Glomerular Structure & Mechanisms of Disease - Nichols

Question 1

t or f: the urinary space within the glomerulus is not continuous with the urinary space in the renal tubule originating from it.

Answer 1

false. it is continuous

Question 2

am i hungover and are these words making sense

Answer 2

yes and no…fuck

Question 3

what covers the capillaries of the glomerular tuft?

Answer 3

podocytes (cells with feet) and their foot processes (pediceles)

Question 4

what supports the glomerular tuft?

Answer 4

the mesangium

Question 5

what are mesangial cells?

Answer 5

mesenchymal cells that are the equivalent of pericytes in other capillary territories.

Question 6

are there a lot of places that glomerular disease can occur and do we classify them based on where they occur?

Answer 6

yes yes

Question 7

explain the difference between a primary and secondary glomerular disease

Answer 7

primary are disease that occur only or predominantly in the glomerulus

Question 8

what are various examples of primary glomerular disesase

Answer 8

minimal change disease
focal segmental glomerulosclerosis
membranous nephropathy
acute post-strep glomeruloneph
membranoproliferative glomerulonephritis
iga nephropathy (berger disease)
hereditary nephritis (alport syndrome
congential nephrotic syndrome

Question 9

what are some exmaples of secondary glomerular diseaes

Answer 9

htn nephropathy
diabetic nephropathy
lupus nephritis
amyloidosis
goodpasture syndrome

Question 10

what percentage of glomerular diseaes in children in primary? adults?

Answer 10

95%

60%

Question 11

what is the most common glomerular disease?

Answer 11

hypertensive nephropathy

Question 12

what is the scond most common glomerular disease?

Answer 12

diabetes mellitus

Question 13

explain how hydrostatic pressure drives filtration in the glomerulus

Answer 13

glomerular capillaries have a higher pressure (50) than other capillaries and higher than the bowmans space (18). then yea… it works

Question 14

what can supra-normal glomerular capillary pressure cause?

Answer 14

it stimulates gbm thickening and mesangial cell hypertrophy and hyperplasia and mesangial matrix production.

Question 15

what can supra-normal pressure cause in the afferent arterioles?

Answer 15

high bp causes hyaline sclerosis of the afferent arterioles of glomeruli, but NOT of the efferent arterioles.

Question 16

what can cause hyaline sclerosis of afferent AND efferent arterioles?

Answer 16

diabets mellitus

Question 17

explain the mechanism of hyaline sclerosis in both diabetes mellitus and high blood pressure

Answer 17

plasma leaks into the wall and gradually narrows the lumen. the narrowing of the afferent arteriole is followed by gradual ischemic atrophy of the glomerulus

Question 18

what is arterionephrosclerosis?

Answer 18

it’s a global sclerosis of the glomeruli due to the hyaline deposition and narrowing of the lumen of the afferent arteriole.

Question 19

which population has a high rate of end-stage renal failure due to hypertension?

Answer 19

blacks

Question 20

explain the most-likely bullshit genomic mutation from nichols that may (but doesn’t) explain why blacks have a high rate of renal failure.

Answer 20

a mutation in the gene for apolipoprotein L1, which confers resistance to african sleeping sickness due to trypanosoma brucei rhodesiense. and it’s racist to assume all black people are from africa…

Question 21

what is the difference between hypertensive nephropathy and malignant hypertensive nephropathy?

Answer 21

the malignant form progressives very rapidly, is a multi-organ syndrom, is more common in black males age 40.

Question 22

what are the symptoms and signs of malignant hypertensive nephropathy?

Answer 22

headache, scotomas, vomiting. bp about 200/120. proteinuira hematuria.

Question 23

what is the classic appearance of a histological slide showing a person with malignant hypertensive nephropathy?

Answer 23

onion-skin appearance of the glomeruli

Question 24

what three diseases have hyperplastic arteriosclerosis and arterial fibrinoid necrosis?

Answer 24

malignant hypertensive nephropathy, thrombotic microangiopathies, scleroderma renal crisis.

Question 25

what causes the flea-bitten look of the kidney in malignant hypertension?

Answer 25

small arterioles and arteries can rupture all over the kidney.

Question 26

what is the most common cause of glomerular disease?

Answer 26

HTN, partly becasue glomerular disesase causes HTN, creating a positive feedback loop

Question 27

as much as 50% of the capillary endothelial surface of the glomerular capillaries have what?

Answer 27

fenestrations (windows)

Question 28

what does the lack of a continuous cytoplasmic barrier facilitate?

Answer 28

filtration and accessibility of macromculs (including Abs) to the glomerular basement membrane

Question 29

how is the glomerular basement membrane a trilaminar structure?

Answer 29

it consists of a lamina lucida interna, lamina densa, and lamina rara externa

Question 30

what are the major components of basements membranes?

Answer 30

perlecan, entactin, fibronectin, laminin, type IV collagen.

Question 31

what is the significance of the presence of perlecan in the basement membrane?

Answer 31

it’s highly charged, having heparan sulfate as the major glycosaminoglycan component. it gives most of the strong negative charge properties of basement membranes, affecting passage of proteins (which are also largely negatively charged)

Question 32

which basement membrane component has calcium binding ability?

Answer 32

entactin

Question 33

explain the shape of the collagen

Answer 33

most of the collagen is in the typical helical conformation, but there is a non-helical globular domain called the non-collagenous domain.

Question 34

why is the non-collagenous domain important?

Answer 34

there are antibodies that target the NC1 domain of alpha3 chains. This can lead to glomerulonephritis with hematuria along with pulmonary hemmorhage and hemoptysis (basically goodpastures syndrome)

Question 35

do men or women have a thicker glomerular basement membrane? who has more anti-gbm disease

Answer 35

men and men

Question 36

explain the interdigitating stuff

Answer 36

podocytes cover the capillaries with a vast network of pedicele (foot processes) that are arranged in an interlocking fashion.

Question 37

what is between the pediceles that connects them

Answer 37

slit pore diaphragm

Question 38

what is effacement?

Answer 38

fusion of foot processes, with a retraction of foot processes and a loss of slit pore diaphragm.

Question 39

what is the result of retraction of foot processes?

Answer 39

long sections of the capillaries are enveloped by a single podocyte. also, the foot processes detach from the basement membrane (due to increased pressure), causing degradation of the gbm (allowing proteins to leak from plasma into the urinary space).

Question 40

what is occurring if you see a crescent-shaped area of inflammation?

Answer 40

a proliferation of parietal epithelial cells from crescentic glomerulonephritis. this is from a leakage of plasma proteins, mixed with abs and inflammatory cytokines and ROS.

Question 41

what is the minimal space between two pediceles called?

Answer 41

the filtration slit

Question 42

what transmembrane glycoprotein is a major component of the selit pore diaphragm?

Answer 42

nephrin, which bind to each other on adjacent pediceles by disulfide linkage

Question 43

what are mesangial cells?

Answer 43

mesenchymal cells with phagocytic and contractile properties.

Question 44

what do the contractile properties of mesagnial cells do?

Answer 44

they allow the cells to regulate glomerular blood flow.

Question 45

what do the phagocytic properties of mesangial cells do?

Answer 45

scavenge substances that leakinto the mesangial matrix

Question 46

what is IgA nephropathy?

Answer 46

abnormal iga production that collects in the mesangial matrix, leading to the activation of the complement cascade leading to injurious inflammation.

Question 47

what are the three sites of immune complex deposition within glomeruli?

Answer 47

subepithelial, subendothelial and mesangail.

Question 48

in lupus, where do you see the wire loops formation?

Answer 48

subendothelial

Question 49

are immune complexes deposited linearly or granularly?

• post-strep glomerulonephritis
• anti-GMB

Answer 49

• granular

- linear

Question 50

what is seen by immunofluoresence when a puerson has crescentic glomerulonephritis?

Answer 50

“pauci-immune” nothing is seen at all. lack of immune system proteins

Question 51

what causes non-enzymatic glycosylation of proteins in blood and GBM?

Answer 51

hyperglycemia

Question 52

explain the mechanism of metabolic (diabetic) glomerular injury

Answer 52

some of the glycosylated plasma proteins get trapped in the gbm, stimulating production of new gbm proteins. this leads to a thickened gbm.

Question 53

what happens when glycosylated proteins are further glycosylated?

Answer 53

they are metabolized to advanced glycation end products (age) that cause accelerated aging effects of diabetes on organs throughout the body.

Question 54

what is proliferative glomerulonephritis?

Answer 54

increased cellularity including proliferative cells native to the glomerulues, but also with infiltrating inflammatory cells.

Question 55

what is membranous glomerulopathy?

Answer 55

increased gbm without increased cells

Question 56

what is membranoproliferative disease

Answer 56

a combo of the two.

Question 57

what is glomerulonephritis described as crescentic?

Answer 57

proliferating parietal epithelial cells and infiltrating macrophages and infammatory exudate and leaked plasma creat a crescent of inflammation around the tuft of capillaries.