Xuequn Xu scite author profile

The adoptive transfer of T cells expressing chimeric antigen receptors (CARs) through genetic engineering is one of the most promising new therapies for treating cancer patients. A robust CAR T cell-mediated anti-tumor response requires the coordination of nutrient and energy supplies with CAR T cell expansion and function. However, the high metabolic demands of tumor cells compromise the function of CAR T cells by competing for nutrients within the tumor microenvironment (TME). To substantially improve clinical outcomes of CAR T immunotherapy while treating solid tumors, it is essential to metabolically prepare CAR T cells to overcome the metabolic barriers imposed by the TME. In this review, we discuss a potential metabolism toolbox to improve the metabolic fitness of CAR T cells and maximize the efficacy of CAR T therapy.

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The basics of CAR T design and challenges in immunotherapy of solid tumors — Ovarian cancer as a model

Qiu

Sun

2017

Human Vaccines & Immunotherapeutics

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Chimeric antigen receptor T cells are T cells genetically engineered with CAR constructs which mainly contain scFV and TCR zeta chain. With promising development in blood cancers, CAR T trials are also applied in solid cancers. However, the treatment effect in solid cancers is lower than expected. This review summarizes difference of CAR T applications in solid and blood cancers. Future challenges of CAR T cell treatment in solid cancer are also discussed using ovarian cancer as an example.

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A DNA Vaccine Protects Human Immune Cells against Zika Virus Infection in Humanized Mice

Abraham

et al. 2017

EBioMedicine

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A DNA vaccine encoding prM and E protein has been shown to induce protection against Zika virus (ZIKV) infection in mice and monkeys. However, its effectiveness in humans remains undefined. Moreover, identification of which immune cell types are specifically infected in humans is unclear. We show that human myeloid cells and B cells are primary targets of ZIKV in humanized mice. We also show that a DNA vaccine encoding full length prM and E protein protects humanized mice from ZIKV infection. Following administration of the DNA vaccine, humanized DRAG mice developed antibodies targeting ZIKV as measured by ELISA and neutralization assays. Moreover, following ZIKV challenge, vaccinated animals presented virtually no detectable virus in human cells and in serum, whereas unvaccinated animals displayed robust infection, as measured by qRT-PCR. Our results utilizing humanized mice show potential efficacy for a targeted DNA vaccine against ZIKV in humans.

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Xuequn Xu

Inosine is an alternative carbon source for CD8+-T-cell function under glucose restriction

A Metabolism Toolbox for CAR T Therapy

The basics of CAR T design and challenges in immunotherapy of solid tumors — Ovarian cancer as a model

A DNA Vaccine Protects Human Immune Cells against Zika Virus Infection in Humanized Mice

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