Lauren Bazinet scite author profile

Targeting angiogenesis, the formation of blood vessels, is an important modality for cancer therapy. TNP-470, a fumagillin analog, is among the most potent and broad-spectrum angiogenesis inhibitors. However, a major clinical limitation is its poor oral availability and short half-life, necessitating frequent, continuous parenteral administration. We have addressed these issues and report an oral formulation of TNP-470, named Lodamin. TNP-470 was conjugated to monomethoxy-polyethylene glycol-polylactic acid to form nanopolymeric micelles. This conjugate can be absorbed by the intestine and selectively accumulates in tumors. Lodamin significantly inhibits tumor growth, without causing neurological impairment in tumor-bearing mice. Using the oral route of administration, it first reaches the liver, making it especially efficient in preventing the development of liver metastasis in mice. We show that Lodamin is an oral nontoxic antiangiogenic drug that can be chronically administered for cancer therapy or metastasis prevention.

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Melanocyte-secreted fibromodulin promotes an angiogenic microenvironment

Adini¹,

Ghosh²,

Adini³

et al. 2013

J. Clin. Invest.

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Studies have established that pigmentation can provide strong, protective effects against certain human diseases. For example, angiogenesis-dependent diseases such as wet age-related macular degeneration and infantile hemangioma are more common in light-skinned individuals of mixed European descent than in AfricanAmericans. Here we found that melanocytes from light-skinned humans and albino mice secrete high levels of fibromodulin (FMOD), which we determined to be a potent angiogenic factor. FMOD treatment stimulated angiogenesis in numerous in vivo systems, including laser-induced choroidal neovascularization, growth factor-induced corneal neovascularization, wound healing, and Matrigel plug assays. Additionally, FMOD enhanced vascular sprouting during normal retinal development. Deletion of Fmod in albino mice resulted in a marked reduction in the amount of neovascularization induced by retinal vein occlusion, corneal growth factor pellets, and Matrigel plugs. Our data implicate the melanocyte-secreted factor FMOD as a key regulator of angiogenesis and suggest an underlying mechanism for epidemiological differences between light-skinned individuals of mixed European descent and African-Americans. Furthermore, inhibition of FMOD in humans has potential as a therapeutic strategy for treating angiogenesis-dependent diseases. Relative to what is found in light-skinned individuals of mixed European descent, exudative AMD is 55% less frequent in African-Americans and 46% less frequent in Asian-Americans. These findings support the hypothesis that lower pigmentation is a risk factor for neovascular AMD (1-3). Studies examining the correlation between race, ethnicity, and incidence of uveal melanoma indicate an influence of iris color on the disease. The frequency of uveal melanoma is highest in light-skinned individuals of mixed European descent, followed by Hispanics, Asians, and African-Americans, with an 18:1 ratio of incidence between light-skinned individuals of mixed European descent and African-Americans (4-6). Similar to the trend of occurrence seen with wet AMD, cutaneous melanoma and infantile hemangioma are much more prevalent in light-skinned individuals of mixed European descent than AfricanAmericans. These facts suggest that low levels of melanin correlate with the development of angiogenic ocular and skin diseases. Since intracellular pigment levels of retinal pigment epithelium (RPE) cells do not differ greatly among races, our studies focused on melanocytes, the main source of ocular pigment.

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Epsin deficiency promotes lymphangiogenesis through regulation of VEGFR3 degradation in diabetes

Wu¹,

Rahman²,

Dong³

et al. 2018

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Impaired lymphangiogenesis is a complication of chronic complex diseases, including diabetes. VEGF-C/VEGFR3 signaling promotes lymphangiogenesis, but how this pathway is affected in diabetes remains poorly understood. We previously demonstrated that loss of epsins 1 and 2 in lymphatic endothelial cells (LECs) prevented VEGF-C-induced VEGFR3 from endocytosis and degradation. Here, we report that diabetes attenuated VEGF-C-induced lymphangiogenesis in corneal micropocket and Matrigel plug assays in WT mice but not in mice with inducible lymphatic-specific deficiency of epsins 1 and 2 (LEC-iDKO). Consistently, LECs isolated from diabetic LEC-iDKO mice elevated in vitro proliferation, migration, and tube formation in response to VEGF-C over diabetic WT mice. Mechanistically, ROS produced in diabetes induced c-Src-dependent but VEGF-C-independent VEGFR3 phosphorylation, and upregulated epsins through the activation of transcription factor AP-1. Augmented epsins bound to and promoted degradation of newly synthesized VEGFR3 in the Golgi, resulting in reduced availability of VEGFR3 at the cell surface. Preclinically, the loss of lymphatic-specific epsins alleviated insufficient lymphangiogenesis and accelerated the resolution of tail edema in diabetic mice. Collectively, our studies indicate that inhibiting expression of epsins in diabetes protects VEGFR3 against degradation and ameliorates diabetes-triggered inhibition of lymphangiogenesis, thereby providing a novel potential therapeutic strategy to treat diabetic complications.

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Lauren Bazinet

An orally delivered small-molecule formulation with antiangiogenic and anticancer activity

Melanocyte-secreted fibromodulin promotes an angiogenic microenvironment

Epsin deficiency promotes lymphangiogenesis through regulation of VEGFR3 degradation in diabetes

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