BACKGROUND: Notch and its homologues are key regulatory receptors of the cell fate decision in various developmental processes. The int-3 oncogene was originally identified as a frequent target in Mouse Mammary Tumour Virus (MMTV)-induced mammary tumours and has been regarded as a Notch homologue, based on its similarity to the intracellular domain of Notch. Studies with int-3 transgenic mice have suggested that the int-3 transgene affects the differentiation capacity of stem cells and leads to neoplastic proliferation in epithelial cells. However, the exact nature and the in vivo expression pattern of the int-3 proto-oncogene are unknown. The function of gene products in embryogenesis is also not clear. RESULTS: We isolated cDNA clones corresponding to the proto-oncogene of int-3 and analysed its overall structure. The predicted amino acid sequence of the int-3 proto-oncogene contains the conserved motif found in Notch family receptors. Therefore, we name Notch-4 for the int-3 proto-oncogene. However, Notch-4 has fewer EGF repeats and shows less similarity to Notch, compared with other mammalian Notch homologues. In embryogenesis, the expression of Notch-4 was detected in endothelial cells of blood vessels forming tissues such as the dorsal aorta, intersegmental vessels, yolk sac vessels, cephalic vessels, heart, vessels in branchial arches, and capillary plexuses. In these tissues, Notch-4 expression coincided with flk-1, the major regulatory gene of vasculogenesis and angiogenesis. We also found that Notch-4 expression was up-regulated in vitro during the differentiation of endothelial cells from embryonic stem cells (ES cells). CONCLUSION: The endothelial cell specific expression pattern of Notch-4, as well as its structural similarity of Notch, suggest that Notch-4 is an endothelial cell specific homologue of Notch and it may play a crucial role in vasculogenesis and angiogenesis.
BACKGROUND: Notch and its homologues are key regulatory receptors of the cell fate decision in various developmental processes. The int-3 oncogene was originally identified as a frequent target in Mouse Mammary Tumour Virus (MMTV)-induced mammary tumours and has been regarded as a Notch homologue, based on its similarity to the intracellular domain of Notch. Studies with int-3transgenic mice have suggested that the int-3 transgene affects the differentiation capacity of stem cells and leads to neoplastic proliferation in epithelial cells. However, the exact nature and the in vivo expression pattern of the int-3 proto-oncogene are unknown. The function of gene products in embryogenesis is also not clear. RESULTS: We isolated cDNA clones corresponding to the proto-oncogene of int-3 and analysed its overall structure. The predicted amino acid sequence of the int-3 proto-oncogene contains the conserved motif found in Notch family receptors. Therefore, we name Notch-4 for the int-3 proto-oncogene. However, Notch-4 has fewer EGF repeats and shows less similarity to Notch, compared with other mammalian Notch homologues. In embryogenesis, the expression of Notch-4 was detected in endothelial cells of blood vessels forming tissues such as the dorsal aorta, intersegmental vessels, yolk sac vessels, cephalic vessels, heart, vessels in branchial arches, and capillary plexuses. In these tissues, Notch-4 expression coincided with flk-1, the major regulatory gene of vasculogenesis and angiogenesis. We also found that Notch-4 expression was up-regulated in vitro during the differentiation of endothelial cells from embryonic stem cells (ES cells). CONCLUSION: The endothelial cell specific expression pattern of Notch-4, as well as its structural similarity of Notch, suggest that Notch-4 is an endothelial cell specific homologue of Notch and it may play a crucial role in vasculogenesis and angiogenesis.
Authors: L T Krebs; Y Xue; C R Norton; J R Shutter; M Maguire; J P Sundberg; D Gallahan; V Closson; J Kitajewski; R Callahan; G H Smith; K L Stark; T Gridley Journal: Genes Dev Date: 2000-06-01 Impact factor: 11.361
Authors: Michela Noseda; Linda Chang; Graeme McLean; Jonathan E Grim; Bruce E Clurman; Laura L Smith; Aly Karsan Journal: Mol Cell Biol Date: 2004-10 Impact factor: 4.272
Authors: Kevin G Leong; Xiaolong Hu; Linheng Li; Michela Noseda; Bruno Larrivée; Christopher Hull; Leroy Hood; Fred Wong; Aly Karsan Journal: Mol Cell Biol Date: 2002-04 Impact factor: 4.272