Heather S. Bevan scite author profile

Growth of new blood vessels (angiogenesis), required for all tumor growth, is stimulated by the expression of vascular endothelial growth factor (VEGF). VEGF is up-regulated in all known solid tumors but also in atherosclerosis, diabetic retinopathy, arthritis, and many other conditions. Conventional VEGF isoforms have been universally described as proangiogenic cytokines. Here, we show that an endogenous splice variant, VEGF 165 b, is expressed as protein in normal cells and tissues and is circulating in human plasma. We also present evidence for a sister family of presumably inhibitory splice variants. Moreover, these isoforms are down-regulated in prostate cancer. We also show that VEGF 165 b binds VEGF receptor 2 with the same affinity as VEGF 165

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VEGF165b, an antiangiogenic VEGF-A isoform, binds and inhibits bevacizumab treatment in experimental colorectal carcinoma: balance of pro- and antiangiogenic VEGF-A isoforms has implications for therapy

Varey

et al. 2008

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Bevacizumab, an anti-vascular endothelial growth factor (VEGF-A) antibody, is used in metastatic colorectal carcinoma (CRC) treatment, but responses are unpredictable. Vascular endothelial growth factor is alternatively spliced to form proangiogenic VEGF 165 and antiangiogenic VEGF 165 b. Using isoform-specific enzyme-linked immunosorbent assay and quantitative polymerase chain reaction, we found that over 90% of the VEGF in normal colonic tissue was VEGF xxx b, but there was a variable upregulation of VEGF xxx and downregulation of VEGF xxx b in paired human CRC samples. Furthermore, cultured colonic adenoma cells expressed predominantly VEGF xxx b, whereas colonic carcinoma cells expressed predominantly VEGF xxx . However, adenoma cells exposed to hypoxia switched their expression from predominantly VEGF xxx b to predominantly VEGF xxx . VEGF 165 b overexpression in LS174t colon cancer cells inhibited colon carcinoma growth in mouse xenograft models. Western blotting and surface plasmon resonance showed that VEGF 165 b bound to bevacizumab with similar affinity as VEGF 165 . However, although bevacizumab effectively inhibited the rapid growth of colon carcinomas expressing VEGF 165 , it did not affect the slower growth of tumours from colonic carcinoma cells expressing VEGF 165 b. Both bevacizumab and anti-VEGF 165 b-specific antibodies were cytotoxic to colonic epithelial cells, but less so to colonic carcinoma cells. These results show that the balance of antiangiogenic to proangiogenic isoforms switches to a variable extent in CRC, regulates tumour growth rates and affects the sensitivity of tumours to bevacizumab by competitive binding. Together with the identification of an autocrine cytoprotective role for VEGF 165 b in colonic epithelial cells, these results indicate that bevacizumab treatment of human CRC may depend upon this balance of VEGF isoforms.

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Regulation of alternative VEGF-A mRNA splicing is a therapeutic target for analgesia

Hulse

Beazley‐Long

Hua

et al. 2014

Neurobiology of Disease

120

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Vascular endothelial growth factor-A (VEGF-A) is best known as a key regulator of the formation of new blood vessels. Neutralization of VEGF-A with anti-VEGF therapy e.g. bevacizumab, can be painful, and this is hypothesized to result from a loss of VEGF-A-mediated neuroprotection. The multiple vegf-a gene products consist of two alternatively spliced families, typified by VEGF-A165a and VEGF-A165b (both contain 165 amino acids), both of which are neuroprotective. Under pathological conditions, such as in inflammation and cancer, the pro-angiogenic VEGF-A165a is upregulated and predominates over the VEGF-A165b isoform.We show here that in rats and mice VEGF-A165a and VEGF-A165b have opposing effects on pain, and that blocking the proximal splicing event – leading to the preferential expression of VEGF-A165b over VEGF165a – prevents pain in vivo. VEGF-A165a sensitizes peripheral nociceptive neurons through actions on VEGFR2 and a TRPV1-dependent mechanism, thus enhancing nociceptive signaling. VEGF-A165b blocks the effect of VEGF-A165a.After nerve injury, the endogenous balance of VEGF-A isoforms switches to greater expression of VEGF-Axxxa compared to VEGF-Axxxb, through an SRPK1-dependent pre-mRNA splicing mechanism. Pharmacological inhibition of SRPK1 after traumatic nerve injury selectively reduced VEGF-Axxxa expression and reversed associated neuropathic pain. Exogenous VEGF-A165b also ameliorated neuropathic pain.We conclude that the relative levels of alternatively spliced VEGF-A isoforms are critical for pain modulation under both normal conditions and in sensory neuropathy. Altering VEGF-Axxxa/VEGF-Axxxb balance by targeting alternative RNA splicing may be a new analgesic strategy.

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Molecular Diversity of VEGF-A as a Regulator of Its Biological Activity

et al. 2009

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VEGF-A165b Is an Endogenous Neuroprotective Splice Isoform of Vascular Endothelial Growth Factor A in Vivo and in Vitro

Beazley‐Long

Hua

Jehle³

et al. 2013

The American Journal of Pathology

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Vascular endothelial growth factor (VEGF) A is generated as two isoform families by alternative RNA splicing, represented by VEGF-A165a and VEGF-A165b. These isoforms have opposing actions on vascular permeability, angiogenesis, and vasodilatation. The proangiogenic VEGF-A165a isoform is neuroprotective in hippocampal, dorsal root ganglia, and retinal neurons, but its propermeability, vasodilatatory, and angiogenic properties limit its therapeutic usefulness. In contrast, a neuroprotective effect of endogenous VEGF-A165b on neurons would be advantageous for neurodegenerative pathologies. Endogenous expression of human and rat VEGF-A165b was detected in hippocampal and cortical neurons. VEGF-A165b formed a significant proportion of total VEGF-A in rat brain. Recombinant human VEGF-A165b exerted neuroprotective effects in response to multiple insults, including glutamatergic excitotoxicity in hippocampal neurons, chemotherapy-induced cytotoxicity of dorsal root ganglion neurons, and retinal ganglion cells (RGCs) in rat retinal ischemia-reperfusion injury in vivo. Neuroprotection was dependent on VEGFR2 and MEK1/2 activation but not on p38 or phosphatidylinositol 3-kinase activation. Recombinant human VEGF-A165b is a neuroprotective agent that effectively protects both peripheral and central neurons in vivo and in vitro through VEGFR2, MEK1/2, and inhibition of caspase-3 induction. VEGF-A165b may be therapeutically useful for pathologies that involve neuronal damage, including hippocampal neurodegeneration, glaucoma diabetic retinopathy, and peripheral neuropathy. The endogenous nature of VEGF-A165b expression suggests that non-isoform-specific inhibition of VEGF-A (for antiangiogenic reasons) may be damaging to retinal and sensory neurons.

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The Alternatively Spliced Anti-Angiogenic Family of VEGF Isoforms VEGF<sub>xxx</sub>b in Human Kidney Development

et al. 2008

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Background/Aim: Vascular endothelial growth factor (VEGF), required for renal development, is generated by alternative splicing of 8 exons to produce two families, pro-angiogenic VEGF_xxx, formed by proximal splicing in exon 8 (exon 8a), and anti-angiogenic VEGF_xxxb, generated by distal splicing in exon 8 (exon 8b). VEGF₁₆₅b, the first described exon 8b-containing isoform, antagonises VEGF₁₆₅ and is anti-angiogenic in vivo. Methods: Using VEGF_xxxb-specific antibodies, we investigated its expression quantitatively and qualitatively in developing kidney, and measured the effect of VEGF₁₆₅b on renal endothelial and epithelial cells. Results: VEGF_xxxb formed 45% of total VEGF protein in adult renal cortex, and VEGF₁₆₅b does not increase glomerular endothelial cell permeability, it inhibits migration, and is cytoprotective for podocytes. During renal development, VEGF_xxxb was expressed in the condensed vesicles of the metanephros, epithelial cells of the comma-shaped bodies, invading endothelial cells and epithelial cells of the S-shaped body, and in the immature podocytes. Expression reduced as the glomerulus matured. Conclusion: These results show that the anti-angiogenic VEGF_xxxb isoforms are highly expressed in adult and developing renal cortex, and suggest that the VEGF_xxxb family plays a role in glomerular maturation and podocyte protection by regulating the pro-angiogenic pro-permeability properties of VEGF_xxx isoforms.

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Overexpression of VEGF165b in Podocytes Reduces Glomerular Permeability

Qiu¹,

Ferguson²,

Oltean³

et al. 2010

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The observation that therapeutic agents targeting vascular endothelial growth factor-A (VEGF-A) associate with renal toxicity suggests that VEGF plays a role in the maintenance of the glomerular filtration barrier. Alternative mRNA splicing produces the VEGF xxx b family, which consists of antiangiogenic peptides that reduce permeability and inhibit tumor growth; the contribution of these peptides to normal glomerular function is unknown. Here, we established and characterized heterozygous and homozygous transgenic mice that overexpress VEGF 165 b specifically in podocytes. We confirmed excess production of glomerular VEGF 165 b by reverse transcriptase-PCR, immunohistochemistry, and ELISA in both heterozygous and homozygous animals. Macroscopically, the mice seemed normal up to 18 months of age, unlike the phenotype of transgenic podocyte-specific VEGF 164 -overexpressing mice. Animals overexpressing VEGF 165 b, however, had a significantly reduced normalized glomerular ultrafiltration fraction with accompanying changes in ultrastructure of the glomerular filtration barrier on the vascular side of the glomerular basement membrane. These data highlight the contrasting properties of VEGF splice variants and their impact on glomerular function and phenotype.

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VEGF-A₁₆₅b Is Cytoprotective and Antiangiogenic in the Retina

Magnussen

Rennel

Hua

et al. 2010

Invest. Ophthalmol. Vis. Sci.

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Heather S. Bevan

VEGF165b, an Inhibitory Vascular Endothelial Growth Factor Splice Variant

VEGF165b, an antiangiogenic VEGF-A isoform, binds and inhibits bevacizumab treatment in experimental colorectal carcinoma: balance of pro- and antiangiogenic VEGF-A isoforms has implications for therapy

Regulation of alternative VEGF-A mRNA splicing is a therapeutic target for analgesia

Molecular Diversity of VEGF-A as a Regulator of Its Biological Activity

VEGF-A165b Is an Endogenous Neuroprotective Splice Isoform of Vascular Endothelial Growth Factor A in Vivo and in Vitro

The Alternatively Spliced Anti-Angiogenic Family of VEGF Isoforms VEGF<sub>xxx</sub>b in Human Kidney Development

Overexpression of VEGF165b in Podocytes Reduces Glomerular Permeability

VEGF-A₁₆₅b Is Cytoprotective and Antiangiogenic in the Retina

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Heather S. Bevan

VEGF165b, an Inhibitory Vascular Endothelial Growth Factor Splice Variant

VEGF165b, an antiangiogenic VEGF-A isoform, binds and inhibits bevacizumab treatment in experimental colorectal carcinoma: balance of pro- and antiangiogenic VEGF-A isoforms has implications for therapy

Regulation of alternative VEGF-A mRNA splicing is a therapeutic target for analgesia

Molecular Diversity of VEGF-A as a Regulator of Its Biological Activity

VEGF-A165b Is an Endogenous Neuroprotective Splice Isoform of Vascular Endothelial Growth Factor A in Vivo and in Vitro

The Alternatively Spliced Anti-Angiogenic Family of VEGF Isoforms VEGF<sub>xxx</sub>b in Human Kidney Development

Overexpression of VEGF165b in Podocytes Reduces Glomerular Permeability

VEGF-A165b Is Cytoprotective and Antiangiogenic in the Retina

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Resources

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VEGF-A₁₆₅b Is Cytoprotective and Antiangiogenic in the Retina