ORCID Profile
0000-0003-3675-048X
Current Organisations
University of California, San Diego
,
University of British Columbia
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Publisher: Springer Science and Business Media LLC
Date: 07-06-2021
Publisher: Springer Science and Business Media LLC
Date: 26-03-2021
Publisher: Springer Science and Business Media LLC
Date: 23-06-2020
Publisher: American Association for the Advancement of Science (AAAS)
Date: 12-05-2023
DOI: 10.1126/SCIIMMUNOL.ABQ7486
Abstract: After resolution of infection, T cells differentiate into long-lived memory cells that recirculate through secondary lymphoid organs or establish residence in tissues. In contrast to CD8 + tissue-resident memory T cells (T RM ), the developmental origins and transcriptional regulation of CD4 + T RM remain largely undefined. Here, we investigated the phenotypic, functional, and transcriptional profiles of CD4 + T RM in the small intestine (SI) responding to acute viral infection, revealing a shared gene expression program and chromatin accessibility profile with circulating T H 1 and the progressive acquisition of a mature T RM program. Single-cell RNA sequencing identified heterogeneity among established CD4 + T RM , which were predominantly located in the lamina propria, and revealed a population of cells that coexpressed both effector- and memory-associated genes, including the transcriptional regulators Blimp1, Id2, and Bcl6. T H 1-associated Blimp1 and Id2 and T FH -associated Bcl6 were required for early T RM formation and development of a mature T RM population in the SI. These results demonstrate a developmental relationship between T H 1 effector cells and the establishment of early T RM , as well as highlighted differences in CD4 + versus CD8 + T RM populations, providing insights into the mechanisms underlying the origins, differentiation, and persistence of CD4 + T RM in response to viral infection.
Publisher: Rockefeller University Press
Date: 27-12-2017
DOI: 10.1084/JEM.20170697
Abstract: Upon infection with an intracellular pathogen, cytotoxic CD8+ T cells develop erse differentiation states characterized by function, localization, longevity, and the capacity for self-renewal. The program of differentiation is determined, in part, by FOXO1, a transcription factor known to integrate extrinsic input in order to specify survival, DNA repair, self-renewal, and proliferation. At issue is whether the state of T cell differentiation is specified by initial conditions of activation or is actively maintained. To study the spectrum of T cell differentiation, we have analyzed an infection with mouse cytomegalovirus, a persistent-latent virus that elicits different cytotoxic T cell responses characterized as acute resolving or inflationary. Our results show that FOXO1 is continuously required for all the phenotypic characteristics of memory-effector T cells such that with acute inactivation of the gene encoding FOXO1, T cells revert to a short-lived effector phenotype, exhibit reduced viability, and manifest characteristics of anergy.
Publisher: American Society for Clinical Investigation
Date: 04-2021
DOI: 10.1172/JCI143729
Publisher: Springer Science and Business Media LLC
Date: 17-05-2021
DOI: 10.1038/S41467-021-22973-9
Abstract: Neutrophils are implicated in multiple homeostatic and pathological processes, but whether functional ersity requires discrete neutrophil subsets is not known. Here, we apply single-cell RNA sequencing to neutrophils from normal and inflamed mouse tissues. Whereas conventional clustering yields multiple alternative organizational structures, diffusion mapping plus RNA velocity discloses a single developmental spectrum, ordered chronologically. Termed here neutrotime, this spectrum extends from immature pre-neutrophils, largely in bone marrow, to mature neutrophils predominantly in blood and spleen. The sharpest increments in neutrotime occur during the transitions from pre-neutrophils to immature neutrophils and from mature marrow neutrophils to those in blood. Human neutrophils exhibit a similar transcriptomic pattern. Neutrophils migrating into inflamed mouse lung, peritoneum and joint maintain the core mature neutrotime signature together with new transcriptional activity that varies with site and stimulus. Together, these data identify a single developmental spectrum as the dominant organizational theme of neutrophil heterogeneity.
Publisher: Rockefeller University Press
Date: 26-05-2021
DOI: 10.1084/JEM.20202512
Abstract: In response to infection, pathogen-specific CD8 T cells differentiate into functionally erse effector and memory T cell populations critical for resolving disease and providing durable immunity. Through small-molecule inhibition, RNAi studies, and induced genetic deletion, we reveal an essential role for the chromatin modifier and BET family member BRD4 in supporting the differentiation and maintenance of terminally fated effector CD8 T cells during infection. BRD4 bound erse regulatory regions critical to effector T cell differentiation and controlled transcriptional activity of terminal effector–specific super-enhancers in vivo. Consequentially, induced deletion of Brd4 or small molecule–mediated BET inhibition impaired maintenance of a terminal effector T cell phenotype. BRD4 was also required for terminal differentiation of CD8 T cells in the tumor microenvironment in murine models, which we show has implications for immunotherapies. Taken together, these data reveal an unappreciated requirement for BRD4 in coordinating activity of cis regulatory elements to control CD8 T cell fate and lineage stability.
Publisher: Springer Science and Business Media LLC
Date: 18-01-2021
Publisher: Rockefeller University Press
Date: 26-10-2015
DOI: 10.1084/JEM.20150194
Abstract: ZEB2 is a multi-zinc-finger transcription factor known to play a significant role in early neurogenesis and in epithelial-mesenchymal transition–dependent tumor metastasis. Although the function of ZEB2 in T lymphocytes is unknown, activity of the closely related family member ZEB1 has been implicated in lymphocyte development. Here, we find that ZEB2 expression is up-regulated by activated T cells, specifically in the KLRG1hi effector CD8+ T cell subset. Loss of ZEB2 expression results in a significant loss of antigen-specific CD8+ T cells after primary and secondary infection with a severe impairment in the generation of the KLRG1hi effector memory cell population. We show that ZEB2, which can bind DNA at tandem, consensus E-box sites, regulates gene expression of several E-protein targets and may directly repress Il7r and Il2 in CD8+ T cells responding to infection. Furthermore, we find that T-bet binds to highly conserved T-box sites in the Zeb2 gene and that T-bet and ZEB2 regulate similar gene expression programs in effector T cells, suggesting that T-bet acts upstream and through regulation of ZEB2. Collectively, we place ZEB2 in a larger transcriptional network that is responsible for the balance between terminal differentiation and formation of memory CD8+ T cells.
Location: United States of America
No related grants have been discovered for Kyla Omilusik.