development of the gi sysem - temple university sites · • wnt signaling pathway important paneth...
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Development of the Gastrointestinal System
Thomas A. Marino, Ph.D.
Temple University
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University of IowaVirtual Pediatric Hospital
• Jamie
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Competencies: Upon completion of this section of the course, you must be able to:
• Know the segments of the primitive gut tube. • Compare the different subdivisions of the gut tube and describe
what adult structure(s) arise from each subdivision. • Understand the rotation of the different segments of the gut tube. • Know the consequences of abnormal rotation of the gut including
volvulus. • Compare and contrast the cells that give rise to the neural,
muscular and connective tissue elements of the different parts of the gut.
• Understand the developmental defects associated with the epithelization of the gut tube.
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Background
• Start with the trilaminar embryo.
• Find the oral plate and the cloacal plate.
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Lateral Body Folding
• The consequence of lateral body folding leaves the embryo with a gut suspended by a dorsal mesentery.
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Endoderm
Yolk Sac
Oral Plate
Cloacal Plate
foregut
midgut
hindgut
AllantoisHeart
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Head
Tail
Back
Connecting S
talk
Foregut
Midgut
Hindgut
Allantois
Vitelline Stalk
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One consequence of the tail folding is the incorporation of the allantois.
Allantois forms the cloaca.
Distal allantois remains in connecting stalk.
By day 35 the connecting stalk and the yolk sac stalk fuse to form the umbilical cord.
Head
Tail
Back
Connecting S
talk
Foregut
Midgut
Hindgut
Allantois
Vitelline Stalk
Cloaca
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Primitive Gut
• Stomodeum - ectoderm at at cranial end of gut.
• Foregut - endoderm and splanchnic mesoderm
• Midgut - endoderm and splanchnic mesoderm • Hindgut - endoderm and splanchnic
mesoderm • Proctodeum - anal pit - ectoderm at caudal
end of GI tract.
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• SHH secreted from the endoderm
• HOX genes influence cephalic – caudal regions of the gut tube.
Head
Tail
Back
Connecting Stalk
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Foregut derivatives:
• pharynx (with derivatives tonsils, tongue, salivary glands, etc.)
• lower respiratory system • esophagus • stomach • duodenum (proximal to bile duct) • liver, biliary system and pancreas
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Development of the esophagus
The cephalic foregut is partitioned by the tracheoesophageal septum.
Langman p.290Esophagus Trachea
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Formation of the Stomach
• During the 4th week caudal foregut begins to dilate
• Initially oriented in the median plane.
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Growth of the Stomach
• During the next two weeks: Dorsal wall of stomach
grows faster than the ventral wall
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Rotation of the Stomach
• As the stomach grows: The ventral surface
rotates to the right. The dorsal border
moves to the left.
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Rotation of the Stomach
◆ As the stomach grows: • The left side
becomes the ventral surface.
The right side becomes the dorsal surface.
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Rotation of the Stomach
• Cranial region moves inferiorly and to the left.
• Caudal region moves superiorly and to the right.
• Long axis of stomach becomes nearly transverse.
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Vagus Nerve
• The rotation of the stomach leaves the: Left vagus nerve on the ventral surface of the
stomach (Anterior Vagal Trunk). Right vagus nerve on the dorsal surface of the
stomach (Posterior Vagal Trunk).
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Arteries
• Since the foregut distal to the esophagus is supplied by the celiac artery, branches of this artery supply the stomach.
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Duodenum
• Derived from: Foregut up to the Bile duct (first and second
parts). Midgut from bile duct to jejunum.
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Growth of the Duodenum
• Grows as a C-shaped loop that projects ventrally.
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Rotation of the Duodenum
• As the stomach rotates so does the duodenum.
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Rotation of the Duodenum
• As the duodenal loop rotates it rotates to the right.
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Rotation of the Duodenum
• Eventually comes to lie in a retroperitoneal position.
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Duodenal Development • During the 5th and
6th weeks • The duodenal lumen
becomes plugged by epithelial cells.
• Later recanalized.
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Development of the Liver
• During the 3rd week the liver bud develops.
• Liver bud also known as hepatic diverticulum.
• Endodermal cells grow toward septum transversum.
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Development of the Liver
• Endodermal cords mix with cells of vitelline veins to form liver parenchyma.
• Hemopoietic cells, Kupffer cells and connective tissue from mesoderm of septum transversum.
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Liver Function
• Early function is hemopoiesis. • Activity diminishes during the last 2
months of gestation.
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Development of the Bile Duct
• As the liver develops, the epithelium between the liver and the foregut narrows and forms the bile duct.
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Development of the Gall Bladder
• A diverticulum develops from the bile duct giving rise to the gall bladder and the cystic duct.
bile duct
cystic ductGall bladder
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Development of the Gall Bladder
• Bile duct becomes solid, then the lumen opens again.
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Development of the Pancreas
• Pancreas originates as two pancreatic buds.
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Development of the Pancreas
• Dorsal pancreatic bud is in dorsal mesentery
• Ventral pancreatic bud is near the bile duct.
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Development of the Pancreas
• During rotation of the duodenum the ventral bud moves dorsally.
• Ventral bud will lie caudal and posterior to the dorsal bud.
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Development of the Pancreas
• Ventral bud forms uncinate process and inferior pancreatic head.
• Dorsal bud makes up rest of gland.
• Main pancreatic duct is formed from dorsal and ventral pancreatic duct.
Langman p. 303
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• FGF and Activin – Secreted by the
notochord – Repress SHH in
endoderm to become pancreas
• Pancreatic and duodenal homeobox 1 (PDX) gene upregulated.
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Development of the Pancreas
• Islets of Langerhans develop from parenchymatous tissue during the 3rd month of gestation. – PAX 4 and Pax6 specify cells to become:
• β (insulin) cells • δ (somatostatin) cells • γ (pancreatic polypeptide ) cells
– PAX4 only: • α (glucagon) cells
• Insulin secretion begins at 5 months of gestation.
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Development of the Midgut
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Development of the Midgut
• During early development there is a rapid growth of both the midgut and its mesentery.
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Development of the Midgut
• Midgut forms a primary intestinal loop. • Loop remains in connection with yolk sac. • Connection is called the vitelline duct. • If vitelline duct persists it is called a
Meckel’s diverticulum.
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Development of the Midgut
Cephalic and caudal limbs of the midgut
Midgut forms a primary intestinal loop.
• Loop remains in connection with yolk sac.
• Connection is called the vitelline duct.
• If vitelline duct persists it is called a Meckel’s diverticulum.
caudal limb
cephalic limb
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Physiological Umbilical Herniation
• 6th week abdominal cavity can not contain the gut.
• Large kidneys, liver. • Midgut migrates into
the umbilical cord.
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Return of the Midgut
• Midgut returns at 10 - 12 weeks
• Reasons: – regression of
mesonephric kidney. – reduced growth of the
liver. – increased size of the
abdominal cavity.
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Return of the Midgut
• First to return is the jejunum - on left side.
• As other parts return they are located to the right.
• Cecum is the last part to return. • Located on the right side under the liver. • From there it descends and forms the
ascending colon and hepatic flexure.
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Rotation of the Midgut
• The midgut rotates around the superior mesenteric artery.
• 90 degrees during herniation. • 180 degrees during the return.
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Rotation of the Midgut
Week 6
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Development of the Midgut
Week 8 Week 10
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Development of the Midgut
Week 11 Later Fetal Period
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Infant omphalocele An omphalocele is an abdominal wall defect at the base of the umbilical cord (umbilicus); the infant is born with sac protruding through the defect which contains small intestine, liver, and large intestine. !!A.D.A.M., Disclaimer Copyright © 2012, A.D.A.M., Inc. PubMed Health. A service of the National Library of Medicine, National Institutes of Health
Factors increasing the risk of omphalocele: Alcohol Tabacco Selective serotonin-re-uptake inhibitors (SSRIs) Obesity !from the National Birth Defects Prevention Study
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Stem Cells
• In crypts of large intestine • Stem cells give rise to
– Paneth cells – Enterocytes – Enteroendocrine cells – Goblet cells
• Wnt signaling pathway importantPaneth cellsStem cells
Enterocytes Enteroendocrine Goblet
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Stem cell differentiation
Math1
NGN3 BETA2 PAX4 PAX6
Notch inhibits endocrine differentiation: Inhibits adjacent intestinal cell from becoming the same cell as its neighbor
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Innervation of the Gut tube
• Vagal neural crest cells innervate the gut tube.
• Additional lumbosacral neural crest cells innervate the hindgut
Vagal neural crest
Lumbosacral Neural crest
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Neural plexus
SHH
GDNF
GDNF
SHH – Mesenchyme differentiation into muscle Keeps neural crest cells proliferating
GDNF – glial cell line derived neurotrophic factor Allows: 1.Migration of neural crest cells 2.Differentiation of neural crest cells
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Hirschsprung's diseaseCongenital megacolon
• Lack of neural crest cells in large intestine • Causes constriction and lack of bowel
movement. • Proximal to the segement is distension • More often found in males than females • Family association in 10 – 15% of the
cases. • 10 – 15% have Down’s syndrome
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Development of the Hindgut
• Terminal portion of in contact with the ectoderm via cloacal plate or cloacal membrane.
• Membrane is endoderm of hindgut and ectoderm of anal pit.
• Cloaca is expanded partion of hindgut. • Cloaca receives the allantois.
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Cloaca
• Cloaca is divided into dorsal and ventral parts by urorectal septum.
• divides cloaca into: – rectum and anal canal
dorsally. – urogenital sinus
ventrally.
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Development of the Cloaca
• By week 7 cloacal membrane fuses with urorectal septum.
• Anal membrane and urogenetial membrane.
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Cloaca
• Epithelial-mesenchymal interactions – SHH – FGF10 also important – BMP important
signaling in the mesoderm
– Lack leads to anorectal malformations.