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Role of Ephrin-Eph Signalling in Intestinal Stem Cell Renewal01:22

Role of Ephrin-Eph Signalling in Intestinal Stem Cell Renewal

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Erythropoietin-producing hepatocellular carcinoma receptor (Eph) and its ligand, Eph receptor-interacting protein (Ephrin) were first discovered in the human carcinoma cell line, hence the name. Ephrin-Eph interaction guides cells to reach their appropriate location in adult tissues. They also play an essential role in the immune system by helping in immune cell migration, adhesion, and activation. Based on their structure and function, Eph is divided into two classes — EphA and EphB.
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Hedgehog Signaling Pathway02:33

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The Hedgehog gene (Hh) was first discovered due to its control of the growth of disorganized, hair-like bristles phenotype in Drosophila, much like hedgehog spines. Hh plays a crucial role in the development of organs and the maintenance of homeostasis in both invertebrates and vertebrates. However, while Drosophila has only one Hh protein, mammals have multiple functional Hedgehog proteins - Sonic (Shh), Desert (Dhh), and Indian Hedgehog (Ihh). All of these homologous proteins have adapted to...
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Regulation of Angiogenesis and Blood Supply01:24

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Rapidly dividing tumors, embryos, and wounded tissues require more oxygen than usual, lowering the oxygen concentration in the blood. At low oxygen or hypoxic conditions, an oxygen-sensitive transcription factor called the hypoxia-inducible factor 1 or HIF1 is activated. HIF1 is a dimeric protein of alpha (ɑ) and beta (β) subunits.  Under optimal oxygen conditions, HIF1β is present in the nucleus while HIF1ɑ remains in the cytosol. HIF1ɑ is hydroxylated by prolyl...
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Cadherins in Tissue Organization01:19

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The cadherins are a superfamily of cell adhesion molecules comprising over 180 variants, with specific tissues expressing a particular combination of cadherin types. Cadherins generally exhibit homophilic binding; i.e., cadherins on one cell bind to cadherins of the same or closely related type on another cell. Thus, cells of the same type have a specific affinity to bind to each other and sort themselves into clusters to form tissues.
Cell Sorting During Development
Cell sorting plays an...
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Role Of Notch Signalling In Intestinal Stem Cell Renewal01:12

Role Of Notch Signalling In Intestinal Stem Cell Renewal

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Notch signaling was first discovered in Drosophila melanogaster, where it is involved in cell lineage differentiation. Notch signaling regulates the maintenance and differentiation of intestinal stem cells or ISCs by controlling the expression of atonal homolog 1 or Atoh1. Atoh1 directs cells to differentiate into secretory cells.
Direct cell-to-cell contact is needed for the activation of Notch signaling. The signal is initiated when a notch ligand binds to a receptor on an adjacent cell, also...
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Related Experiment Video

Updated: Jan 3, 2026

Dissection and Culture of Mouse Embryonic Kidney
08:30

Dissection and Culture of Mouse Embryonic Kidney

Published on: May 17, 2017

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A morphogenetic EphB/EphrinB code controls hepatopancreatic duct formation.

M Ilcim Thestrup1, Sara Caviglia1, Jordi Cayuso2

  • 1University of Copenhagen, NNF Center for Stem Cell Biology (DanStem), Blegdamsvej 3B, 2200, Copenhagen N, Denmark.

Nature Communications
|November 21, 2019
PubMed
Summary

The study reveals how the hepatopancreatic ductal system forms in zebrafish. EphB/EphrinB signaling is crucial for remodeling nascent lumens into functional ducts, ensuring bile and enzyme transport.

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Related Experiment Videos

Last Updated: Jan 3, 2026

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Generation of Scaffold-free, Three-dimensional Insulin Expressing Pancreatoids from Mouse Pancreatic Progenitors In Vitro
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Area of Science:

  • Developmental biology
  • Cell biology
  • Zebrafish models

Background:

  • The hepatopancreatic ductal (HPD) system's formation is poorly understood.
  • This system is vital for bile and pancreatic enzyme transport to the intestine.

Purpose of the Study:

  • To elucidate the molecular and cellular mechanisms of HPD system morphogenesis.
  • To identify key signaling pathways involved in ductal system development.

Main Methods:

  • High-resolution microscopy in zebrafish.
  • Analysis of cell intercalation and myosin contractility.
  • Investigating EphB/EphrinB signaling pathways.

Main Results:

  • HPD system formation involves de novo lumen formation and remodeling.
  • Cell intercalation and myosin contractility are essential for lumen maturation.
  • EphB/EphrinB signaling, specifically EphrinB1/B2a and EphB3b/B4a, regulates ductal compartment remodeling.

Conclusions:

  • EphB/EphrinB signaling plays a critical role in coordinating HPD system morphogenesis.
  • Understanding these mechanisms provides insights into ductal system development and potential therapeutic targets.