HIST AA Uro Lecture 2024 PDF

Summary

This document presents lecture notes on the histology of the urinary system and focuses on the kidneys, their microscopic structures, and the structure-function relationship of their components. It discusses the nephron, renal corpuscle, glomerular filter membrane, and interrelationships. The material also covers details about the lower urinary system, such as the bladder and ureter. The document includes explanations of kidney functions, such as osmoregulation, excretion, and urine production.

Full Transcript

Form and Function 141:
HISTOLOGY

Urinary system

Dr Mandi Alblas
[email protected]

Medicine and Health Sciences | EyeNzululwazi ngezoNyango neMpilo | Geneeskunde en Gesondheidswetenskappe
 ion
Primary tis
sue revis
4 Primary tissues

All tissues consist of cells &
extracellular matrix (ECM)
A. Epithelial tissue B. Connective tissue

D. Muscle tissue D. Nerve tissue
 Outcomes: Kidneys
1. Describe the general microscopic structure of the kidney (basic tissue components, such
as cortex – medulla – pyramid – calyx – pelvis – proximal ureter)

2. Identify the structure-function relationship of the kidney structures with regards to the:
a. Nephron
b. Renal corpuscle
c. Glomerular filter membrane
d. Juxtaglomerular apparatus

3. Describe the filtration barrier between blood and urine in the renal corpuscle
4. Explain the microvasculature - blood supply and drainage of kidney (afferente arteriole –
glomerulus – efferente arteriole)
5. Describe the parts of the lower urinary system (bladder and ureter)

6. Annotate simple sketches (see class notes) and understand the photomicrographs
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Urinary system structure:
Urine is produced
in kidneys & flows
down ureters to
bladder where it is
2 Kidneys stored until voided
via urethra
- urine production

2 Ureters
– conduction of
urine to bladder 1 Urethra
– conduction of urine
to outside

1 Bladder
– urine storage my
a to
An
 lo gy Renal system function:
si o
y
Ph 1. Concentrates the filtrate by glomerular filtration - end product
of these processes is urine.
2. Purpose of urine formation: Maintains homeostasis by
regulating volume & composition of blood
Maintenance of water, electrolyte & acid-base
homeostasis
Excretion of toxic metabolic waste products, e.g.
nitrogenous molecules, urea and creatinine (compounds that
can be dissolved in water).
Regulation of osmotic concentration of blood plasma by
kidneys (osmoregulation) ensures osmotic regulation of
all other body fluids.
3. Reabsorbs and retains useful substances
Kidneysthat are
usually used by
produce
other tissues: sugars and amino acidsconcentrated urine: 1200-1400
4. Hormonal and metabolic functions: mOsm/L
 Renin
 gy
General kidney structure:
o l o
i st
H 3. Medulla
1. Fibrous capsule
- lighter coloured inner
 irregular dense
part, have:
connective tissue
Pyramids
 no septa
Calyxes
Capsule
continuous at
hilum
4. Pelvis
2. Cortex open space lined with
- outer part (will stain urothelium (epithelium)
Pelvis is
darker than medulla), continuous with
have: calices
Renal corpuscle
Convoluted tubule 5. Calyces Calices = collect urine
(epithelium) cup-shaped structures which fit which comes from
over tip of each pyramid, lined pyramid
with urothelium (epithelium)
Section (l.s.) through kidney

Pyramid in medulla

Medullary ray
(paler stained)

Renal artery
and vein
Medulla
Major calyx

Cortex
Ureter (darker stained)

Minor calyx Capsule
(continuous with hilum)
 Section (l.s.) through kidney
g y Microscopically
to lo
Hi s

cor
tex

me
dull
a

calyx
 Kidney lobule
g y Consist of:
to lo
Hi s A collecting duct & all nephrons
One medullary pyramid & cortex directly
above it
lobule

x
corte glomerulus
nephron
collecting duct

a. interlobularis
a. arcuata
d
py rami v. arcuata
ullary
med
 Renal papillae
projects into pelvicalyceal space PCS.
ducts of Bellini DB join = drain urine through cribriform area at tip of papilla.

pelvicalyceal system is proximal end of ureter U
wall of pelvis contains smooth muscle SM
lined by urothelium E.
 o lo g y Cortex
st
Hi 1. Nephron
Consist of:

Renal corpuscles
Convoluted & straight
tubules
2. Collecting tubule & ducts
3. Medullary rays
 lo g y Cortex: Medullary rays
sto
Hi
Each medullary Regions between
ray contains medullary rays
straight tubules (cortical labyrinths)
contain
collecting ducts
– renal corpuscles
– convoluted tubules
– collecting tubules
 Medulla
Consist of:

cortex

1. Straight
tubules
2. Collecting
ducts
medull
3. Vasa recta
a (special
capillary
network)
Tubules collectively At apex – opens into minor
form pyramids with calyxes that join to form major Drain to
apex inwards calyxes
pelvis
Flow to Flow to Flow to ureter of
urethra bladder kidney
 Nephron
Functional & structural unit of
2.
kidney
1-4 million per kidney 1.
Each nephron = 50-55um
Each nephron is divided into 5
4.
parts
1.

renal corpuscle
 glomerulus
5.
2.  Bowman’s capsule
3.2. proximal convoluted tubule 3.
4.3. loop of Henle
Basic
5.4. distal convoluted tubule
functions:
5. collecting ducts – Filtration
– Secretion
– Reabsorptio
 1. Renal In co
Nephron
1.
rtex
corpuscle only
Basic Function:
– Performs osmoregulation & excretion (by filtration, selective reabsorption, secretion & maintenance of acid-base balance)
– Production of urine (glomerular filtrate) = forms 1.5-2L urine per day)

In renal corpuscle = water & low
molecular weight constituents of
plasma are filtered from glomerular
capillaries into Bowman's space to form
glomerular ultrafiltrate.
Contains:
1. Glomerulus= network of
afferent arteriole (supplies
anastomosing capillaries,
glomerulus), & efferent arteriole invaginating Bowman's capsule.
(drains glomerulus) 2. Bowman’s capsule =parietal =
enter & leave corpuscle at vascular single layer of flattened cells
pole resting on b.m.
usually situated opposite entrance to
renal tubule (urinary pole) Glomerular filtrate - water, salts
(NaCl), glucose, protein molecules &
 Development of renal corpuscle
capsule of Bowman =is the enlarged part of the renal tubule at the
beginning.
Bowman’s capsule consists of a single layer of cuboidal/flattened cells resting on
basement membrane (b.m.)
Capillary loops of glomerulus (network of anastomosing capillaries) invaginates
Bowman's capsule
 Thus capillary loops of glomerulus are invested by visceral layer of Bowman's
capsule (octopus like podocytes)
 visceral layer is continuous with parietal layer that constitutes Bowman's capsule
proper. Vascular pole
 space between the 2 layers = Bowman's space

Urinary pole
 Mudfix?
Glomerulus:
Bowman’s Renal corpuscle
Several lobes of
capsule: Glomerulus +
capillary plexuses Bowman’s
which join Is double layer capsule
afferent & epithelium with
efferent arterioles embedded
glomerulus
1. Parietal layer – simple squamous
epithelium (layered cup) = almost
completely surrounds glomerulus, except at
vascular pole
2. Visceral layer - podocytes
 Renal
corpuscle
Afferent arteriole Efferent arteriole (EA)
(AA)
Bowman’s capsule
mesangium
mesangial cells & matrix (parietal layer; simple
Function: support squamous ep)
capillaries
Endothelial
cell (of
capillary)
Basal lamina
Mesangial matrix

Mesangial cell
Bowman’s capsule:
Visceral layer;
podocytes
Capillary (form a continuous layer
over whole basal lamina)

Also called lacis
Proximal convoluted
cells /granular Tubule (PCT)
cell
Nephron 2. Proximal convoluted
2.

tubule (PCT)
Function: reabsorption of filtered substances (Na2, Cl-, K+,
Ca2+, glucose, urea)

Cross section through a Located in cortex
proximal convoluted Nearest to capsule of Bowman
tubule Follows a convoluted course
Longer than DCT
Lumen appears smaller
Cuboidal cells with brush border
lumen (abundant microvilli)
nuclei situated near base of cell
microvilli
At start point: open from renal
nucleus
corpuscle

basal lamina
Nephron 3. Loop of Henle
3.

Function: osmotic pressure = saves water – concentrated urine
Descending limb = further reabsorption of water (not solutes)
Ascending limb =active transport of sodium & chloride ions from tubular fluids into
peritubular fluid of medulla

U shaped tube
Descending & ascending limbs (into medulla)

Cross section 4 parts:
through a loop of Thick descending
Henle (pars recta of PCT)
Thin descending
Thin ascending
Thick ascending
nucleus
(pars recta of DCT)
flattened epithelial cells
 4. Distal convoluted tubule (DCT)
Nephron 4.

Function: variable reabsorption of water and substances (Na 2, Cl-, K+, Ca2+) under hormonal
control
Less reabsorption than PCT. Also secretions of ions, acids, drugs & toxins

Cross section through a Located in cortex
distal convoluted Lies against arteriole of renal
tubule
corpuscle
Follows a convoluted course
Shorter than PCT
Lumen appears larger
Cuboidal cells with no brush
Few, short microvilli border (less microvilli)
Nucleus
Nuclei closer to each other
At end point = open in
collecting duct
 Mudfix?
DCT PCT

Located in cortex Located in cortex
Lies against arteriole of renal Nearest to capsule of Bowman
corpuscle Follows a convoluted course
Follows a convoluted course Longer than DCT
Shorter than PCT Lumen appears smaller
Lumen appears larger Cuboidal cells with brush border
Cuboidal cells with no brush (abundant microvilli)
border (less microvilli) nuclei situated near base of cell
Nuclei closer to each other At start point: open from renal
At end point = open in corpuscle
collecting duct
Nephron 5. Collecting ducts
5.

Function: variable reabsorption of water and solutes (under
hormonal control)
Reabsorption of Na2, Cl-, urea, hydrogen bicarbonate ions
Reabsorption or secretion of K+ - depends on intake)

Cross section through a
collecting duct

Located in cortex or medulla
Follows a straight course
Lumen appears larger
Cuboidal cells with no brush
border
 Mudfix?
Epithelial lining of Nephron

Bowman’s capsule: Proximal tubule & 1st
part of descending
Visceral=podocytes tubule (loop of Henle)
Parietal= simple
squamous Simple cuboidal
epithelium with brush
border

2nd part of ascending
Last part of descending tubule, distal
tubule & 1st part of convoluted tubule &
ascending tubule collecting duct
Simple cuboidal
(thin part) of loop of
Simple squamous epithelium without
Henle)
epithelium brush border
 Glomerular filtration
Nephron membrane
3 main Components of the filter: P
e
pac
1. Endothelium (E) of fenestrated (F) capillaries in
ar ys FS
glomerulus. The capillary is fenestrated, with no i n
– ur PE
diaphragm over the fenestration. US
BL
2. Thick basement membrane (BL=basal lamina)= arising
from the endothelial cells AND the podocytes e n
F lum
ry
3. Epithelial cells - visceral layer of Bowman’s capsule = E pi l la
a
podocyte (P) with pedicels (PE) AND Filtration slits (FS) –c
CL
inbetween PE (foot processes)
ce
pa P US – urinary space
y s
r
r i na
–u FS
US
PE
BL
F

E
CL – capillary lumen
BL, LRI, LD, LRE – basal lamina with 3 components
 Podocyte (filtration
membrane)
Visceral layer of Bowman’s capsule
(visceral epithelial cells = inner layer, covers the glomerular
capillaries)
Podocyte Cell Body (CB) ---- Primary Foot Processes PB ----
Secondary Foot Processes (SB) ----- Pedicels (PE)
Filtration slits (FS) occur between foot processes PE F
S CB

E PB
CB
PB S
PB B
SB
E= Fenestrated capillaries
 Podocyte
The relationship between pedicles and
basal lamina
podocyte
primary foot processes

pedicel
secondary foot processes
b.m. of capillary

Pedicels interdigitate with pedicels
of neighbouring podocytes
Pedicels never touch

podocyte cell body

Foot processes

pedicel
Filtration slits (FS) - spaces
between interdigitating pedicels capillary

(semipermeable barrier)
 JGA / Juxtaglomerular apparatus
A specialisation of the glomerular afferent arteriole & the DCT of the same
nephron

= Macula densa + mesanglial cells + Juxtaglomerular cells
Also called lacis cells or granular cells

Position:
in nephron, where distal convoluted tubule (DCT)
turns back and makes contact with afferent
arteriole (AA)
DCT

A
A
 JGA / Juxtaglomerular apparatus
2. Macula densa
1. JG sells Modified epithelial cells in
(Juxtaglomerular DCT, where it makes
cells) =modified contact with AA
smooth muscle cells – F: monitors salt
of AA concentration in tubule =
– F: contain renin help to maintain normal
granules = maintain blood pressure
normal blood
pressure

3. Lacis/granular cells /
extraglomerular
mesangial cells
= in triangular space
between AA & EA and
macula densa
Function of JGA:
(involved in the regulation of systemic blood pressure via the renin-angiotensin-aldosterone System = RAAS)
Thus: acts as baroreceptor & chemoreceptor controlling systemic blood pressure by secretion of Renin
↓BP - ↓ glomerular filtration - ↓ concentration of sodium ions in the DCT – cells, acting as chemoreceptors promote
secretion of Renin
 Macula densa
epithelium of distal
convoluted tube

juxtaglomerular cells
cells of macula
endothelium densa

afferent arteriole basal lamina

mesanglial
(lacis/granular) cells
efferent arteriole
glomerular endothelium
podocyte

macula densa = higher & narrower (more cylindrical than cuboidal) cells in
DCT (their nuclei are therefore closer together).
This gives the impression of a dense spot in the wall of the tubule.
 Renal vasculature
Renal artery
divides in hilum into branches

Supplies 5 segments
Segmental
arteries
5 branches

Interlobar Supplies between
arteries lobes
ascend between
pyramids to
corticomedullary
junction.
Each branch into Supplies
Arcuate arteries between cortex
Arc between cortex and and medulla
medulla

give rise to numerous
cortical radial Supplies
(interlobular) cortex
arteries
From cortico-radial arteries the afferent (supply cortex)
arteries (AA) branch off to form glomerulus.
(group of special capillaries).
https://youtu.be/edMkB5guZkg?
si=49udAafDuQMQ16CQ
 Renal vasculature
Renal artery
divides in hilum into branches

Segmental
arteries
5 branches

Interlobar
arteries
ascend between
pyramids to
corticomedullary
junction.
Each branch into
Arcuate arteries
Arc between cortex and
medulla

give rise to numerous
cortical radial
(interlobular)
arteries
From cortico-radial arteries the afferent (supply cortex)
arteries (AA) branch off to form glomerulus.
(group of special capillaries).
https://youtu.be/edMkB5guZkg?
si=49udAafDuQMQ16CQ
 Renal vasculature
From interlobular (cortical-radial) arteries
the afferent arteries (AA) branch off to form
glomerulus (group of special capillaries).

Leading form
glomerulus to efferent
arterioles (EA)

juxtamedullary Cortical glomeruli
glomeruli
vasa recta peritubular capillaries
 associated with loop of Henle  associated with convoluted
 run straight down medulla from tubule
 supply all tubules in cortex.
juxtamedullary glomeruli.
 join together to from veins
 make a '‘U" turn & run up again
 These capillaries supply all the
to cortex
 join together to form veins tubules in the cortex. They are
fenestrated capillaries, which
promote reabsorption of
substances from the tubules.
 which drain into cortical radial (interlobular)
veins
 and drain further into arcuate vein,
 interlobar vein and eventually
Image: Human Histology, Stevens and Lowe 2nd Ed
 renal vein which all run alongside arteries.
 Renal vasculature
Renal
vein Renal artery

Interlobar Interlobar
veins arteries

Each branch into
Arcuate Arcuate
veins arteries

cortical radial cortical radial
(interlobular) (interlobular)
veins arteries

From cortico-radial arteries the afferent
arteries (AA) branch off to form glomerulus.
(group of special capillaries).
 Lower urinary system
Components: from hilum of the kidney to urethra
1. Calyces in kidney
2. Renal pelvis
3. Ureter
4. Bladder
5. Urethra

All these excretory passages (except urethra) have
same general structure:
mucosa - lined by transitional epithelium
(urothelium)
muscularis – smooth muscle layers
adventitia - or, in some regions, a serosa

Function:
transport of urine in ureters to bladder (storage) and micturition via urethra
 Urothelium
Also called: Transitional
epithelium
is found only within the Umbrella cells
conducting passages of urinary
system Stratified cuboidal
epithelium
The surface cells are called
umbrella cells = maintain
impermeability of epithelium lamina propria
to urine even when at full
stretch

Umbrella cells

Stratified
cuboidal
epithelium

lamina propria

Medium magnification High magnification
 Ureter
star shaped lumen
urothelium
lamina propria
inner longitudinal layer
L
middle circular layer LC L
C outer longitudinal layer

L adventitia

Cross section layers of wall:
Lumen - star shaped
Epithelium lining (urothelium)
Lamina propria – connective tissue
Muscularis externa layers – smooth muscle:
Proximal = 2 layers of muscle (circular & longitudinal layers)
Distal (lower third) - 3 layers of muscle (longitudinal & circular &
longitudinal layers)
Adventitia – connective tissue
 Bladder
urothelium

lamina propria

inner longitudinal
L muscle layer
L
middle circular
C muscle layer
C

L outer longitudinal
muscle layer
L
adventitia or serosa

Cross section layers of wall:
Lumen - large
Epithelium lining (urothelium)=thicker than ureter
Lamina propria – connective tissue
Muscularis externa layers – smooth muscle:
(longitudinal & circular & longitudinal layers) = middle layer thickest of the 3
Adventitia – connective tissue = covers bladder, except of top surface
 Renal vasculature: summary
blood vessels of capsule

EA efferent arteriole
interlobular v.
AA afferent
venues network in cortex
arteriole
cortical radial a. arcuate v.
(cortical
interlobular a.)
glomerulus
arcuate a.

ular v.
Interlobular a.
peritubular capillary
network in cortex

interlob
(convoluted tube Vasa recta
network) (venulae rectae)
Vasa recta
(arteriolae rectae)
Straight tube network. v. l
o
la r a bul
Renal a. Lobu a re
v. renalis
 Renal corpuscle: summary
distal conv.
tubule
juxtaglomerular cells macula densa

efferent arteriole
extraglomerul
ar mesangial
cells (lacis vascular pole
cells)

parietal layer

podocyte of visceral layer
mesangial cells

capillaries
of a ce
basal lamina
glomerulu sp
y
s
endothelium
nar processes of podocyte
i
ur
urinary pole

proximal conv. tubule
 Nephron: summary

efferent arteriole
afferent arteriole

cortex
renal corpuscle
a. interlobularis
PCT
medullary ray
DCT
descending a. arcuata
loop of Henle

limb (thick part)
ascending

medulla
limb
(thick part) ductus papillaris
descending limb
(thin part)
ascending
limb
(thin part)