Functional histology of the kidney

Question 1

What are the functions of the urinary system?

Answer 1

It is involved with the homeostasis of:

• Plasma composition - by regulated excretion of water, ions and organic waste products into urine.
• Blood pressure - through the enzyme renin;
• RBC content - through secretion of erythropoietin.

Question 2

Describe the structure of the kidney and low power histology section of whole human kidney

Answer 2

This is revision from the previous lecture

Question 3

Describe the structure of what it is seen on a low power histological section of the kidney

Answer 3

On image

Question 4

Describe the parts of the nephron

Answer 4

1. Bowmans capsule
2. Glomerulus
3. Proximal convoluted tubule
4. Loop of Henle - thin arm
5. Loop of Henle - thick arm
   6 Distal convoluted tubule
   6a Collecting tubule (straighter, epithelium like 7)
6. Collecting duct
7. Papilla

Renal corpusule = 1+2
Renal tunile = 3-6a
Nephron = 1-6a

Question 5

Describe the structures seen as a cross-section of a kidney cortex

Answer 5

1. Renal corpuscle (glomerulus and Bowman’s capsule)
2. Proximal convoluted tubules
3. Distal convoluted tubules (paler)
4. Collecting ducts in medullary ray

Question 6

Describe the structure of the glomerulus

What can it be seen by?

Answer 6

1. A knot of capillaries

2. Can be seen on an SEM

Question 7

Look at the structure of the glomerulus and Bowmans capsule

Can it been seen on an SEM and with what magnification?

Answer 7

SEM can be used to see them

High magnification

Question 8

What does P show on the diagram of the glomerulus and Bowmans capsule?

Answer 8

showing part of the filter formed by the specialized epithelial cells coating the capillaries, the podocytes (P)

Question 9

What makes up the first part of the glomerulus filter?

What is the size of these structures?

What can they be seen by?

Answer 9

1. Capillary fenestrations
2. 50-100nm
3. SEM

Question 10

Describe the diagram showing the movement of fluid in ultrafiltration

2nd and 3rd stages of filter: Basement membrane & Podocytes

Answer 10

On image

Question 11

What are the three layers of the glomerular filtrate?

Show these on the diagram

Answer 11

1. The cytoplasm of the capillary endothelial cell of the glomerulus
2. Thick, fused basement membranes of capillary and podocytes
3. Filtration slit membranes (with = 4nm pores)

Question 12

What is the filter cut - off of the glomerular filter?

Answer 12

70Kda (albumin)

This size and larger molecules retained in the blood. Many proteins, nutrients (e.g) sugars and ions come through

Question 13

Describe the views of the 3 layers of the glomerular filtration (3D view)

Answer 13

On image

Question 14

Describe the parts of a podocyte seen on an SEM

Answer 14

1. Podocyte cell body

2. Filtration slits

Question 15

What can be seen on a Histological section of a normal glomerulus (H&E), “longitudinal”

Answer 15

refer to image

A: afferent arteriole
BC: Bowman’s capsule
PC: beginning of proximal convoluted tubule
White = fluid: blood or filtrate.

Question 16

What is the function of the renal tubule?

Answer 16

In short, adjusting composition of ultrafiltrate, to recover nutrients, water etc, and to regulate plasma composition

Question 17

What are the functions of the proximal convoluted tubule?

Answer 17

Reabsorption from ultrafiltrate:

• By active transport across membrane into cell: small molecules like Na+, glucose, amino acids
• By pinocytosis: macromolecules, especially proteins. These broken down in lysosomes and returned to blood.
• By passive flux: water, Cl-

Question 18

Describe the structure of the proximal convoluted tubule (PCT) epithelial cell, as seen by TEM

Answer 18

• Long microvilli for high surface area for reabsorption, also lytic enzymes on surface to break down macromolecules
• Pinocytotic vesicles carrying macromolecules to lysosomes
• Many lysosomes to break down and recycle macromolecules
• Many mitochondria to fuel active transport (seen especially near the basolateral sodium pumps)

Question 19

What is the function of the Loop of Henle, thin limb?

Answer 19

Reabsorption of water and salts from filtrate - passive flux across epithelium, by osmosis & concentration gradients.

Question 20

Describe the structure of the thin loop of Henle, epithelial cell

Answer 20

• Thin, squamous epithelium to allow passive fluxes

- A minimum of organelles

Question 21

What is the function of the Distal convoluted tubule and thick ascending loop of Henle

Answer 21

Homeostasis by regulated active transport & exchange of ions :

(Na+/K+, H+/HCO3-)

Question 22

What is the function of the Collecting duct and collecting tubule?

Answer 22

Functions:

• Transport of urine to ureter.
• Water homeostasis: passive reabsorption of water, regulated through epithelial permeability

Question 23

Describe the structure of the collecting duct epithelial cell

Answer 23

Structure:

• Cuboidal to columnar epithelium, to prevent passive flux of water (and urea etc)
• Specialized dense membranes at cell contacts [red].
  Function unclear – probably also helping to prevent passive flux.

Question 24

Describe the Sketch of differential appearance of parts of the renal tubule & collecting ducts

Answer 24

On image

Question 25

Describe the structure of the proximal & distal convoluted tubules in cortex - H&E

Describe the structure of the Medulla, section of various tubules

Answer 25

On image

Question 26

Have a look at the the juxtaglomerular apparatus (and regulation of blood pressure)

Answer 26

This is where the DCT loops back to meet arterioles of same nephron

Question 27

What is the function of the Macula densa?

Answer 27

Macula densa - sensing [Na+] in the DCT fluid. Appears to signal to….

Question 28

What is the function of the juxtaglomerular cells?

Answer 28

Juxtaglomerular cells - release renin – more so in response to lower [Na+] in DCT. Renin indirectly increases vascular tone and sodium resorption.

Question 29

What is the function of the Lacis cells?

Answer 29

Lacis cells – function unknown. (Signalling between the other two?) Also called extraglomerular mesangial cells.

Question 30

Describe the Section showing juxtaglomerular apparatus (H&E)

Answer 30

On image

Question 31

Describe the structure of the Ureter (transverse section, Masson’s trichrome, low magnification)

Answer 31

On image

Question 32

What is Transitional epithelium?

Where is it found?

How is it specialised?

Describe its structure

Answer 32

A special stratified epithelium, found only in ureters and bladder

• Specialized to be impermeable to urine.
• Changes appearance on stretching.
• Somewhat like stratified squamous epithelium when distended,
• but apical cells are biggest and have much apical cytoplasm.
• (In stratified squamous epithelium, basal cells are biggest, apical cells very flat.)

Question 33

What is an an oddity?

Describe its structure when distended and contracted

Answer 33

Plaques of specialized (urine-resistant) plasma membrane in apical cells of transitional epithelium

On image

Question 34

What is the downside of the transitional epithelium?

Answer 34

Cystitis

Why are urinary infections quite common?

Transitional epithelium highly impermeable - leukocytes of immune system cannot readily penetrate.

Why commoner in females?

Female urethra shorter. More risk of contamination, e.g. from anal region.

Advice on prevention?

Plenty of fluids.