Metabolism Of Kidney

Question 1

Blood supply differences in kidney

Answer 1

. 90-95% of renal blood passes through cortex and uses 8% of oxygen in blood
. 5-10% of renal blood passes through medulla and uses 80% of oxygen in that blood
. Medulla more vulnerable to anoxic shock

Question 2

Roles of kidney

Answer 2

. Makes urine to excrete waste, regulate serum pH, electrolytes, and water
. Has enzymes for gluconeogenesis
. Acts as endocrine gland: synthesizes and releases EPO, renin
. Contains enzymes for vit. D metabolism important for serum Ca, ,phosphate, and bone metabolism regulation

Question 3

Components of urine synthesis

Answer 3

. Filtration
. Reabsorption
. Secretion

Question 4

Sequence of events in filtration

Answer 4

. Blood enters afferent arterioles
. GFR depends on bp
. Filters through 3 layers
. Capillary endothelium: 100x more permeable than other capillaries
. Basement membrane: composed of highly negatively charged glycoproteins and proteoglycans
. Single layer of epithelial cells (podocytes) w/ foot processes that interdigitate w/ one another

Question 5

What gets filtered in kidney?

Answer 5

. 20% plasma volume through kidney forced through filter to become ultrafiltrate
. Collects in Bowman’s capsule

Question 6

Ultrafiltrate contents

Answer 6

. Plasma H2O

. Small solutes (glucose, NaCl, urea, AA)

Question 7

Ultrafiltrate does NOT contain _____

Answer 7

. Cells or cell-like structure

. Proteins beyond a certain limit ( larger and neg. charges proteins do NOT go through)

Question 8

Glomerular filtration rate

Answer 8

. Measured by injecting radioactive substance that’s filtered in kidney and not reabsorbed by tubules
. Takes blood samples over several hours
. dec. GFR is sign of diminished kidney function

Question 9

Reabsorption in kidney

Answer 9

. Movement of material from tubule lumen into capillary
. Much if what is filtered is reabsorbed
. Requires energy

Question 10

Secretion in kidney

Answer 10

. Movement of material from capillaries into tubule lumen

. Requires energy

Question 11

Modes of transport in kidney tubules

Answer 11

. Primary active transport (NA-K-ATPase)
. Secondary active transport (glucose/Na cotransport and amino acid-Na cotransport)
. Pinocytosis and endocytosis

Question 12

Important indicators of renal function

Answer 12

Levels of urea and creatinine

Question 13

Azotemia

Answer 13

. Asymptomatic

. Nitrogenous waste products that accumulate in patient’s serum

Question 14

Uremia

Answer 14

. Symptomatic (nausea and vomiting) nitrogenous waste product build up in patient’s serum

Question 15

Renal threshold

Answer 15

. Substance that are absorbed have limit to rate at which solute can be transported
. When limit is surpassed the excess is secreted
. Glucose threshold is 220 mg/dl

Question 16

Endogenous compounds secreted by tubules in kidney

Answer 16

. Urate, creatinine, bile acid salts

Question 17

Exogenous compounds secreted in kidney tubules

Answer 17

. Penicillin

. Salicylate

Question 18

What determines final composition of urine?

Answer 18

. Excretion = filtration-absorption+secretion

Question 19

PH of urine is between _____

Answer 19

4.4 and 8

Question 20

Reabsorption of bicarbonate

Answer 20

. Most passes through filter and is reabsorbed by transporters in tubule cells

Question 21

Kidney excretion of phosphate and other acids

Answer 21

. Molecules that have pK in range of pH of urine can pick up proton and carry out in urine
. Occurs w/ any acid that can bind H and carry it out in urine

Question 22

What happens in kidneys during diabetic ketoacidosis

Answer 22

. Inc. of ketones
. Compounds filtered and appear in tubule fluid
. As urine pH dec., these compounds begin to serve as buffers that can carry H out of body in urine

Question 23

Excretion of ammonia/ammonium

Answer 23

. NH4 is major urinary acid (1/2-2/3 daily acid load excreted w/ this)
. Preserves Na and K reserves in prolonged acidosis (other acids need this)

Question 24

Aerobic vs. anaerobic metabolism in kidney

Answer 24

. Uses 10% of O2 the body uses
. Renal cortex more highly oxidative then medulla
. Medulla depends on glycolysis and is sensitive to low [O2]

Question 25

Glucose utilized in renal medulla is produced in ___

Answer 25

Renal cortex

Question 26

Major renal fuel used in normal (fed) person

Answer 26

Lactate (45%)

Question 27

Major renal fuel in acidosis

Answer 27

Glutamine

Question 28

Major renal fuel in a fasted state

Answer 28

. Fatty acids

Question 29

Gluconeogenesis in kidney

Answer 29

. Can make 20-50% as much glucose as liver
. Predominantly associated w/ cortex
. Cortex is highly oxidative tissue w/ high ATP synthetic ability
. Substrates: Gln, lactate, citrate, alpha-ketoglutarate
. Important in starvation and acidosis

Question 30

If acidosis is treated w/ alkali administration, then renal gluconeogenesis is___

Answer 30

Not stimulated

Question 31

Non-excretory mechanism for kidney pH regulation

Answer 31

. Conversion of certain organic acids to glucose

Question 32

Glutamine in kidney

Answer 32

. Gln taken up from blood

. Renal uptake regulated by pH (inc. uptake w/ acidosis) and glucocorticoids (stimulate glutaminase and Gln metabolism)

Question 33

Glutamine metabolism in kidney

Answer 33

. Glutaminase converts Gln to Glu and releases 2 NH3 molecules for H excretion
. Glutamate dehydrogenase converts Glu to alpha-ketoglutarate that can be used in ATP or as substrate for gluconeogenesis

Question 34

Erythropoietin

Answer 34

. Polypeptide hormone
. Synthesized in response to reduction in renal PO2
. Stimulates bone marrow to inc. production of erythrocytes

Question 35

People w. Impaired renal function and anemia are given ___

Answer 35

Exogenous EPO

Question 36

Renin

Answer 36

. Protease
. Made in response to signals from granular cells that ac as intrarenal baroreceptors
. When pressure drops the synthesis of renin is stimulated

Question 37

Renin-angiotensin system

Answer 37

. Angiotensinogen (plasma protein in liver) gets cleaved to angiotensin I through renin
. angiotensin I is converted to angiotensin II via angiotensin-converting enzyme (ACE)

Question 38

Rate limiting step in RAAS

Answer 38

Renin

Question 39

Where does RAAS occur?

Answer 39

. Exists in plasma and vascular surface of blood vessels throughout body, esp. in kidneys

Question 40

Angiotensin II functions

Answer 40

. Potent vasoconstrictor, inc. bp
. Inc. synthesis of aldosterone, steroid hormone, that inc. Na reabsorption
. Inhibits renin synthesis

Question 41

ACE inhibitors

Answer 41

. Captopril
. Benazepril
. Enalapril

Question 42

Angiotensin II receptor blockers

Answer 42

. Irbesartan
. Candesartan
. Losartan
. Valsartan

Question 43

Vitamin D

Answer 43

. Dietary or synthesized from cholesterol in skin
. Regulates serum Ca and phosphate
. Interacts w/ bone, kidney, and intestine
. Promotes absorption of Ca in intestine
. Liver converts it to circulating form of Vit D
Kidney converts it to active or inactive form

Question 44

Vitamin D deficiency

Answer 44

. Causes inability to absorb dietary Ca

. Results in bone loss

Question 45

Chronic renal failure in relation if vit. D

Answer 45

. Results in Inability to produce active vit D
. Bone Ca becomes depleted
. Inc. retention of Pi because kidney can’ excrete it causing high serum phosphate
. When Pi is hig, less Ca can remain in solution
. Leads to bone loss and soft tissue calcification
. Treatment: high Ca diet, vit. D supplements, Pi reduction w/ Pi binding antacids

Question 46

Symptoms associated w/ kidney failure

Answer 46

. High bp
. Back pain just below rib cage 
. Frequent urination
. Rusty or brown colored Urine 
. Swelling edema of the feet and ankles

Question 47

Serum levels elevated in patients w/ kidney failure

Answer 47

. Urea
. Creatinine
. Uric acid

Question 48

Urinalysis of someone w/ chronic kidney disease

Answer 48

. GFR dec. w/ inc. damage
. Urinary protein inc.
. Urinary blood cells inc.
. Urine volume (too little not enough filtration, too much means inability to concentrate urine)

Question 49

Oliguria

Answer 49

Very little urine production

Question 50

Kidney not filling endocrine duties will cause ___

Answer 50

. Lack of EPO: low hematocrit, low rbcs, tiredness, malaise

. Lack of kidney function: hypertension

Question 51

Acute renal failure

Answer 51

. Rapid and usually reversible deterioration of renal function
. Pre-renal causes: blood loss, hemorrhage, CHF
. Renal causes: bacterial infections, intoxins, rhabdmyolysis
. Postrenal: cancer, obstruction of ureter

Question 52

Rhabdmyolysis

Answer 52

. Damage to skeletal muscle causing myoglobin release
. Appearance of myoglobin in blood and urine
. Myoglobin extremely damaging to kidneys
. Caused by: trauma, excessive exertion in heat, crush syndrome

Question 53

Chronic renal failure

Answer 53

. Slower, progressive, irreversible loss of renal function
. DM causes 40% cases, hypertension 20%
. 5 stages (1 being slight damage, 5 requiring dialysis or transplant)