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Comparative Study
. 2005 Jul 12;102(28):9884-9.
doi: 10.1073/pnas.0504391102. Epub 2005 Jun 30.

Endothelial expression of constitutively active Notch4 elicits reversible arteriovenous malformations in adult mice

Timothy R Carlson  1 Yibing YanXiaoqing WuMichael T LamGale L TangLevi J BeverlyLouis M MessinaAnthony J CapobiancoZena WerbRong Wang
Affiliations
Comparative Study

Endothelial expression of constitutively active Notch4 elicits reversible arteriovenous malformations in adult mice (V体育ios版)

Timothy R Carlson et al. Proc Natl Acad Sci U S A. .

Erratum in

  • Proc Natl Acad Sci U S A. 2006 May 9;103(19):7530

Abstract (V体育2025版)

Direct communication between arteries and veins without intervening capillary beds is the primary pathology of arteriovenous malformations (AVMs). Although Notch signaling is implicated in embryonic arteriovenous (AV) differentiation, its function in the adult mammalian vasculature has not been established due to the embryonic lethality that often occurs in both gain- and loss-of-function mutants. We expressed a constitutively active Notch4, int3, in the adult mouse endothelium by using the tetracycline-repressible system to suppress int3 during embryogenesis. int3 caused profound blood vessel enlargement and AV shunting, which are hallmarks of AVM, and led to lethality within weeks of its expression. Vessel enlargement, a manifestation of AVM, occurred in an apparently tissue-specific fashion; the liver, uterus, and skin were affected. int3-mediated vascular defects were accompanied by arterialization, including ectopic venous expression of ephrinB2, increased smooth muscle cells, and up-regulation of endogenous Notch signaling. Remarkably, the defective vessels and illness were reversed upon repression of int3 expression. Finally, endothelial expression of a constitutively active Notch1 induced similar hepatic vascular lesions. Our results provide gain-of-function evidence that Notch signaling in the adult endothelium is sufficient to render arterial characteristics and lead to AVMs. VSports手机版.

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Figures

Fig. 1.
Fig. 1.
Tie2-tTA drives transgene expression specifically in adult ECs. (AC) β-Galactosidase staining of liver (A, 100 μm), uterus (B, 10 μm), and brain (C, 100 μm) sections. Arrow, hepatic artery; p, portal vein; c, central vein; v, uterine vein; a, uterine artery. (Scale bars, 25μm.) (D) Percentage of tTA-positive ECs in Tie2-tTA/TRE-LacZ organs. (E) int3 expression by quantitative RT-PCR. Each bar represents normalized int3 expression in a Tie2-tTA/TRE-int3 mouse relative to a TRE-int3 mouse.
Fig. 2.
Fig. 2.
int3 expression in adult mice leads to lethality and blood vessel enlargement. (A) Survival curve. (BD) Gross phenotype. (E) Hematoxylin/eosin liver sections. Hepatic arteries are encircled. p, portal veins; c, central veins. (F) Anti-CD31 (brown) and α-SMA (red) double staining of liver sections. Arrows, hepatic arteries; p, portal veins. (Scale bars, 50 μm.)
Fig. 3.
Fig. 3.
Portosystemic shunting in Tie2-tTA/TRE-int3 mice. (AF) Liver vascular casts of control (A, C, and E) and Tie2-tTA/TRE-int3 (B, D, and F) mice at the indicated age postweaning (PW). Arrowheads, hepatic arteries; arrows, connections between portal (p) and central (c) veins. Central veins were distinguished from portal veins by the absence of adjacent hepatic arteries. (Scale bars, 0.2 mm.) (D Inset) A higher magnification of the shunt. (GR) Light and fluorescence photomicrographs after portal vein microsphere injections into control (G, I, K, M, O, and Q) and Tie2-tTA/TRE-int3 (H, J, L, N, P, and R) mice. Li, liver; Lu, lung.
Fig. 4.
Fig. 4.
int3-induced hepatic vascular effects are reversible. (AD) Liver sections stained with anti-α-SMA from control (A), moribund Tie2-tTA/TRE-int3 (B), and moribund Tie2-tTA/TRE-int3 mice fed with Dox (C and D). (EH) Liver vascular casts (E and F) and microsphere assay (G and H) of moribund Tie2-tTA/TRE-int3 mice fed with Dox. (E Inset) A shunt in another region of the same liver. Arrows, hepatic arteries; p, portal veins; c, central veins; arrow-heads, fibrosis surrounding regressed hepatic arteries; Li, liver; Lu, lung. (Scale bars: AD, 50 μm; E and F, 0.2 mm.)
Fig. 5.
Fig. 5.
Cellular and molecular effects of int3.(AF) EphrinB2-LacZ reporter assay. (A and B) Liver sections (100 μm). Arrows, hepatic arteries; p, portal veins; c, central veins. (C and D) Uterus sections (10 μm). Arrows, uterine veins; a, arteries. (E and F) LacZ-(Left) and lectin-(Right) stained trachea whole mounts. (Scale bars, 50 μm.) (G) Proliferation analysis. Liver sinusoidal EC (SEC) BrdUrd labeling in 10 high-power fields (hpf) was quantified. The data represent the mean ± SEM of eight control and six mutants at 3–4 weeks postweaning (P = 0.13 by Student's t test). (H) Notch pathway gene expression by quantitative RT-PCR. Data represents the mean ± SEM of HPRT normalized expression in moribund Tie2-tTA/TRE-int3 mice (n = 4 or 6) relative to expression in age-matched controls (n = 4; two Tie2-tTA and two TRE-int3). *, P < 0.05; **, P < 0.01 of expression in Tie2-tTA/TRE-int3 mice relative to controls by Student's t test. The P value of Notch1 expression is 0.057. (I) Gene expression by RT-PCR.
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