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Literature DB >> 33420163

Host mitochondrial transcriptome response to SARS-CoV-2 in multiple cell models and clinical samples.

Brendan Miller¹, Ana Silverstein¹, Melanie Flores¹, Kevin Cao¹, Hiroshi Kumagai^1,2, Hemal H Mehta¹, Kelvin Yen¹, Su- Jeong Kim¹, Pinchas Cohen³.

Abstract

SARS-CoV-2 induces a muted innate immune response compared to other respiratory viruses. Mitochondrial dynamics might partially mediate this effect of SARS-CoV-2 on innate immunity. Polypeptides encoded by open reading frames of SARS-CoV and SARS-CoV-2 have been shown to localize to mitochondria and disrupt Mitochondrial Antiviral Signaling (MAVS) protein signaling. Therefore, we hypothesized that SARS-CoV-2 would distinctly regulate the mitochondrial transcriptome. We analyzed multiple publicly available RNASeq data derived from primary cells, cell lines, and clinical samples (i.e., BALF and lung). We report that SARS-CoV-2 did not dramatically regulate (1) mtDNA-encoded gene expression or (2) MAVS expression, and (3) SARS-CoV-2 downregulated nuclear-encoded mitochondrial (NEM) genes related to cellular respiration and Complex I.

Entities: Chemical

Mesh：

Substances：
DNA, Mitochondrial

Year: 2021 PMID： 33420163 PMCID： PMC7794290 DOI： 10.1038/s41598-020-79552-z

Source DB: PubMed Journal: Sci Rep ISSN： 2045-2322 Impact factor: 4.379

27 in total

1. The human mitochondrial transcriptome.

Authors: Tim R Mercer; Shane Neph; Marcel E Dinger; Joanna Crawford; Martin A Smith; Anne-Marie J Shearwood; Eric Haugen; Cameron P Bracken; Oliver Rackham; John A Stamatoyannopoulos; Aleksandra Filipovska; John S Mattick
Journal: Cell Date: 2011-08-19 Impact factor: 41.582

2. Impaired transport of mitochondrial transcription factor A (TFAM) and the metabolic memory phenomenon associated with the progression of diabetic retinopathy.

Authors: Julia M Santos; Renu A Kowluru
Journal: Diabetes Metab Res Rev Date: 2013-03 Impact factor: 4.876

3. Humanin: a harbinger of mitochondrial-derived peptides?

Authors: Changhan Lee; Kelvin Yen; Pinchas Cohen
Journal: Trends Endocrinol Metab Date: 2013-02-08 Impact factor: 12.015

4. SARS-CoV-2 Orf9b suppresses type I interferon responses by targeting TOM70.

Authors: He-Wei Jiang; Hai-Nan Zhang; Qing-Feng Meng; Jia Xie; Yang Li; Hong Chen; Yun-Xiao Zheng; Xue-Ning Wang; Huan Qi; Jing Zhang; Pei-Hui Wang; Ze-Guang Han; Sheng-Ce Tao
Journal: Cell Mol Immunol Date: 2020-07-29 Impact factor: 11.530

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Authors: Francis K Yoshimoto
Journal: Protein J Date: 2020-06 Impact factor: 2.371

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Authors: Hongwei Shao; Dongming Lan; Zhaohui Duan; Zehuan Liu; Jun Min; Lichun Zhang; Jian Huang; Jing Su; Shangwu Chen; Anlong Xu
Journal: J Clin Immunol Date: 2006-10-06 Impact factor: 8.317

7. RNA-GPS Predicts SARS-CoV-2 RNA Residency to Host Mitochondria and Nucleolus.

Authors: Kevin E Wu; Furqan M Fazal; Kevin R Parker; James Zou; Howard Y Chang
Journal: Cell Syst Date: 2020-06-20 Impact factor: 10.304

Review 8. Mitochondrial DNA in inflammation and immunity.

Authors: Joel S Riley; Stephen Wg Tait
Journal: EMBO Rep Date: 2020-03-23 Impact factor: 8.807

Review 9. Mitochondrial Functions in Infection and Immunity.

Authors: Varnesh Tiku; Man-Wah Tan; Ivan Dikic
Journal: Trends Cell Biol Date: 2020-02-11 Impact factor: 20.808

10. Mitochondrial double-stranded RNA triggers antiviral signalling in humans.

Authors: Ashish Dhir; Somdutta Dhir; Lukasz S Borowski; Laura Jimenez; Michael Teitell; Agnès Rötig; Yanick J Crow; Gillian I Rice; Darragh Duffy; Christelle Tamby; Takayuki Nojima; Arnold Munnich; Manuel Schiff; Claudia Ribeiro de Almeida; Jan Rehwinkel; Andrzej Dziembowski; Roman J Szczesny; Nicholas J Proudfoot
Journal: Nature Date: 2018-07-25 Impact factor: 49.962

14 in total

1. SARS-CoV-2, COVID-19 and the Ageing Immune System.

Authors: Juliet M Bartleson; Dina Radenkovic; Anthony J Covarrubias; David Furman; Daniel A Winer; Eric Verdin
Journal: Nat Aging Date: 2021-09-14

2. SARS-CoV-2 Achieves Immune Escape by Destroying Mitochondrial Quality: Comprehensive Analysis of the Cellular Landscapes of Lung and Blood Specimens From Patients With COVID-19.

Authors: Chenyang Duan; Ruiyan Ma; Xue Zeng; Bing Chen; Dongyao Hou; Ruixue Liu; Xuehan Li; Liangming Liu; Tao Li; He Huang
Journal: Front Immunol Date: 2022-07-01 Impact factor: 8.786

3. COVID-19 and Mitochondrial Non-Coding RNAs: New Insights From Published Data.

Authors: Andrea Pozzi
Journal: Front Physiol Date: 2022-02-04 Impact factor: 4.566

4. Immune system cells from COVID-19 patients display compromised mitochondrial-nuclear expression co-regulation and rewiring toward glycolysis.

Authors: Hadar Medini; Amit Zirman; Dan Mishmar
Journal: iScience Date: 2021-11-18

Review 5. A Peek into Pandora's Box: COVID-19 and Neurodegeneration.

Authors: Abhishek Chandra; Ashu Johri
Journal: Brain Sci Date: 2022-01-30

6. Targeted Down Regulation Of Core Mitochondrial Genes During SARS-CoV-2 Infection.

Authors: Joseph W Guarnieri; Joseph M Dybas; Hossein Fazelinia; Man S Kim; Justin Frere; Yuanchao Zhang; Yentli Soto Albrecht; Deborah G Murdock; Alessia Angelin; Larry N Singh; Scott L Weiss; Sonja M Best; Marie T Lott; Henry Cope; Viktorija Zaksas; Amanda Saravia-Butler; Cem Meydan; Jonathan Foox; Christopher Mozsary; Yared H Kidane; Waldemar Priebe; Mark R Emmett; Robert Meller; Urminder Singh; Yaron Bram; Benjamin R tenOever; Mark T Heise; Nathaniel J Moorman; Emily A Madden; Sharon A Taft-Benz; Elizabeth J Anderson; Wes A Sanders; Rebekah J Dickmander; Victoria K Baxter; Stephen B Baylin; Eve Syrkin Wurtele; Pedro M Moraes-Vieira; Deanne Taylor; Christopher E Mason; Jonathan C Schisler; Robert E Schwartz; Afshin Beheshti; Douglas C Wallace
Journal: bioRxiv Date: 2022-02-22