn other host cells of danger
- signaling
Too many can cause damage to cells and tissues
What is special about eosinophils?
In acute inflammation
- 2-3% of WBCs; move like neutrophils
- mildly phagocytic
- react slower, arrive 2-3 hours after injury
- live longer
- play a role in allergic reactions (work with basophils in allergic rhinitis and asthma)
What is the role of adaptive immunity? Why is it considered to be the second line of defense? (she wrote second on study guide, but slides say third line and there’s a second line in innate)
- Characterized by antigen-specific response: has to be activated to work
- considered to be third line of defense
- relies on previous exposure to an antigen
– stronger
– more prolonged
Has three types:
- humoral
- cell-mediated
- regulatory T cells
First line of defense: epithelial barriers
- closed packed cells, layers, constant shedding and protective layer of keratin
– salty acidic environment inhibit colonization - lysozyme makes cells easier for phagocytosis
Mucous membranes: tight epithelial cells; mucus traps and washes away along with saliva
Cilia: moves microbes towards the throat so can be expelled by coughing
Surfactants in respiratory tract “opsonize” or tag the cells which need to have phagocytosis
GI tract –> goblet cells secrete mucin –> hydrated form: mucus; traps pathogens for destruction
What is special about mast cells?
in acute inflammation
- activate inflammation
– membrane permeability
– leukocyte chemotaxis (signaling injury and response of other WBC) - when activated: release several pro-inflammatory mediators
– histamine
– heparin
What happens to the temperature set point during a fever?
During a fever, the body’s temperature set point increases due to the hypothalamus resetting itself to a higher level, causing the body to actively try to maintain a higher core temperature than usual
What is an antigen? What part of the antigen works with other adaptive immunity cells?
Substances which generate the response from the host
- aka immunogens
- can be bacteria, viruses, parasites; even pollen, poison ivy, bee stinges
Epitopes work with other adaptive immune cells?
What happens during the cellular stage? Identify the 4 phases and what occurs (splitting this into other cards)
Margination and Adhesion
Transmigration
Chemotaxis
Phagocytosis
What are the effects on the cells/tissues when exposed to chemicals?
Online: When cells and tissues are exposed to chemicals, potential effects include: cell death, damage to cell membranes, disruption of cellular processes, DNA mutations, impaired protein synthesis, inflammation, tissue damage, and depending on the chemical and exposure level, even cancer development; the specific effects depend on the type of chemical, concentration, exposure duration, and the tissue involved.
What is the role of macrophages in innate immunity?
are in both innate and adaptive; in first line defense in innate immunity
- scavenger; final clean up
- go to all tissues; long lived
What is the difference between physiologic and compensatory hypertrophy? Examples of each?
Physiologic: exercise
Compensatory: Donating a Kidney
What is exudate? Examples?
Vary based on fluid type, plasma protein content and the +/- of certain cells
Serous exudate: watery protein low in protein content
Serosanguinous: RBCs that leak from capillary injury
Purulent exudate: pus is filled with neutrophils protein and tissue debris
What is white pulp in the spleen?
contains concentrated areas of the T and B lymphocytes, dendritic cells
What steps take place after initial response in innate immunity?
Not sure on this?
Second line of defense:
- inflammatory response
- antimicrobial proteins
- phagocytosis
What cells are phagocytic?
- neutrophils
- dendritic cells
- monocytes/macrophages
- natural killer cells
Drug interactions for NSAIDs
- anticoagulants
- corticosteroids
- alcohol
- ACE inhibitors
- ASA and other anti-platelets
- lithium: NSAIDs increase levels
- many herbals will increase the antiplatelet effects:
– chamomile
– ginkgo
– ginseng
– ginger
– garlic
–dong quai
Cellular Stage: Phase 2 Transmigration
Transmigration
- leukocytes migrate through the vessel wall
What are contraindications of aspirin (ASA)?
- allergy (watch closely in asthmatics)
- bleeding abnormalities
- renal dysfunction
- NEVER GIVE TO CHILDREN UNDER AGE 18, CAUSES REYE SYNDROME
- no pregnancy: may see it though in those with coagulation issues
Functions of antibodies (immunoglobulins)
Functions:
- directly impede the function of the pathogen
- neutralize secreted toxins and enzymes
- facilitate the removal of antigens by phagocytic cells
- participate in cell-mediated immunity
- activation of opsonization (tagging)
- activation of inflammation
What is the importance of cyclooxygenase-2 (COX-2)?
- associated with inflammation
- pain
- edema
- muscle contractions
Can dysplasia lead to canncer?
It may cause cancer.
What is the role of the thymus?
maturation of functional T-cells
- atrophies with age and replaced by fat, around puberty
What is the importance of nitric oxide?
- potent vasodilator
- helps keep endothelial cells healthy and smooth
- blocking of nitric oxide production in normal promotes the leukocyte rolling and adhesion
- decreases leukocyte recruitment: reduces inflammation
– inflammation in endothelial cells leads to no blockage
Immunoglobulin M (IgM)
- accounts for 6-10%
- first one to appear in response to bacterial or viral infections
- largest of the immunoglobulins
- when IgM present: usually sign of acute infection
- activates complement system
Immunoglobulin A (IgA)
- immunity at mucosal surfaces/body fluids
– saliva, tears, breast milk, bronchial, prostate, GI, vaginal secretions) - primary defense against local infections in mucosal tissues
- prevents attachments of microbes to epithelial cells
Interleukins: IL-6
- cause liver to produce proteins and colony stimulating factors (blood production)
work to improve protein catabolism
make the liver produce the acute phase reactants which also include complement, clotting factors and protease inhibitors (idk if this point is for IL-1 and TNF-A or all interleukins because of her ppt set up)
What are the effects on the cells/tissues when exposed to infections?
Online: When cells and tissues are exposed to infections, they can experience direct damage from the invading pathogen, including cell death, altered cellular functions, and disruption of tissue integrity, often accompanied by an inflammatory response from the immune system, which can further contribute to tissue damage in some cases; the specific effects depend on the type of pathogen and the tissue involved.
What are the classic signs of inflammation?
- redness
- swelling
- heat
- pain
- loss of function
HARPS
Cytotoxic T (killer) cells and their CD protein
- express the CD 8 protein
- once activated, they search out and destroy antigens
- are able to differentiate what are normal and what are bad
- cause apoptosis or programmed death
Cellular Stage: Phase 3 Chemotaxis
- guide leukocytes to the site of injury
- are mediated by proteins released from the local immune cells
– cause neutrophils to squeeze through endothelial cells
endothelial cells help this process by releasing nitric oxide
Why is inflammation good? Bad?
Good:
- important in understanding everything that happens to our bodies
- is a normal necessary function that occurs to:
– fight off infection
– heal from an injury
- basis of research in many disease states and helps determine treatment
Bad:
- inflammatory processes in:
– coronary disease and MI
– emphysema, asthma, and chronic bronchitis-inflammatory process
– allergic rhinitis
- can become chronic
- inflammation = “itis”
What are the different mechanisms of heat loss? How do they work?
-Shivering
-“goose bumps”
-Non-shivering heat production by liver
-Exertion
Or
Occurs through 5 processes:
Radiation: (Most common)
Transfer of heat from one place to another
Conduction: requires direct contact
Convection: Requires fluid flow, such as air or water
Evaporation (Sweat)
Respiration (insensible)
Cellular Stage: Phase 1 Margination and Adhesion
Margination and Adhesion
- contact of leukocytes with the endothelial tissue
- cytokines cause the endothelial cells to give off cell adhesion molecules (selectin)
– slows flow and causes leukocytes to roll along the endothelial surface
– neutrophils secrete integrins and stick to endothelium
- accumulation of leukocytes which occurs when there is decreased volume
