Background: VEGF-A concentrations were measured in the blood of bevacizumab-treated cancer patients in previous studies, but a consensus has not formed that would develop VEGF-A into a clinical biomarker. Recently, methods to strictly distinguish between the VEGF-A isoforms have been developed but have not yet been applied to cancer patients undergoing bevacizumab treatment.
Methods: An ELISA that strictly distinguishes between VEGF-A121 and VEGF-A165-the major isoforms of VEGF-A-and a commercially available ELISA for VEGF-A are used to determine the concentration of VEGF-A121, VEGF-A165, and VEGF-A in the blood of 12 patients with advanced colorectal cancer receiving bevacizumab therapy.
Results: The serum and plasma concentrations of VEGF-A121 increased substantially post-bevacizumab administration; the median increase in serum was 860.8 pg/mL, 95% confidence interval (CI) [468.5, 1128.9], p = 0.0024, and in plasma was 808.6 pg/mL, 95% CI [748.7, 874.0], p = 0.00049. In stark contrast, VEGF-A165 after bevacizumab administration decreased in serum by a medium change of -73.8 pg/mL, 95% CI [-149.4, -10.2], p = 0.0034, with 83.3% of the post-bevacizumab concentrations falling below the high-accuracy threshold of 38 pg/mL; in plasma, all pre and post VEGF-A165 concentrations fell below this threshold. Concentrations of VEGF-A121 and VEGF-A165 in platelets did not change to a statistically significant degree. Adding recombinant VEGF-A121 (and -A165) or bevacizumab to plasma in patients post-bevacizumab administration increased or decreased, respectively, VEGF-A121 and VEGF-A165 levels. The increase in VEGF-A121 in plasma and serum after bevacizumab administration may be due to the dissociation of the complex of tumor-derived VEGF-A121 and bevacizumab when it moves from the stroma into the blood.
Conclusions: The VEGF-A121 isoform has been uniquely demonstrated as a clear marker of bevacizumab therapy in both plasma and serum, motivating further research on pursuing these isoforms as biomarkers in cancer care.
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PLoS One
December 2024
Department of Cardiovascular and Gastroenterological Surgery, Graduate School of Medical and Dental Sciences, Kagoshima University, Kagoshima, Japan.
Background: VEGF-A concentrations were measured in the blood of bevacizumab-treated cancer patients in previous studies, but a consensus has not formed that would develop VEGF-A into a clinical biomarker. Recently, methods to strictly distinguish between the VEGF-A isoforms have been developed but have not yet been applied to cancer patients undergoing bevacizumab treatment.
Methods: An ELISA that strictly distinguishes between VEGF-A121 and VEGF-A165-the major isoforms of VEGF-A-and a commercially available ELISA for VEGF-A are used to determine the concentration of VEGF-A121, VEGF-A165, and VEGF-A in the blood of 12 patients with advanced colorectal cancer receiving bevacizumab therapy.
Cancers (Basel)
November 2024
Department of Digestive Surgery, Graduate School of Medical and Dental Sciences, Kagoshima University, Kagoshima 890-8544, Japan.
Background/objectives: The response rate to immune checkpoint inhibitor (ICI) therapy is limited. Further, there is a need to discover biomarkers to predict therapeutic efficacy. The vascular endothelial growth factor (VEGF) is strongly associated with intra-tumoral immunity; however, its utility as a marker remains unknown.
View Article and Find Full Text PDFPLoS One
April 2023
Department of Laboratory and Vascular Medicine, Graduate School of Medical and Dental Sciences, Kagoshima University, Kagoshima, Japan.
Vascular endothelial growth factor A (VEGF-A) plays pivotal roles in regulating tumor angiogenesis as well as physiological vascular function. The major VEGF-A isoforms, VEGF-A121 and VEGF-A165, in serum, plasma, and platelets have not been exactly evaluated due to the lack of the appropriate assay system. Antibodies against human VEGF-A121 and VEGF-A165 (hVEGF-A121 and hVEGF-A165) were successfully produced and Enzyme-Linked ImmunoSorbent Assay (ELISA) for hVEGF-A121 and hVEGF-A165 were separately created by these monoclonal antibodies.
View Article and Find Full Text PDFClin Exp Dermatol
March 2023
Centre for Dermatology Research and Manchester Academic Health Science Centre, The University of Manchester, Manchester, UK.
Background: Vascular dysfunction is a significant contributor to the pathophysiology of psoriasis. Some individuals have variation within the gene for vascular endothelial growth factor-A (VEGF-A), which confers an increased risk of developing psoriasis and having a severe disease phenotype, and may determine responsiveness to treatment.
Aim: To determine whether patients with psoriasis have alterations in cutaneous microvascular anatomy and physiology due to expression of VEGF and whether laser Doppler imaging has utility in the assessment of this.
Biol Open
May 2016
Endothelial Cell Biology Unit, School of Molecular and Cellular Biology, University of Leeds, Leeds LS2 9JT, UK
Vascular endothelial growth factor A (VEGF-A) binding to the receptor tyrosine kinase VEGFR2 triggers multiple signal transduction pathways, which regulate endothelial cell responses that control vascular development. Multiple isoforms of VEGF-A can elicit differential signal transduction and endothelial responses. However, it is unclear how such cellular responses are controlled by isoform-specific VEGF-A-VEGFR2 complexes.
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