Jinsheng Zhang scite author profile

Background:The novel coronavirus pneumonia COVID-19 caused by SARS-CoV-2 infection could lead to a series of clinical symptoms and severe illnesses, including acute respiratory distress syndrome (ARDS) and fatal organ failure. We report the fundamental pathological investigation in the lungs and other organs of fatal cases for the mechanistic understanding of severe COVID-19 and the development of specific therapy in these cases. Methods: The autopsy and pathological investigations of specimens were performed on bodies of two deceased cases with COVID-19. Gross anatomy and histological investigation by Hematoxylin and eosin (HE) stained were reviewed on each patient. Alcian blue/periodic acid-Schiff (AB-PAS) staining and Masson staining were performed for the examinations of mucus, fibrin and collagen fiber in lung tissues. Immunohistochemical staining was performed on the slides of lung tissues from two patients. Real-time PCR was performed to detect the infection of SARS-CoV-2. Flow cytometry analyses were performed to detect the direct binding of S protein and the expression of ACE2 on the cell surface of macrophages. Findings: The main pathological features in lungs included extensive impairment of type I alveolar epithelial cells and atypical hyperplasia of type II alveolar cells, with formation of hyaline membrane, focal hemorrhage, exudation and pulmonary edema, and pulmonary consolidation. The mucous plug with fibrinous exudate in the alveoli and the dysfunction of alveolar macrophages were characteristic abnormalities. The type II alveolar epithelial cells and macrophages in alveoli and pulmonary hilum lymphoid tissue were infected by SARS-CoV-2. S protein of SARS-CoV-2 directly bound to the macrophage via the S-protein-ACE2 interaction. Interpretation: Infection of alveolar macrophage by SARS-CoV-2 might be drivers of the "cytokine storm", which might result in damages in pulmonary tissues, heart and lung, and lead to the failure of multiple organs .

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Over‐expressed microRNA‐27a and 27b influence fat accumulation and cell proliferation during rat hepatic stellate cell activation

Zhang

et al. 2009

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Retinoid X receptor aLiver fibrosis a b s t r a c t Hepatic stellate cells (HSCs) activation is an initial event in liver fibrosis. MicroRNAs (miRNAs) have been found to play essential roles in cell differentiation, proliferation, and fat metabolism. In this study, we showed that down-regulation of two over-expressed miRNAs, miR-27a and 27b allowed culture-activated rat HSCs to switch to a more quiescent HSC phenotype, with restored cytoplasmic lipid droplets and decreased cell proliferation. Mechanistically, retinoid X receptor a was confirmed to be the target of miR-27a and 27b. These results indicated a new role and mechanism of miR-27a and 27b in regulating fat metabolism and cell proliferation during HSCs activation.

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Activity in the dorsal cochlear nucleus of hamsters previously tested for tinnitus following intense tone exposure

Kaltenbach

Zacharek

Zhang

et al. 2004

Neuroscience Letters

216

175

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Tinnitus as a plastic phenomenon and its possible neural underpinnings in the dorsal cochlear nucleus

2005

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Small-molecular donor guest achieves rigid 18.5% and flexible 15.9% efficiency organic photovoltaic via fine-tuning microstructure morphology

Chen

Song²,

Yu³

et al. 2021

Joule

209

162

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Jinsheng Zhang

Alveolar macrophage dysfunction and cytokine storm in the pathogenesis of two severe COVID-19 patients

Over‐expressed microRNA‐27a and 27b influence fat accumulation and cell proliferation during rat hepatic stellate cell activation

Activity in the dorsal cochlear nucleus of hamsters previously tested for tinnitus following intense tone exposure

Tinnitus as a plastic phenomenon and its possible neural underpinnings in the dorsal cochlear nucleus

Small-molecular donor guest achieves rigid 18.5% and flexible 15.9% efficiency organic photovoltaic via fine-tuning microstructure morphology

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