EDNRB

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Endothelin receptor type B precursor (ET-B) (ET-BR) (Endothelin receptor non-selective type) [ETRB]

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Deriving human ENS lineages for cell therapy and drug discovery in Hirschsprung disease.

The enteric nervous system (ENS) is the largest component of the autonomic nervous system, with neuron numbers surpassing those present in the spinal cord. The ENS has been called the 'second brain' given its autonomy, remarkable neurotransmitter diversity and complex cytoarchitecture. Defects in ENS development are responsible for many human disorders including Hirschsprung disease (HSCR). HSCR is caused by the developmental failure of ENS progenitors to migrate into the gastrointestinal tract, particularly the distal colon. Human ENS development remains poorly understood owing to the lack of an easily accessible model system. Here we demonstrate the efficient derivation and isolation of ENS progenitors from human pluripotent stem (PS) cells, and their further differentiation into functional enteric neurons. ENS precursors derived in vitro are capable of targeted migration in the developing chick embryo and extensive colonization of the adult mouse colon. The in vivo engraftment and migration of human PS-cell-derived ENS precursors rescue disease-related mortality in HSCR mice (Ednrb(s-l/s-l)), although the mechanism of action remains unclear. Finally, EDNRB-null mutant ENS precursors enable modelling of HSCR-related migration defects, and the identification of pepstatin A as a candidate therapeutic target. Our study establishes the first, to our knowledge, human PS-cell-based platform for the study of human ENS development, and presents cell- and drug-based strategies for the treatment of HSCR.

MeSH Terms

  • Aging
  • Animals
  • Cell Differentiation
  • Cell Line
  • Cell Lineage
  • Cell Movement
  • Cell Separation
  • Cell- and Tissue-Based Therapy
  • Chick Embryo
  • Colon
  • Disease Models, Animal
  • Drug Discovery
  • Enteric Nervous System
  • Female
  • Gastrointestinal Tract
  • Hirschsprung Disease
  • Humans
  • Male
  • Mice
  • Neurons
  • Pepstatins
  • Pluripotent Stem Cells
  • Receptor, Endothelin B
  • Signal Transduction


Variation in genes in the endothelin pathway and endothelium-dependent and endothelium-independent vasodilation in an elderly population.

Indirect evidences by blockade of the endothelin receptors have suggested a role of endothelin in endothelium-dependent vasodilation. This study aimed to investigate whether circulating levels of endotehlin-1 or genetic variations in genes in the endothelin pathway were related to endothelium-dependent vasodilation. In 1016 seventy-year-old participants of the population-based Prospective Study of the Vasculature in Uppsala Seniors (PIVUS) study (52% women), we measured endothelium-dependent vasodilation using the invasive forearm technique with acetylcholine given in the brachial artery (EDV) and the brachial artery ultrasound technique with measurement of flow-mediated dilatation (FMD). Plasma endothelin-1 levels were measured and 60 SNPs in genes in the endothelin pathway (ECE1, EDN1, EDNRA, EDNRB) were genotyped. No significant associations were found between circulating endothelin levels and EDV or FMD. No single genotype was related to EDV or FMD following adjustment for multiple testing, but a genotype score for 3 SNPs (rs11618266 in EDNRB, rs17675063 in EDNRA, rs3026868 in ECE1) was significantly related to EDV (beta coefficient 0.070, 95% CI 0.025-0.12, P = 0.002) when adjusting for gender, systolic blood pressure, HDL and LDL cholesterol, serum triglycerides, BMI, diabetes, smoking, antihypertensive medication or statins and CRP. This score was also related to nitroprusside-induced vasodilation in the forearm. A combination of genotypes in the endothelin pathway was related to both endothelium-dependent and endothelium-independent vasodilation in forearm resistance vessels, but not in the brachial artery in an elderly population, giving evidence for a role of the endothelin system in resistance vessel reactivity independent of major cardiovascular risk factors.

MeSH Terms

  • Age Factors
  • Aged
  • Aging
  • Aspartic Acid Endopeptidases
  • Brachial Artery
  • Endothelin-1
  • Endothelin-Converting Enzymes
  • Endothelium, Vascular
  • Female
  • Forearm
  • Genotype
  • Humans
  • Infusions, Intra-Arterial
  • Linear Models
  • Male
  • Metalloendopeptidases
  • Phenotype
  • Polymorphism, Single Nucleotide
  • Prospective Studies
  • Receptor, Endothelin A
  • Receptor, Endothelin B
  • Regional Blood Flow
  • Sweden
  • Ultrasonography
  • Vasodilation
  • Vasodilator Agents


Age-dependent changes in the gut environment restrict the invasion of the hindgut by enteric neural progenitors.

The enteric nervous system (ENS) develops from neural crest cells (NCCs) that enter the foregut and hindgut to become enteric neural-crest-derived cells (ENCCs). When these cells of neural crest origin fail to colonize the terminal hindgut, this aganglionic region becomes non-functional and results in a condition in humans known as Hirschsprung's disease (HSCR). One of the genes associated with HSCR is endothelin receptor type B (Ednrb). To study the development of colonic aganglionosis we have utilized a novel knockout mouse (Ednrb(flex3/flex3)), in which the expression of a null Ednrb allele and YFP is confined to NCCs. We have identified two primary cellular defects related to defective EDNRB signaling. First, ENCC advance in Ednrb(flex3/flex3) embryos is delayed shortly after NCCs enter the gut. Apart from this early delay, Ednrb(flex3/flex3) ENCCs advance normally until reaching the proximal colon. Second, as Ednrb(flex3/flex3) ENCCs reach the colon at E14.5, they display migratory defects, including altered trajectories and reduced speed, that are not dependent on proliferation or differentiation. We constructed grafts to test the ability of donor ENCCs to invade a recipient piece of aganglionic colon. Our results indicate that the age of the recipient, and not the age or genotype of donor ENCCs, determines whether the colon is invaded. We identify changes in laminin expression that are associated with the failure of ENCCs to invade recipient tissue. Together, our data suggest that a defect in pre-enteric Ednrb(flex3/flex3) NCCs results in delayed colonic arrival, which, due to environment changes in the colon, is sufficient to cause aganglionosis.

MeSH Terms

  • Aging
  • Animals
  • Colon
  • Enteric Nervous System
  • Environment
  • Hirschsprung Disease
  • Humans
  • Laminin
  • Mice
  • Mice, Inbred C57BL
  • Mice, Transgenic
  • Neurons
  • Receptors, Endothelin
  • Stem Cells