Mike Jeffers scite author profile

Mike Jeffers

3Publications

101Citation Statements Received

91Citation Statements Given

How they've been cited

125

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Cancer Research Center

Publications

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Recombinant semaphorin 6A-1 ectodomain inhibits in vivo growth factor and tumor cell line-induced angiogenesis

Mohanraj

Wu²,

Alvarez³

et al. 2005

Cancer Biology & Therapy

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ACKNOWLEDGEMENTSWe thank CHTN and NDRI tissues and associated pathology reports. We thank Muralidhara Padigaru for genomic mining, Ramakrishnan Sundaram for performing the nude mouse angiogenesis assays; Dinesh Raturi, Pino Luan for protein production and technical assistance. We thank Dr. Stephen Strittmatter, Yale University School of Medicine for his support in providing reagents and also for critical reading of the manuscript. Research PaperRecombinant Semaphorin 6A-1 Ectodomain Inhibits In Vivo Growth Factor and Tumor Cell Line-Induced Angiogenesis ABSTRACTThe Semaphorins are a large family of transmembrane, GPI-anchored and secreted proteins that play an important role in neuronal and endothelial cell guidance. A human gene related to the class 6 Semaphorin family, Semaphorin 6A-1 (Sema 6A-1) was identified by homology-based genomic mining. Recent implication of Sema 3 family members in tumor angiogenesis and our expression analysis of Sema 6A-1 suggested that class 6 Semaphorin might effect tumor neovascularization. The mRNA expression of Sema 6A-1 was elevated in several renal tumor tissue samples relative to adjacent nontumor tissue samples from the same patient. Sema 6A-1 transcript was also expressed in the majority of renal clear cell carcinoma (RCC) cell lines and to a lesser extent in endothelial cells. To test the role of Sema 6A-1 in tumor angiogenesis, we engineered, expressed and purified the Sema 6A-1 soluble extracellular domain (Sema-ECD). The purified Sema-ECD was screened in a variety of endothelial cell-based assays both in vitro and in vivo. In vitro, Sema-ECD blocked VEGF-mediated endothelial cell migration. These effects were explained in part by our observation in endothelial cells that Sema-ECD inhibited VEGF-mediated Src, FAK and ERK phosphorylation. In vivo, mouse Matrigel assays demonstrated that the intraperitoneal administration of recombinant Sema-ECD inhibited both bFGF/VEGF and tumor cell line-induced neovascularization. These findings reveal a novel therapeutic utility for Sema 6A-1 (Sema-ECD) as an inhibitor of growth factor as well as tumor-induced angiogenesis.

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Anti-Angiogenic Therapy as a Cancer Treatment Paradigm

Mohanraj¹,

Jeffers²,

LaRochelle³

2005

CMCACA

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The inhibition of angiogenesis is an emerging therapeutic strategy for cancer treatment. In contrast to conventional therapies, anti-angiogenic therapies primarily target tumor-associated endothelial cells which serve as a lifeline for tumor growth, progression and metastasis. By blocking the supply of essential nutrients and the removal of metabolites, anti-angiogenic therapies aim to delay both primary and metastastic tumor growth while overcoming the inherent cytotoxicities of classical chemotherapies. Indeed, tumor-related angiogenesis is a multi-step process initiated by a cascade of proangiogenic factors secreted from both the tumor and host tissues. These intricate processes involve a close interaction of tumor and associated endothelial cells as well as an intimate communication between proliferating endothelial cells, stromal cells and extracellular matrix components. Inhibition of these proangiogenic mechanisms has become a major challenge for the development of anti-cancer treatment modalities. In this regard, anti-angiogenic therapies embody a potentially powerful adjunct to traditional cancer therapies. In this review, we provide an overview of traditional anti-cancer drugs and discuss the fundamentals of anti-angiogenic therapies. While presenting the salient features of the anti-angiogenic agents targeting the individual phases of angiogenesis, we highlight the potential for specific agent development as novel anti-angiogenic therapeutics. Finally, we present and summarize emerging angiogenesis inhibitors.

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Decreased fibronectin expression in Met/HGF-mediated tumorigenesis

et al. 1998

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The tyrosine kinase receptor Met and its ligand, hepatocyte growth factor (HGF)/scatter factor are involved in the etiology and progression of a number of human cancers. Coexpression of Met and HGF in mesenchymal cells increases the tumorigenic and metastatic potential of the cells. In the studies described here, we used di erential display screening to identify changes in gene expression that are initiated by Met/HGF, and that may lead to these phenotypes. We learned that Met/ HGF signaling resulted in greatly decreased ®bronectin mRNA production in three di erent human and mouse tumor cell lines; these decreases in ®bronectin mRNA were paralleled by decreases in ®bronectin protein. We also found a progressive decrease in ®bronectin in tumor explants and metastases derived from the Met/HGF transformed cells. The absence of ®bronectin expression is a frequent cancer phenotype; our results indicate that decreases in ®bronectin correlate with, but are not essential for, MetHGF/SF-mediated tumorigenesis.

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Mike Jeffers

Recombinant semaphorin 6A-1 ectodomain inhibits in vivo growth factor and tumor cell line-induced angiogenesis

Anti-Angiogenic Therapy as a Cancer Treatment Paradigm

Decreased fibronectin expression in Met/HGF-mediated tumorigenesis

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