blood and lymph

Question 1

what are the 4 key functions of the blood

Answer 1

transport of nutrients, gases, hormones, waste. restriction of fluid loss during injury. defence from infection. homeostasis,

Question 2

what are the routes of transport

Answer 2

paracellular and transcellular

Question 3

what is the paracellular route

Answer 3

paracellular route is where molecules diffuse in between endothelial cells, regulated by tight and gap junctions.

Question 4

what are the 3 transcellular routes

Answer 4

the transcellular route is for larger molecules where they are actively transported. this can happen through receptor mediated endocytosis, or transcytosis where cells take up extracellular medium through CAVEOLAE MEDIATED MACROPINOCYTOSIS. or via transendothelial channels such as vesicular vacuolar organelles which are interconnected vesicles forming channels across the cell

Question 5

what is the endothelial cell permeability

Answer 5

organs where there is a lot of exchange such as filtration or nutrient absorption need greater permeability

Question 6

how is greater permeability in endothelial cells achieved

Answer 6

fenestrated endothelial has looser junctions between the cells this is seen in endocrine glands, gi mucosa or glomerulus. there are discontinuous epithelium in the liver where are characterised by fenestrae without diaphragms and poorly organized basement membrane

Question 7

what is a further advantage of discontinuous epithelium

Answer 7

these ECs have a high level of clathrin-mediated receptor endocytosis activity, further
increasing their ability to take up specific molecules.

Question 8

where is continuous ec found

Answer 8

skin lung and heart, founds with caveolae, tec and intercellular clefts

Question 9

how is transport controlled in the brain

Answer 9

formed by tighter endothelial junctions, a thicker basement membrane and a supporting layer of astrocytes. BBB prevents entry of lipophilic neurotoxins by an active transport mechanism mediated by p-glycoprotein

Question 10

why is endothelial permeability important in organs

Answer 10

can charge during infection or tissue damage. antibodies and antibiotics cannot cross

Question 11

what is a key hallmark of inflammation

Answer 11

flow of plasma and WBC, local endothelial cells increase permeability so that plasma protein can exit and reach the tissue

Question 12

describe red blood cells

Answer 12

biconcave disk, enucleated, haemoglobin carriers,

Question 13

components of blood by density using centrifuge?

Answer 13

first haematocrit, then buffy coat of WBC and platelets, then plasma containing water/proteins/nutrients/hormones

Question 14

what is the life span of the RBC

Answer 14

3 months

Question 15

where does erythropoiesis

Answer 15

bone marrow in adults, spleen and liver in fetus

Question 16

describe erythrocytes

Answer 16

differentiate into erythrocytes by losing the nucleus ribosomes and organelles

Question 17

how is erythropoiesis regulated

Answer 17

important to adjust to environment with different levels of oxygen. the hormone erythropoietin also has regulatory role

Question 18

what does EPO do

Answer 18

produced by the kidney and regulated by negative feedback, low oxygen conc stimulates release of EPO stim release of erythrocytes

Question 19

what does high levels of EPO result in (feedback loop)

Answer 19

high oxygen levels which then suppress production of EPO

Question 20

what regulates the hypoxia response

Answer 20

regulated by the transcription factor Hif-A (hypoxia inducible factor)

Question 21

what happens in normoxia

Answer 21

hif-A is hydroxylated and leads to degradation

Question 22

what happens to hif-A in hypoxia

Answer 22

hydroxylases acitivity is reduced and hif1-a can activate transcription of EPO.

Question 23

how are RBC eliminated

Answer 23

through macrophages in the liver and spleen. important because rbc release hb and iron which can damage kidney

Question 24

what do erythrocytes carry on their surface

Answer 24

protein antigens that can be recognised by antibodies of a different individual

Question 25

what do rh positive individuals have on their surface

Answer 25

rh antigen

Question 26

what are the role of wbc

Answer 26

fight infection, exit blood stream, active amoeboid movement to navigate through tissues and eliminate microbes

Question 27

name different types of granulocytes

Answer 27

neurtrophils, eosinophils, basophils

Question 28

what do neutrophils do

Answer 28

crucial for bacterial infections and most abundant

Question 29

what is role of eosinophils

Answer 29

role in parasitic infections, granules contain peroxides and enzymes toxic to parasites

Question 30

what do basophils do

Answer 30

produce histamine and heparin, role in allergy

Question 31

name the agranulocytes

Answer 31

t and b lymphyocytes, monocytes, megakaryocytes

Question 32

what do t lymph do

Answer 32

kill infected cells or produce signals that assist function of other immune cells

Question 33

what do b lymph do

Answer 33

produce antibodies

Question 34

what do monocytes do

Answer 34

differentiate into macrophages and dendritic cells that can mediate phagocytosis and activation of t cells

Question 35

what do megakaryocytes

Answer 35

large multinucleated cells whos segmentation gives rise to platelets. the latter are important in haemostasis, response of vessels to local injury/disruption

Question 36

outline process of haemostasis

Answer 36

endothelium rupture > vascular spasm > vessel decreases in diameter.

platelets aggregate at the site to form a plug. they release factors triggering coagulation reaction.

fibrinogen > fibrin by thrombin. fibrinolysis follows.

plasminogen > plasmin which breaks down fibrin

bradykinin a vasodilator releaxes muscles and restores blood flow

Question 37

functions of lymphatic system 4

Answer 37

returns interstitial fluid and plasma proteins into blood, filters blood by removing harmful agents, provides structural basis for immune system, transports dietary lipids from gastrointestinal tract to blood

Question 38

is lymphatic a closed circulation

Answer 38

no

Question 39

are lymphatic vessels more permeable than blood vessels

Answer 39

yes, allowing passage of proteins and even cells

Question 40

describe structure of lymphatic vessels

Answer 40

blind ends with openings in the form of overlaid flaps allowing passage of interstitial fluid called lymph

Question 41

how is lymph flow facilitated

Answer 41

muscle movements during breathing, exercise, good posture

Question 42

where is lymph filtered

Answer 42

in lymphoid tissues ending up in the thoracic duct which feeds into the subclavian vein and returns filtered blood into the circulation

Question 43

cells present in lymph

Answer 43

lymphocytes, macrophages, dendritic cells

Question 44

name lymphoid organs

Answer 44

primary lymphoid organs e.g. bone marrow and thymus. secondary lymphoid organs e.g. lymph nodes, spleen and mucosa associated lymphoid tissue

Question 45

what do primary lo do

Answer 45

produce blood cells

Question 46

what do secondary lo do

Answer 46

enable immune responses sites of immunosurveillance

Question 47

outline the role of the bone marrow

Answer 47

site of hematopoiesis, production of blood cells throughout life by hematopoietic stem cells. haematopoiesis declines with age by replacement of h tissue by fat

Question 48

outline the thymus

Answer 48

located behind the sternum above the heart and constitutes the site of mature t lymphocyte production. t precursors migrate to the thymus from the bone marrow

Question 49

what is the critical role of the thymus

Answer 49

selecting lymphocytes that will react with foreign and not self components.

Question 50

when does the size of the thymus change

Answer 50

decreases with age leading to reduced amount of naive t lymphocytes

Question 51

role of lymph nodes

Answer 51

drain interstitial fluid from peripheral tissues whilst removing harmful toxins and pathogens. lymph enters from afferent lymphatic vessels and filtered lymph exits through efferent vessels, the node is surrounded by a capsule

Question 52

role of spleen

Answer 52

remove old red blood cells and filter blood borne antigens. also serves as location for initiation of immune reponses to blood pathogens.

Question 53

why is spleen highly vascularised

Answer 53

to enable good filtration

Question 54

describe the structure of the spleen

Answer 54

surrounded by weak capsule, below capsule is RBC rich area called red pulp where blood antigens are filtered and rbcs removed and wbc rich area called white pulp where lymphocytes initiate immune reponses to blood pathogens

Question 55

what is mucosa associated lymphoid tissue

Answer 55

lymphoid tissues attached to mucosal surfaces of the gastrointestinal tract or respiratory tract to provide additional pathogen filtering

Question 56

how does lymphatics provide structural support for immune responses

Answer 56

the immune system produces lymphocyte clones with unique receptors for a specific microbial determinant and only a few of them are able to react with a specific antigen from an invading pathogen. these clones have to detect an invading pathogen anywhere in the body

Question 57

how do lymphatic clones achieve this detection

Answer 57

constant recirculation of lymphocytes through the lymphatic system. naive lymphocytes transit through the blood, nodes and spleen and return to the blood via the thoracic duct

Question 58

how do lymphocytes enter lymph nodes

Answer 58

through specialised venules called high endothelial venules

Question 59

where do b cells accumulate inside the node

Answer 59

follicles in the cortex, they recognise and bind antigens brought by lymph into the follicle

Question 60

where do t cells accumulate inside the node

Answer 60

paracortex right beneath the cortex, they recognise antigens on antigens presenting cells that arrive in the area

Question 61

how do lymphocytes encounter antigens

Answer 61

small extracellular antigens travel in soluble form form a certain tissue to the closest draining lymph node via the lymph. entire microbes and larger molecules are engulfed by APCs . APCs then migrate to the nearest lymph node to present antigen to the lymphocyte clone of relevance.

Question 62

where do blood borne antigens travel

Answer 62

to the spleen, either in soluble form or after being picked up by APCs in the blood