Judy Mak scite author profile

Neuropilin-1 (NRP1) guides the development of the nervous and vascular systems. Binding to either semaphorins or VEGF, NRP1 acts with plexins to regulate neuronal guidance, or with VEGFR2 to mediate vascular development. We have generated two monoclonal antibodies that bind to the Sema- and VEGF-binding domains of NRP1, respectively. Both antibodies reduce angiogenesis and vascular remodeling, while having little effect on other VEGFR2-mediated events. Importantly, anti-NRP1 antibodies have an additive effect with anti-VEGF therapy in reducing tumor growth. Vessels from tumors treated with anti-VEGF show a close association with pericytes, while tumors treated with both anti-NRP1 and anti-VEGF lack this organization. We propose that blocking NRP1 function inhibits vascular remodeling, rendering vessels more susceptible to anti-VEGF therapy.

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Slit Proteins Prevent Midline Crossing and Determine the Dorsoventral Position of Major Axonal Pathways in the Mammalian Forebrain

Bagri

Marı́n

Plump

et al. 2002

Neuron

392

411

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We report that Slit proteins, a family of secreted chemorepellents, are crucial for the proper development of several major forebrain tracts. Mice deficient in Slit2 and, even more so, mice deficient in both Slit1 and Slit2 show significant axon guidance errors in a variety of pathways, including corticofugal, callosal, and thalamocortical tracts. Analysis of multiple pathways suggests several generalizations regarding the functions of Slit proteins in the brain, which appear to contribute to (1) the maintenance of dorsal position by prevention of axonal growth into ventral regions, (2) the prevention of axonal extension toward and across the midline, and (3) the channeling of axons toward particular regions.

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Blocking Neuropilin-2 Function Inhibits Tumor Cell Metastasis

Caunt

Mak

Liang³

et al. 2008

Cancer Cell

311

303

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Metastasis, which commonly uses lymphatics, accounts for much of the mortality associated with cancer. The vascular endothelial growth factor (VEGF)-C coreceptor, neuropilin-2 (Nrp2), modulates but is not necessary for developmental lymphangiogenesis, and its significance for metastasis is unknown. An antibody to Nrp2 that blocks VEGFC binding disrupts VEGFC-induced lymphatic endothelial cell migration, but not proliferation, in part independently of VEGF receptor activation. It does not affect established lymphatics in normal adult mice but reduces tumoral lymphangiogenesis and, importantly, functional lymphatics associated with tumors. It also reduces metastasis to sentinel lymph nodes and distant organs, apparently by delaying the departure of tumor cells from the primary tumor. Our results demonstrate that Nrp2, which was originally identified as an axon-guidance receptor, is an attractive target for modulating metastasis.

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Neuropilin-2 mediates VEGF-C–induced lymphatic sprouting together with VEGFR3

Yuan

Mak³

et al. 2010

297

181

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Neuropilin‐1 expression in cancer and development

Jubb¹,

Strickland²,

Liu³

et al. 2011

The Journal of Pathology

172

127

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Neuropilin (NRP)-1 is a co-receptor for vascular endothelial growth factor (VEGF). Preclinical data suggest that blockade of NRP1 suppresses tumour growth by inhibiting angiogenesis, in addition to directly inhibiting tumour cell proliferation in certain models. A humanized monoclonal antibody to NRP1 is currently being evaluated as a potential anti-cancer therapy in clinical trials. However, the expression of NRP1 in cancer and physiological angiogenesis has yet to be systematically described. Here we characterize the in situ expression of NRP1 in human cancer and during mammalian development. A monoclonal antibody to human NRP1 was generated and validated for immunohistochemistry by western blotting, use of formalin-fixed cell pellets transfected with NRP1, immunofluorescence, and comparison with in situ hybridization. NRP1 expression was assessed in whole sections of 65 primary breast carcinomas, 95 primary colorectal adenocarcinomas, and 90 primary lung carcinomas. An additional 59 human metastases, 16 xenografts, and three genetically engineered mouse tumour models were also evaluated. Immunoreactivity for NRP1 was seen in vessels from normal tissues adjacent to cancer and in 98-100% of carcinomas. Tumour cell expression of NRP1 was also observed in 36% of primary lung carcinomas and 6% of primary breast carcinomas, but no colorectal adenocarcinomas. NRP1 was evaluated in mouse embryos, where expression was limited to the nervous system, endocardium, vascular smooth muscle, and, focally, endothelium on subsets of vessels. Moreover, in a model of VEGF-dependent angiogenesis in the postnatal mouse trachea, blockade of NRP1 signalling resulted in defective angiogenesis and recapitulated the effects of anti-VEGF treatment. These observations confirm NRP1 as a valid anti-angiogenic target in malignancy, and as a potential direct anti-tumour target in a subset of cancers. The data also confirm a role for NRP1 in physiological, VEGF-mediated angiogenesis.

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Function of CSF1 and IL34 in Macrophage Homeostasis, Inflammation, and Cancer

Lin¹,

Xu²,

Austin³

et al. 2019

Front. Immunol.

129

114

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Colony-stimulating factor 1 (CSF1) and interleukin 34 (IL34) signal via the CSF1 receptor to regulate macrophage differentiation. Studies in IL34- or CSF1-deficient mice have revealed that IL34 function is limited to the central nervous system and skin during development. However, the roles of IL34 and CSF1 at homeostasis or in the context of inflammatory diseases or cancer in wild-type mice have not been clarified in vivo. By neutralizing CSF1 and/or IL34 in adult mice, we identified that they play important roles in macrophage differentiation, specifically in steady-state microglia, Langerhans cells, and kidney macrophages. In several inflammatory models, neutralization of both CSF1 and IL34 contributed to maximal disease protection. However, in a myeloid cell-rich tumor model, CSF1 but not IL34 was required for tumor-associated macrophage accumulation and immune homeostasis. Analysis of human inflammatory conditions reveals IL34 upregulation that may account for the protection requirement of IL34 blockade. Furthermore, evaluation of IL34 and CSF1 blockade treatment during Listeria infection reveals no substantial safety concerns. Thus, IL34 and CSF1 play non-redundant roles in macrophage differentiation, and therapeutic intervention targeting IL34 and/or CSF1 may provide an effective treatment in macrophage-driven immune-pathologies.

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Rasip1 regulates vertebrate vascular endothelial junction stability through Epac1-Rap1 signaling

Wilson¹,

Parker²,

Hall

et al. 2013

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• RASIP1 is required for stabilizing nascent patent blood vessels in both mice and zebrafish.• RASIP1 is a dynamic effector of EPAC1-RAP1 signaling that controls actin bundling and restricts junction remodeling in vitro and in vivo.Establishment and stabilization of endothelial tubes with patent lumens is vital during vertebrate development. Ras-interacting protein 1 (RASIP1) has been described as an essential regulator of de novo lumenogenesis through modulation of endothelial cell (EC) adhesion to the extracellular matrix (ECM). Here, we show that in mouse and zebrafish embryos, Rasip1-deficient vessels transition from an angioblast cord to a hollow tube, permit circulation of primitive erythrocytes, but ultimately collapse, leading to hemorrhage and embryonic lethality. Knockdown of RASIP1 does not alter EC-ECM adhesion, but causes cell-cell detachment and increases permeability of EC monolayers in vitro. We also found that endogenous RASIP1 in ECs binds Ras-related protein 1 (RAP1), but not Ras homolog gene family member A or cell division control protein 42 homolog. Using an exchange protein directly activated by cyclic adenosine monophosphate 1 (EPAC1)-RAP1-dependent model of nascent junction formation, we demonstrate that a fraction of the RASIP1 protein pool localizes to cell-cell contacts. Loss of RASIP1 phenocopies loss of RAP1 or EPAC1 in ECs by altering junctional actin organization, localization of the actin-bundling protein nonmuscle myosin heavy chain IIB, and junction remodeling. Our data show that RASIP1 regulates the integrity of newly formed blood vessels as an effector of EPAC1-RAP1 signaling. (Blood. 2013;122(22):3678-3690)

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Neuropilin-2 mediates VEGF-C–induced lymphatic sprouting together with VEGFR3

Xu¹,

Li²,

Mak³

et al. 2010

J Exp Med

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Judy Mak

Blocking Neuropilin-1 Function Has an Additive Effect with Anti-VEGF to Inhibit Tumor Growth

Slit Proteins Prevent Midline Crossing and Determine the Dorsoventral Position of Major Axonal Pathways in the Mammalian Forebrain

Blocking Neuropilin-2 Function Inhibits Tumor Cell Metastasis

Neuropilin-2 mediates VEGF-C–induced lymphatic sprouting together with VEGFR3

Neuropilin‐1 expression in cancer and development

Function of CSF1 and IL34 in Macrophage Homeostasis, Inflammation, and Cancer

Rasip1 regulates vertebrate vascular endothelial junction stability through Epac1-Rap1 signaling

Neuropilin-2 mediates VEGF-C–induced lymphatic sprouting together with VEGFR3

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