Congwei Jiang scite author profile

Congwei Jiang

2Publications

31Citation Statements Received

81Citation Statements Given

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Affiliations

University of Chinese Academy of Sciences, Institut Pasteur of Shanghai, Shanghai University

Publications

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Molecular Features and Functional Implications of Germline Variants in Triple-Negative Breast Cancer

Chen

Ren

et al. 2020

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Background The germline variant spectrum of triple-negative breast cancer (TNBC) is different from that of other subtypes and has demonstrated ethnic differences. However, the germline variants of TNBC among Chinese patients and its clinical significance remain unclear. Methods Using our multi-omics TNBC cohort (n = 325), we determined the spectrum of germline variants in TNBC and aimed to illustrate their biological and clinical implications. Results Overall, 16.0% (52 of 325) of TNBC patients harbored at least one pathogenic or likely pathogenic germline variant. These germline variants were associated with early-onset of TNBC, the occurrence of contralateral breast cancer, the basal-like immune-suppressed mRNA subtype, and the homologous recombination deficiency (HRD) mutation subtype. Somatic allele-specific imbalance was observed in 54.1% of these germline variants, which was correlated with early-onset of breast cancer and elevated HRD. BRCA1 (7.4%), RAD51D (2.8%) and BRCA2 (2.2%) were the genes most frequently mutated. RAD51D germline variants, especially K91fs, were enriched in Chinese patients with TNBC compared to Caucasian and African American patients. The Chinese-specific RAD51D germline variants were functionally associated with the instability of the RAD51D protein, HRD and sensitivity to PARP inhibitors. Conclusions Chinese TNBC patients have a distinct spectrum of germline variants, with a remarkable impact on the clinical and molecular characteristics of the tumor. Integrative germline-somatic analysis may help in identifying TNBC patients who are most likely to be affected by their germline variants and in performing clinical interventions more precisely. The RAD51D variants enriched in our cohort may serve as therapeutic targets and guide precision treatment of TNBC.

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Interleukin 16 contributes to gammaherpesvirus pathogenesis by inhibiting viral reactivation

Liu

Lei

et al. 2020

PLoS Pathog

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Gammaherpesviruses have evolved various strategies to take advantage of host cellular factors or signaling pathways to establish a lifelong latent infection. Like the human gammaherpesvirus Epstein-Barr virus, murine gammaherpesvirus 68 (MHV68) establishes and maintains latency in the memory B cells during infection of laboratory mice. We have previously shown that MHV68 can immortalize fetal liver-derived B cells that induce lymphomas when injected into immunodeficient mice. Here we identify interleukin 16 (IL16) as a most abundantly expressed cytokine in MHV68-immortalized B cells and show that MHV68 infection elevates IL16 expression. IL16 is not important for MHV68 lytic infection but plays a critical role in MHV68 reactivation from latency. IL16 deficiency increases MHV68 lytic gene expression in MHV68-immortalized B cells and enhances reactivation from splenic latency. Correlatively, IL16 deficiency increases the frequency of MHV68-infected plasma cells that can be attributed to enhanced MHV68 reactivation. Furthermore, similar to TPA-mediated lytic replication of Kaposi's sarcoma-associated herpesvirus, IL16 deficiency markedly induces Tyr705 STAT3 de-phosphorylation and elevates p21 expression, which can be counteracted by the tyrosine phosphatase inhibitor orthovanadate. Importantly, orthovanadate strongly blocks MHV68 lytic gene expression mediated by IL16 deficiency. These data demonstrate that virus-induced IL16 does not directly participate in MHV68 lytic replication, but rather inhibits virus reactivation to facilitate latent infection, in part through the STAT3-p21 axis.

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Congwei Jiang

Molecular Features and Functional Implications of Germline Variants in Triple-Negative Breast Cancer

Interleukin 16 contributes to gammaherpesvirus pathogenesis by inhibiting viral reactivation

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