Development of Kidney
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Oct 03, 2014
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About This Presentation
Basic development of nephron and Kidney
Slide Content
DEVELOPMENT
OF
KIDNEY
-Dr. Garima Aggarwal
-DM Nephrology
-Amrita Institute of Medical Sciences
-Kochi, India
Created – September, 2013
OF
KIDNEY
-Dr. Garima Aggarwal
-DM Nephrology
-Amrita Institute of Medical Sciences
-Kochi, India
Created – September, 2013
OBJECTIVES
Stages of Kidney Development
Development of Nephron
Development of the Collecting System
Development of Vasculature
Molecular Biology
Timeline of Events
Applied Aspects
Stages of Kidney Development
Development of Nephron
Development of the Collecting System
Development of Vasculature
Molecular Biology
Timeline of Events
Applied Aspects
Basic Concepts
INTERMEDIATE
MESODERM
The 3 embryonic
germ layers
INTERMEDIATE
MESODERM
The 3 embryonic
germ layers
Mammalian Kidney Development
After the folding of the embryonic disc, the intermediate mesoderm
forms a bulging on the posterior abdominal wall, called the
NEPHROGENIC CORD/ UROGENITAL RIDGE
It extends from the cervical region to the sacral region of the
embryo.
UROGENITAL
RIDGE
After the folding of the embryonic disc, the intermediate mesoderm
forms a bulging on the posterior abdominal wall, called the
NEPHROGENIC CORD/ UROGENITAL RIDGE
It extends from the cervical region to the sacral region of the
embryo.
UROGENITAL
RIDGE
Stages of Kidney Development
•The Human Kidney
develops in 3 successive
stages (rostral to caudal)
PRONEPHROS
MESONEPHROS
METANEPHROS
They are aligned adjacent
to the
Wolfian / Nephric Duct
•The Human Kidney
develops in 3 successive
stages (rostral to caudal)
PRONEPHROS
MESONEPHROS
METANEPHROS
They are aligned adjacent
to the
Wolfian / Nephric Duct
PronephrosPronephros
·The PRONEPHROS The PRONEPHROS
develops from the cranial develops from the cranial
most part of urogenital most part of urogenital
ridge.ridge.
·It is transitory and It is transitory and
regresses completely by 5 regresses completely by 5
weeks of gestationweeks of gestation
·Forms the kidney in Forms the kidney in
larval stages of larval stages of
amphibians and fishamphibians and fish
·It is non functional in It is non functional in
Humans. Humans.
·The PRONEPHROS The PRONEPHROS
develops from the cranial develops from the cranial
most part of urogenital most part of urogenital
ridge.ridge.
·It is transitory and It is transitory and
regresses completely by 5 regresses completely by 5
weeks of gestationweeks of gestation
·Forms the kidney in Forms the kidney in
larval stages of larval stages of
amphibians and fishamphibians and fish
·It is non functional in It is non functional in
Humans. Humans.
MesonephrosMesonephros
MESONEPHROS develops
caudal to the Pronephros.
It consists of a series of
tubules that drain into the
nephric duct, which can be
called the Mesonephric duct.
Excretory organ for embryo
until metanephros takes
over.
By the 4th month of
gestation-completely
disappears.
Before its degeneration some
of its cells migrate and
ultimately form the
Adrenal glands
Gonads
MESONEPHROS develops
caudal to the Pronephros.
It consists of a series of
tubules that drain into the
nephric duct, which can be
called the Mesonephric duct.
Excretory organ for embryo
until metanephros takes
over.
By the 4th month of
gestation-completely
disappears.
Before its degeneration some
of its cells migrate and
ultimately form the
Adrenal glands
Gonads
·METANEPHROS, third METANEPHROS, third
and final stage of Kidney and final stage of Kidney
developmentdevelopment
·It results from Reciprocal It results from Reciprocal
inductive signals between inductive signals between
the Metanephric the Metanephric
Mesenchyme (MM) and Mesenchyme (MM) and
the Ureteric Bud (UB) at the Ureteric Bud (UB) at
the caudal end of the the caudal end of the
Urogenital bridge.Urogenital bridge.
·Ureteric bud is an Ureteric bud is an
outgrowth at the distal end outgrowth at the distal end
of the Wolfian duct, first of the Wolfian duct, first
visible at approx. 5 weeks visible at approx. 5 weeks
of gestation.of gestation.
MetanephrosMetanephros
and final stage of Kidney and final stage of Kidney
developmentdevelopment
·It results from Reciprocal It results from Reciprocal
inductive signals between inductive signals between
the Metanephric the Metanephric
Mesenchyme (MM) and Mesenchyme (MM) and
the Ureteric Bud (UB) at the Ureteric Bud (UB) at
the caudal end of the the caudal end of the
Urogenital bridge.Urogenital bridge.
·Ureteric bud is an Ureteric bud is an
outgrowth at the distal end outgrowth at the distal end
of the Wolfian duct, first of the Wolfian duct, first
visible at approx. 5 weeks visible at approx. 5 weeks
of gestation.of gestation.
MetanephrosMetanephros
Development of Nephron
Upon invasion of UB in the
loose MM, signals from MM
cause UB to branch into a T -
tubule
Signals from UB induce the
MM to condense along the
surface of UB
The METANEPHRIC
MESENCHYME (MM)
becomes distinct from the
surrounding loose
mesenchymal cells and come
to lie adjacent to the
URETERIC BUD (UB).
Upon invasion of UB in the
loose MM, signals from MM
cause UB to branch into a T -
tubule
Signals from UB induce the
MM to condense along the
surface of UB
The METANEPHRIC
MESENCHYME (MM)
becomes distinct from the
surrounding loose
mesenchymal cells and come
to lie adjacent to the
URETERIC BUD (UB).
After condensation a subset of the MM
aggregates inferior and adjacent to the
tips of the branching ureterIc bud,
forming the PERITUBULAR
AGREGATES.
These undergo mesenchyme – to –
epithelial transformation and form the
RENAL VESICLE
The Renal vesicle ultimately forms the
•Glomerulus
•Proximal Convoluted tubule
•Loop of Henle
•Distal Convoluted tubule
Renal
Vesicle
aggregates inferior and adjacent to the
tips of the branching ureterIc bud,
forming the PERITUBULAR
AGREGATES.
These undergo mesenchyme – to –
epithelial transformation and form the
RENAL VESICLE
The Renal vesicle ultimately forms the
•Glomerulus
•Proximal Convoluted tubule
•Loop of Henle
•Distal Convoluted tubule
Renal
Vesicle
Renal Vesicle in contact with the
epithelium of the ureteric bud forms
the ‘COMMA SHAPE’
Glomerulus develops from the most
proximal end of the Renal Vesicle,
farthest from UB tip.
These cells develop into Podocytes.
Vascular cleft develops between
podocyte layes and the more
proximal cells – ‘S SHAPE’
Endothelial cells migrate into the
vascular cleft
Mesangial cell ingrowth follows the
endothelial cells into the vascular
cleft.
epithelium of the ureteric bud forms
the ‘COMMA SHAPE’
Glomerulus develops from the most
proximal end of the Renal Vesicle,
farthest from UB tip.
These cells develop into Podocytes.
Vascular cleft develops between
podocyte layes and the more
proximal cells – ‘S SHAPE’
Endothelial cells migrate into the
vascular cleft
Mesangial cell ingrowth follows the
endothelial cells into the vascular
cleft.
Development of the Collecting Development of the Collecting
System System
The collecting ducts are all derived from the Ureteric Bud.The collecting ducts are all derived from the Ureteric Bud.
The ureteric bud initially penetrates the metanephric mesoderm, The ureteric bud initially penetrates the metanephric mesoderm,
and then undergoes repeated branching to form the ureters, renal and then undergoes repeated branching to form the ureters, renal
pelvis, major calyces, minor calyces, and collecting ducts.pelvis, major calyces, minor calyces, and collecting ducts.
This branching is highly patternedThis branching is highly patterned
System System
The collecting ducts are all derived from the Ureteric Bud.The collecting ducts are all derived from the Ureteric Bud.
The ureteric bud initially penetrates the metanephric mesoderm, The ureteric bud initially penetrates the metanephric mesoderm,
and then undergoes repeated branching to form the ureters, renal and then undergoes repeated branching to form the ureters, renal
pelvis, major calyces, minor calyces, and collecting ducts.pelvis, major calyces, minor calyces, and collecting ducts.
This branching is highly patternedThis branching is highly patterned
After the first few rounds of branching of the UB derivatives and
the concomitant induction of nephrons, the kidney begins to
become divided into an outer CORTICAL region (where
nephrons are being induced) and an inner MEDULLARY region
where the collecting system forms.
As growth continues successive groups of nephrons are induced
at the peripheral regions of the kidney, known as the
NEPHROGENIC ZONE.
the concomitant induction of nephrons, the kidney begins to
become divided into an outer CORTICAL region (where
nephrons are being induced) and an inner MEDULLARY region
where the collecting system forms.
As growth continues successive groups of nephrons are induced
at the peripheral regions of the kidney, known as the
NEPHROGENIC ZONE.
Development of Vasculature
VASCULOGENESIS – de novo
differentiation of previously non
vascular cells into structures that
resemble capillary beds.
ANGIOGENESIS – sprouting of
cells from early capillary beds to
form mature vessel structures.
Endothelial progenitors withing
the MM give rise to renal vessels
in situ, these capillaries form a
rich network around the
developing nephric tubules.
VASCULOGENESIS – de novo
differentiation of previously non
vascular cells into structures that
resemble capillary beds.
ANGIOGENESIS – sprouting of
cells from early capillary beds to
form mature vessel structures.
Endothelial progenitors withing
the MM give rise to renal vessels
in situ, these capillaries form a
rich network around the
developing nephric tubules.
Renal Ascent
The fetal metanephros is located at vertebral level S1-S2, The fetal metanephros is located at vertebral level S1-S2,
whereas the definitive adult kidney is located at vertebral level whereas the definitive adult kidney is located at vertebral level
T12-L3. T12-L3.
From 6th to 9th weeks: kidneys ascend to a lumbar site just
below adrenals
As the kidneys migrate, they are vascularized by a succession of
transient aortic sprouts that arise at progressively higher levels
final pair forms in the upper lumbar region and becomes the
definitive renal arteries
occasionally, a more inferior pair of arteries persists as accessory
lower pole arteries
Initially the kidneys face anteriorly, but during the ascent, the Initially the kidneys face anteriorly, but during the ascent, the
kidneys rotate 90°causing the hilum to finally face medially.kidneys rotate 90°causing the hilum to finally face medially.
The fetal metanephros is located at vertebral level S1-S2, The fetal metanephros is located at vertebral level S1-S2,
whereas the definitive adult kidney is located at vertebral level whereas the definitive adult kidney is located at vertebral level
T12-L3. T12-L3.
From 6th to 9th weeks: kidneys ascend to a lumbar site just
below adrenals
As the kidneys migrate, they are vascularized by a succession of
transient aortic sprouts that arise at progressively higher levels
final pair forms in the upper lumbar region and becomes the
definitive renal arteries
occasionally, a more inferior pair of arteries persists as accessory
lower pole arteries
Initially the kidneys face anteriorly, but during the ascent, the Initially the kidneys face anteriorly, but during the ascent, the
kidneys rotate 90°causing the hilum to finally face medially.kidneys rotate 90°causing the hilum to finally face medially.
Speculated that the differential growth of the lumbar and
sacral regions of the embryo plays a role
sacral regions of the embryo plays a role
Signaling Pathways in Kidney
Development
•From MM
–WT 1
•Hepatocyte Growth Factor(HGF) & MET
•Glial derived nuerotrophic factor(GDNF) & RET
•From Ureteric bud
•Bone morphogenic protein(BMP)
•Fibroblast growth factor(FGF)
•PAX-2
•WNT-4
Development
•From MM
–WT 1
•Hepatocyte Growth Factor(HGF) & MET
•Glial derived nuerotrophic factor(GDNF) & RET
•From Ureteric bud
•Bone morphogenic protein(BMP)
•Fibroblast growth factor(FGF)
•PAX-2
•WNT-4
•Wt1 is a transcription factor
•WT1 was originally identified as a gene involved in Wilms tumor, a pediatric cancer in
which kidney elements are incompletely differentiated and proliferate to form
tumors.
•Wt1 is first expressed in intermediate mesoderm prior to kidney development, and
then in the kidney, gonads and mesothelium.
•Makes MM tissue to respond to ureteric bud induction.
WT1
•WT1 was originally identified as a gene involved in Wilms tumor, a pediatric cancer in
which kidney elements are incompletely differentiated and proliferate to form
tumors.
•Wt1 is first expressed in intermediate mesoderm prior to kidney development, and
then in the kidney, gonads and mesothelium.
•Makes MM tissue to respond to ureteric bud induction.
WT1
As the differentiation proceeds, WT1 expression is lost
in the cells of the proximal and distal tubules and retained
only in the glomerular podocytes.
WT1 is expressed in the metanephric mesenchyme
but not the Wolfian duct or ureteric bud.
in the cells of the proximal and distal tubules and retained
only in the glomerular podocytes.
WT1 is expressed in the metanephric mesenchyme
but not the Wolfian duct or ureteric bud.
GDNF- ret Signaling in Kidney Development
Ret is a tyrosine kinase receptor
Ret is expressed in the Wolfian duct and the ureteric bud.
For stimulation of ureteric bud branching
By the time the bud has branched several times, expression is restricted to the tips of the
branches.
Ret is a tyrosine kinase receptor
Ret is expressed in the Wolfian duct and the ureteric bud.
For stimulation of ureteric bud branching
By the time the bud has branched several times, expression is restricted to the tips of the
branches.
Factors from Ureteral Bud
•Bone morphogenic protein(BMP)
•Fibroblast growth factor(FGF)
- Stimulate proliferation of metanephric mesenchyme
- Maintain production of WT 1.
•Bone morphogenic protein(BMP)
•Fibroblast growth factor(FGF)
- Stimulate proliferation of metanephric mesenchyme
- Maintain production of WT 1.
Factors from Ureteral Bud
•PAX-2
•WNT-4
-Mainly cause mesenchyme to epithelialise in
prepation for excretory tubule differentiation.
-Production of Laminin and Type 4 Collagen to
form basement membrane.
•PAX-2
•WNT-4
-Mainly cause mesenchyme to epithelialise in
prepation for excretory tubule differentiation.
-Production of Laminin and Type 4 Collagen to
form basement membrane.
Timeline of Kidney Embryology
•Week 4: appearance of Wolffian or
Mesonephric Duct
•Day 28: formation of Ureteric Bud (UB)
•Week 4-8: Initial MM induction and UB
branching
•Week 8: First nephrons are formed
•Week 6-8: kidneys ascend from pelvis to
lumbar location
•Week 8-15 : Period of UB branching with
stochastic formation of UB ampulla and nephron units
•Week 10 : filtration begins
•Week 32-36: End of Nephrogenesis
•Week 4: appearance of Wolffian or
Mesonephric Duct
•Day 28: formation of Ureteric Bud (UB)
•Week 4-8: Initial MM induction and UB
branching
•Week 8: First nephrons are formed
•Week 6-8: kidneys ascend from pelvis to
lumbar location
•Week 8-15 : Period of UB branching with
stochastic formation of UB ampulla and nephron units
•Week 10 : filtration begins
•Week 32-36: End of Nephrogenesis
Applied Aspects
Anomalies in number
•Renal agenesis When
ureteric bud fails to
contact MM
•Duplications When
ureteric bud splits early
before reaching MM
•Ectopic ureters When
two ureteric buds arise
from mesonephricduct
•Renal agenesis When
ureteric bud fails to
contact MM
•Duplications When
ureteric bud splits early
before reaching MM
•Ectopic ureters When
two ureteric buds arise
from mesonephricduct
Anomalous Ascent
•When the kidney fails to
ascend properly, its location
becomes ectopic.
•The inferior poles of the
kidneys may also fuse,
forming a horseshoe
kidney and ascent is stopped
by inferior mesenteric artery
•Kidney may fuse to the
contralateral one and ascends
to the opposite side, resulting
in a cross-fused ectopy.
•When the kidney fails to
ascend properly, its location
becomes ectopic.
•The inferior poles of the
kidneys may also fuse,
forming a horseshoe
kidney and ascent is stopped
by inferior mesenteric artery
•Kidney may fuse to the
contralateral one and ascends
to the opposite side, resulting
in a cross-fused ectopy.
Anomalous position
•Malrotated Kidneys - Calyces face
anteriorly or antrolaterally. Have
some element of obstruction
causing inadequate drainage –
leading to infection & stone
formation
Other abnormal positions include-
•Ventral Position
•Ventromedial Position
•Dorsal Position
•Lateral Position
•Malrotated Kidneys - Calyces face
anteriorly or antrolaterally. Have
some element of obstruction
causing inadequate drainage –
leading to infection & stone
formation
Other abnormal positions include-
•Ventral Position
•Ventromedial Position
•Dorsal Position
•Lateral Position
Mal rotated kidneys
•Calyces face anteriorly or
antrolaterally
•Have some element of
obstruction causing
inadequate drainage –
leading to infection & stone
formation
30-march, 2010, tuesday 31
•Calyces face anteriorly or
antrolaterally
•Have some element of
obstruction causing
inadequate drainage –
leading to infection & stone
formation
30-march, 2010, tuesday 31
Polycystic kidneys
•Hereditary – autosomal dominant
•Not manifested before 30
•Kidneys enlarged, studded with cysts
•Unyeilding capsule compresses renal
parenchyma causing atrophy
•Liver,lungs and pancreas may be affected
•Defact : not clear, many theories
30-march, 2010, tuesday 32
•Hereditary – autosomal dominant
•Not manifested before 30
•Kidneys enlarged, studded with cysts
•Unyeilding capsule compresses renal
parenchyma causing atrophy
•Liver,lungs and pancreas may be affected
•Defact : not clear, many theories
30-march, 2010, tuesday 32
Polycystic kidneys
Loin pain- weight dragging upon
peddicle or capsule stretch,
hemorhage in cyst, stone
abdominal mass- confused with
cystic tumor
hematuria- cyst rupture in
pelvis,moderate, episodic.
hypertention, infection, &
uremia/CRF.
Nonspecific symptoms:
anorexia, headache, vague
abdominal discomfort,
vomiting, drowsiness,
anemia.
ESRD: suddenly in middle age,
survival without RRT ( dialysis/
transplant) unlikely
30-march, 2010, tuesday 33
Loin pain- weight dragging upon
peddicle or capsule stretch,
hemorhage in cyst, stone
abdominal mass- confused with
cystic tumor
hematuria- cyst rupture in
pelvis,moderate, episodic.
hypertention, infection, &
uremia/CRF.
Nonspecific symptoms:
anorexia, headache, vague
abdominal discomfort,
vomiting, drowsiness,
anemia.
ESRD: suddenly in middle age,
survival without RRT ( dialysis/
transplant) unlikely
30-march, 2010, tuesday 33
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