Kalyani Vemuri
Postdoctoral position at Department of Medical Biochemistry and Microbiology; Biochemistry and Cancer; Anna-Karin Olsson
- E-mail:
- kalyani.vemuri@imbim.uu.se
- Visiting address:
- BMC
Husargatan 3
752 37 UPPSALA - Postal address:
- Box 582
751 23 UPPSALA
More information is available to staff who log in.
Biography
Kalyani Vemuri was born in Andhra Pradesh, India in the year 1991. She completed her bachelors studies from the Vellore Institute of Technology, India in 2014 and in 2016 she received her master degree in Molecular Medicine from Uppsala University, Sweden. in 2017, she began her PhD studies under the supervision of Prof. Anna Dimberg at Uppsala University and in 2022, she successfully defended her thesis titled "CD93 in regulation of vascular function and tumour progression". Kalyani is now employed as a post-doc in the lab of Assoc. prof Anna-Karin Olsson where she is currently studying the effects of primary tumour on the peripheral vasculature.
Publications
Recent publications
- CD93 maintains endothelial barrier function and limits metastatic dissemination (2024)
- CD93 maintains endothelial barrier function by limiting the phosphorylation and turnover of VE-cadherin (2023)
- Tailoring vascular phenotype through AAV therapy promotes anti-tumor immunity in glioma (2023)
- A method for Boolean analysis of protein interactions at a molecular level (2022)
- CD93 in regulation of vascular function and tumour progression (2022)
All publications
Articles
- CD93 maintains endothelial barrier function and limits metastatic dissemination (2024)
- CD93 maintains endothelial barrier function by limiting the phosphorylation and turnover of VE-cadherin (2023)
- Tailoring vascular phenotype through AAV therapy promotes anti-tumor immunity in glioma (2023)
- A method for Boolean analysis of protein interactions at a molecular level (2022)
- ELTD1-deletion reduces vascular abnormality and improves T-cell recruitment after PD-1 blockade in glioma. (2021)
- CD93 promotes β1 integrin activation and fibronectin fibrillogenesis during tumor angiogenesis (2018)
- Global gene expression analysis of distant organ vasculature in mice with cancer
- AAV-mouse DNase I sustains long-term DNase I expression in vivo and suppresses breast cancer metastasis
- CD93 stabilizes endothelial junctions and preserves blood-brain barrier integrity
- CD93 limits VEGFR2 activation and preserves endothelial barrier function in metastatic cancer
- Multispectral imaging identifies CD93 as a tumor endothelial marker associated with vascular proliferation and poor patient survival in glioblastoma