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10 results on '"Lou, Dequan"'

1. Monocyte Production of C1q Potentiates CD8+ T-Cell Function Following Respiratory Viral Infection.

Author

Eddens, Taylor, Parks, Olivia B., Lou, Dequan, Fan, Li, Sojati, Jorna, Ramsey, Manda Jo, Schmitt, Lori, Salgado, Claudia M., Reyes-Mugica, Miguel, Evans, Alysa, Zou, Henry M., Oury, Tim D., Byersdorfer, Craig, Chen, Kong, and Williams, John V.

Subjects
RESPIRATORY infections in children, VIRUS diseases, COVID-19, RESPIRATORY infections, T cells
Abstract

Respiratory viral infections remain a leading cause of morbidity and mortality. Using a murine model of human metapneumovirus, we identified recruitment of a C1q-expressing inflammatory monocyte population concomitant with viral clearance by adaptive immune cells. Genetic ablation of C1q led to reduced CD8+ T-cell function. Production of C1q by a myeloid lineage was necessary to enhance CD8+ T-cell function. Activated and dividing CD8+ T cells expressed a C1q receptor, gC1qR. Perturbation of gC1qR signaling led to altered CD8+ T-cell IFN-γ production, metabolic capacity, and cell proliferation. Autopsy specimens from fatal respiratory viral infections in children exhibited diffuse production of C1q by an interstitial population. Humans with severe coronavirus disease (COVID-19) infection also exhibited upregulation of gC1qR on activated and rapidly dividing CD8+ T cells. Collectively, these studies implicate C1q production from monocytes as a critical regulator of CD8+ T-cell function following respiratory viral infection. [ABSTRACT FROM AUTHOR]

Published
2024
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4. STAT1 Employs Myeloid Cell–Extrinsic Mechanisms to Regulate the Neutrophil Response and Provide Protection against Invasive Klebsiella pneumoniae Lung Infection

Author

Gonzalez-Ferrer, Shekina, primary, Peñaloza, Hernán F., additional, van der Geest, Rick, additional, Xiong, Zeyu, additional, Gheware, Atish, additional, Tabary, Mohammadreza, additional, Kochin, Megan, additional, Dalton, Kathryn, additional, Zou, Henry, additional, Lou, Dequan, additional, Lockwood, Karina, additional, Zhang, Yingze, additional, Bain, William G., additional, Mallampalli, Rama K., additional, Ray, Anuradha, additional, Ray, Prabir, additional, Van Tyne, Daria, additional, Chen, Kong, additional, and Lee, Janet S., additional

Published
2024
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5. Monocyte production of C1q potentiates CD8+T cell effector function following respiratory viral infection

Author

Eddens, Taylor, primary, Parks, Olivia B., additional, Lou, Dequan, additional, Fan, Li, additional, Sojati, Jorna, additional, Ramsey, Manda Jo, additional, Schmitt, Lori, additional, Salgado, Claudia M., additional, Reyes-Mugica, Miguel, additional, Oury, Tim D., additional, Byersdorfer, Craig, additional, Chen, Kong, additional, and Williams, John V., additional

Published
2023
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6. Monocyte production of C1q potentiates CD8 (+) T cell effector function following respiratory viral infection

Author

Eddens, Taylor, Parks, Olivia B., Lou, Dequan, Fan, Li, Sojati, Jorna, Ramsey, Manda Jo, Schmitt, Lori, Salgado, Claudia M., Reyes-Mugica, Miguel, Oury, Tim D., Byersdorfer, Craig, Chen, Kong, and Williams, John V.

Subjects
Article
Abstract

Respiratory viral infections remain a leading cause of morbidity and mortality. Using a murine model of human metapneumovirus (HMPV), we identified recruitment of a C1q-producing inflammatory monocyte population concomitant with viral clearance by adaptive immune cells. Genetic ablation of C1q led to reduced CD8 (+) T cell function. Production of C1q by a myeloid lineage was sufficient to enhance CD8 (+) T cell function. Activated and dividing CD8 (+) T cells expressed a putative C1q receptor, gC1qR. Perturbation of gC1qR signaling led to altered CD8 (+) T cell IFN-γ production and metabolic capacity. Autopsy specimens from fatal respiratory viral infections in children demonstrated diffuse production of C1q by an interstitial population. Humans with severe COVID-19 infection also demonstrated upregulation of gC1qR on activated and rapidly dividing CD8 (+) T cells. Collectively, these studies implicate C1q production from monocytes as a critical regulator of CD8 (+) T cell function following respiratory viral infection.

Published
2023

8. Single-cell RNA sequencing in stroke and traumatic brain injury: Current achievements, challenges, and future perspectives on transcriptomic profiling.

Author

Shi, Ruyu, Chen, Huaijun, Zhang, Wenting, Leak, Rehana K, Lou, Dequan, Chen, Kong, and Chen, Jun

Subjects
*BRAIN injuries, *TRANSCRIPTOMES, *CELL communication, *RNA sequencing, *PHENOTYPES
Abstract

Single-cell RNA sequencing (scRNA-seq) is a high-throughput transcriptomic approach with the power to identify rare cells, discover new cellular subclusters, and describe novel genes. scRNA-seq can simultaneously reveal dynamic shifts in cellular phenotypes and heterogeneities in cellular subtypes. Since the publication of the first protocol on scRNA-seq in 2009, this evolving technology has continued to improve, through the use of cell-specific barcodes, adoption of droplet-based systems, and development of advanced computational methods. Despite induction of the cellular stress response during the tissue dissociation process, scRNA-seq remains a popular technology, and commercially available scRNA-seq methods have been applied to the brain. Recent advances in spatial transcriptomics now allow the researcher to capture the positional context of transcriptional activity, strengthening our knowledge of cellular organization and cell-cell interactions in spatially intact tissues. A combination of spatial transcriptomic data with proteomic, metabolomic, or chromatin accessibility data is a promising direction for future research. Herein, we provide an overview of the workflow, data analyses methods, and pros and cons of scRNA-seq technology. We also summarize the latest achievements of scRNA-seq in stroke and acute traumatic brain injury, and describe future applications of scRNA-seq and spatial transcriptomics. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Monocyte Production of C1q Potentiates CD8 + T-Cell Function Following Respiratory Viral Infection.

Author

Eddens T, Parks OB, Lou D, Fan L, Sojati J, Ramsey MJ, Schmitt L, Salgado CM, Reyes-Mugica M, Evans A, Zou HM, Oury TD, Byersdorfer C, Chen K, and Williams JV

Subjects
Animals, Humans, Mice, Metapneumovirus immunology, COVID-19 immunology, COVID-19 virology, COVID-19 pathology, COVID-19 metabolism, Complement C1q metabolism, Complement C1q genetics, SARS-CoV-2 immunology, Mice, Inbred C57BL, Interferon-gamma metabolism, Lymphocyte Activation immunology, Respiratory Tract Infections immunology, Respiratory Tract Infections virology, Respiratory Tract Infections pathology, Respiratory Tract Infections metabolism, Paramyxoviridae Infections immunology, Paramyxoviridae Infections virology, Paramyxoviridae Infections metabolism, CD8-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes metabolism, Monocytes immunology, Monocytes metabolism
Abstract

Respiratory viral infections remain a leading cause of morbidity and mortality. Using a murine model of human metapneumovirus, we identified recruitment of a C1q-expressing inflammatory monocyte population concomitant with viral clearance by adaptive immune cells. Genetic ablation of C1q led to reduced CD8 + T-cell function. Production of C1q by a myeloid lineage was necessary to enhance CD8 + T-cell function. Activated and dividing CD8 + T cells expressed a C1q receptor, gC1qR. Perturbation of gC1qR signaling led to altered CD8 + T-cell IFN-γ production, metabolic capacity, and cell proliferation. Autopsy specimens from fatal respiratory viral infections in children exhibited diffuse production of C1q by an interstitial population. Humans with severe coronavirus disease (COVID-19) infection also exhibited upregulation of gC1qR on activated and rapidly dividing CD8 + T cells. Collectively, these studies implicate C1q production from monocytes as a critical regulator of CD8 + T-cell function following respiratory viral infection.

Published
2024
Full Text
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10. Monocyte production of C1q potentiates CD8 + T cell effector function following respiratory viral infection.

Author

Eddens T, Parks OB, Lou D, Fan L, Sojati J, Ramsey MJ, Schmitt L, Salgado CM, Reyes-Mugica M, Oury TD, Byersdorfer C, Chen K, and Williams JV

Abstract

Respiratory viral infections remain a leading cause of morbidity and mortality. Using a murine model of human metapneumovirus (HMPV), we identified recruitment of a C1q-producing inflammatory monocyte population concomitant with viral clearance by adaptive immune cells. Genetic ablation of C1q led to reduced CD8 + T cell function. Production of C1q by a myeloid lineage was sufficient to enhance CD8 + T cell function. Activated and dividing CD8 + T cells expressed a putative C1q receptor, gC1qR. Perturbation of gC1qR signaling led to altered CD8 + T cell IFN-γ production and metabolic capacity. Autopsy specimens from fatal respiratory viral infections in children demonstrated diffuse production of C1q by an interstitial population. Humans with severe COVID-19 infection also demonstrated upregulation of gC1qR on activated and rapidly dividing CD8 + T cells. Collectively, these studies implicate C1q production from monocytes as a critical regulator of CD8 + T cell function following respiratory viral infection.

Published
2023
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