Project description:To investigate the effect pf PD-1 knockout during Mtb infection, wild type mice and PD-1 knockout mice were infected with Mtb and BMDC were isolated for the transcriptome analysis.

Project description:Interventions: experimental group :PD-1 Knockout Engineered T Cells Primary outcome(s): Number of participants with Adverse Events and/or Dose Limiting Toxicities as a Measure of Safety and tolerability of dose of PD-1 Knockout T cells using Common Terminology Criteria for Adverse Events (CTCAE v4.0) in patients Study Design: historical control

Project description:A knockout clone has been generated for both FAM50A and FAM50B; knockout of the other gene is then performed and the transcriptome is analysed to look at the effect of dual gene loss.

Project description:Mycobacterium tuberculosis (Mtb) has developed specialized mechanisms to parasitize its host cell, the macrophage. These mechanisms allow it to overcome killing by oxidative burst and persist in the wake of an inflammatory response. Mtb infection in the majority of those exposed is controlled in an asymptomatic form referred to as latent tuberculosis infection (LTBI). HIV is a well-known catalyst of reactivation of LTBI to active TB infection (ATB). Through the use of nonhuman primates (NHPs) co-infected with Mtb and Simian Immunodeficiency Virus (Mtb/SIV), we are able to simulate human progression of TB/AIDS comorbidity. The advantage of NHP models is that they recapitulate the breadth of human TB outcomes, including immune control of infection, and loss of this control due to SIV co-infection. Using macaques infected with Mtb or Mtb/SIV and with different clinical outcomes we attempted to identify signatures between those that progress to active infection after SIV challenge (reactivators) and those that control the infection (non-reactivators).

Project description:We have found that drug-resistant (DR) Mtb infection alters the host pathogen interactions thought to occur during drug-sensitive (DS) Mtb infection. Recent data suggests that lack of both, Type I and IL-1, signaling pathways leads to susceptibility to infection to DR Mtb infection. To understand the pathways involved in maintaining control of DR Mtb infection, we are sequencing the bulk lung cells early in infection.

Project description:Effect of SigA depletion and SigB knockout on the global transcription of Mtb

Project description:To compare gene expression changes induced by infection with Mycobacterium tuberculosis (Mtb) with changes induced by purified Mtb products, we infected THP-1 cells with Mtb strain H37Rv or treated with purified Mtb products, then performed RNAseq.

Project description:We have found that drug-resistant (DR) Mtb infection alters the host pathogen interactions thought to occur during drug-sensitive (DS) Mtb infection. Recent data suggests that lack of IL-1, but not Type I IFN, signaling pathways leads to susceptibility to infection to DR Mtb infection. To understand the pathways involved in maintaining control of DS Mtb infection, we are sequencing the bulk lung cells early in infection.

Project description:We present a pan-cancer integrated analysis of transcriptome, exome and clinical records of patients. Herein, we identified candidate genes as potential biomarkers to predict clinical outcome of immunotherapy. We further explored the function of two IPM genes in vivo. Knockout of MALT1, which is critical for the T cell receptor signaling, can eliminate the anti-tumor effect of anti-PD-1 treatment completely by impairing the activation of CD8+ T cells. Notably, knockout of CLEC4D, a C-type lectin receptor that expressed on myeloid cells, also reduced the effect of anti-PD-1 treatment potentially through maintaining the immunosuppressive effects of myeloid cells.

Project description:Comparison of Mycobacterium tuberculosis infection in WT mice strain C57BL/6 (WT) and the CXCL5 knockout (KO)