![Figure 1. Targeted disruption of the mouse VE-PTP gene. (A) Targeting strategy. An IRES-lacZ-pgk-neo cassette was inserted between VE-PTP exons 17 and 19, resulting in a truncated protein lacking the transmembrane, the cytoplasmic, and the 17th extracellular domains. Exons are given as open rectangles; arrows depict the location of primers for genotyping; CD indicates cytoplasmic domain; and TM indicates transmembrane domain. Drawing is not to scale. (B) Western blot analysis of cell lysates and culture supernatants (as indicated) from embryonic endothelioma cells established from wild-type (VE-PTP+/+) and homozygous (VE-PTPmt/mt) VE-PTP mutant embryos. Blots were analyzed with a polyclonal serum against the C-terminus of VE-PTP (VE-PTP-C). (C) Autoradiograph of VE-PTP immunoprecipitations of embryonic endothelioma cells established from wt, heterozygous, or homozygous VE-PTP mutant embryos (as indicated), metabolically labeled with [35S]-methionine/cysteine. Wild-type and truncated mutant forms of VE-PTP were immunoprecipitated with mAb 109.3 directed against the extracellular domain of VE-PTP. (D) FACS analysis showing the surface expression of major endothelial marker proteins of endothelioma cells of wild-type, heterozygous, and homozygous VE-PTP mutant phenotype. Note that homozygous mutant endothelioma cells showed no FACS signal for VE-PTP. Mutation of VE-PTP did not affect the expression of endoglin, Flk-1, ICAM-2, N-cadherin, PECAM-1, Tie-2, or VE-cadherin.](https://ash.silverchair-cdn.com/ash/content_public/journal/blood/107/12/10.1182_blood-2006-01-0141/4/zh80120697100001.jpeg?Expires=1723188454&Signature=i3r1KhaFbXOaZOU1gBafM15MImMUfXIYEWeVgtX32oQ7UUrw5kU9Ia~OoZjB5Y2jqi3mWSPiz2Bn6LYdoZsWRCNCSzi-qk41wdyzI60BqhfTkEebV-XcwgWxN~CMq1eueZFkwcEUHZMHFbmxruTXtNa0osR2oqFRJALyt~4TK6XeX1ku2N5~myVlMZpMd67d2glsik1DD1G6UghbUi~rxobKvyzZD9IWcdij9~aNymKsllSUIechYfyC7RXZ5YeXthylNM8o29LmPbyqlz9frr~YAWt1z3JOu~7zpVQN7u1ieCtBXgpW52Ja4sZHOQ5UdEbb7UkKGai8FB~f52I28Q__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
Targeted disruption of the mouse VE-PTP gene. (A) Targeting strategy. An IRES-lacZ-pgk-neo cassette was inserted between VE-PTP exons 17 and 19, resulting in a truncated protein lacking the transmembrane, the cytoplasmic, and the 17th extracellular domains. Exons are given as open rectangles; arrows depict the location of primers for genotyping; CD indicates cytoplasmic domain; and TM indicates transmembrane domain. Drawing is not to scale. (B) Western blot analysis of cell lysates and culture supernatants (as indicated) from embryonic endothelioma cells established from wild-type (VE-PTP+/+) and homozygous (VE-PTPmt/mt) VE-PTP mutant embryos. Blots were analyzed with a polyclonal serum against the C-terminus of VE-PTP (VE-PTP-C). (C) Autoradiograph of VE-PTP immunoprecipitations of embryonic endothelioma cells established from wt, heterozygous, or homozygous VE-PTP mutant embryos (as indicated), metabolically labeled with [35S]-methionine/cysteine. Wild-type and truncated mutant forms of VE-PTP were immunoprecipitated with mAb 109.3 directed against the extracellular domain of VE-PTP. (D) FACS analysis showing the surface expression of major endothelial marker proteins of endothelioma cells of wild-type, heterozygous, and homozygous VE-PTP mutant phenotype. Note that homozygous mutant endothelioma cells showed no FACS signal for VE-PTP. Mutation of VE-PTP did not affect the expression of endoglin, Flk-1, ICAM-2, N-cadherin, PECAM-1, Tie-2, or VE-cadherin.
