Understanding the role of T cells in anti-viral immunity
My interest lie in gaining more understanding into the complex and dynamic role of T cells in the development of immunity to infectious diseases. This would hopefully inform the improvement of vaccine strategies to be used for the rational design of prophylactic and therapeutic vaccines.
For my doctoral thesis, I furthered the understanding of the role the Egr2/3 genes in immune response. We identified a novel role of these genes as key players in regulating Tfh cell differentiation using a conditional KO mouse model.
For the last few years, I have been more involved in human immunology where I have focused on CD4+ Tfh cells as one of the cellular drivers of humoral immune response leading to the induction of broadly neutralising antibodies (bnAbs) in HIV infection. This has led me to my current exciting project where I am working on understanding the immunological mechanism underlying viral control in bnAb-infused, HIV infected patients during treatment interruption. The understanding of this delayed viral rebound would will be pivotal in advancing the HIV cure field
Safety and immunogenicity of the ChAdOx1 nCoV-19 (AZD1222) vaccine against SARS-CoV-2 in HIV infection: a single-arm substudy of a phase 2/3 clinical trial
Frater J. et al, (2021), The Lancet HIV, 8, e474 - e485
Immune checkpoint modulation enhances HIV-1 antibody induction.
Bradley T. et al, (2020), Nature communications, 11
Subordinate Effect of -21M HLA-B Dimorphism on NK Cell Repertoire Diversity and Function in HIV-1 Infected Individuals of African Origin.
Cubero EM. et al, (2020), Frontiers in immunology, 11
Egr2 and 3 control adaptive immune responses by temporally uncoupling expansion from T cell differentiation
Miao T. et al, (2017), Journal of Experimental Medicine, 214, 1787 - 1808
Immune perturbations in HIV-1–infected individuals who make broadly neutralizing antibodies
Moody MA. et al, (2016), Science Immunology, 1, aag0851 - aag0851