Sarah Wheeler scite author profile

24The emergence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) 25 brought with it rapid development of both molecular and serologic assays for identification of 26 COVID-19 infections. While Food and Drug Administration (FDA) emergency use authorization 27 (EUA) is required for clinical application of SARS-CoV-2 molecular tests, submission for EUA 28 is currently a voluntary process for manufacturers of serologic assays. The absence of FDA 29 oversight of serologic tests is concerning, given that the commercially available serologic assays 30 are highly variable, differing in their format, the antibody class detected, the targeted antigen and 31 the acceptable specimen types. An added complication is the lack of a clear understanding for 32 how such assays should be utilized and what the reported results ultimately indicate, or perhaps 33 more importantly, what they do not indicate. Here, we provide a brief summary of the 34 performance of a number of serologic assays reported in the literature, comment on what we do 35 and do not know regarding our immune response to SARS-CoV-2, and provide a number of 36 scenarios for which serologic testing will play a role in during our global response to this 37 pandemic. 38 39 40 41

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Liver ‘organ on a chip’

Beckwitt

Clark

Wheeler

et al. 2018

Experimental Cell Research

188

189

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The liver plays critical roles in both homeostasis and pathology. It is the major site of drug metabolism in the body and, as such, a common target for drug-induced toxicity and is susceptible to a wide range of diseases. In contrast to other solid organs, the liver possesses the unique ability to regenerate. The physiological importance and plasticity of this organ make it a crucial system of study to better understand human physiology, disease, and response to exogenous compounds. These aspects have impelled many to develop liver tissue systems for study in isolation outside the body. Herein, we discuss these biologically engineered organoids and microphysiological systems. These aspects have impelled many to develop liver tissue systems for study in isolation outside the body. Herein, we discuss these biologically engineered organoids and microphysiological systems.

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Targeting tumor cell motility as a strategy against invasion and metastasis

Wells

Grahovac

Wheeler

et al. 2013

Trends in Pharmacological Sciences

182

154

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Advances in diagnosis and treatment have rendered most solid tumors largely curable if they are diagnosed and treated before dissemination. However, once they spread beyond the initial primary location, these cancers are usually highly morbid, if not fatal. Thus current efforts focus on both limiting initial dissemination and preventing secondary spread. There are two modes of tumor dissemination – invasion and metastasis – each leading to unique therapeutic challenges and likely driven by distinct mechanisms. However, these two forms of dissemination utilize some common strategies to accomplish movement from the primary tumor, establishment in an ectopic site, and survival therein. The adaptive behaviors of motile cancer cells provide an opening for therapeutic approaches if we understand the molecular, cellular, and tissue biology that underlie them. Herein we review the signaling cascades and organ reactions that lead to dissemination, as these are non-genetic in nature, focusing on cell migration as the key to tumor progression. In this context, the cellular phenotype will also be discussed because the modes of migration are dictated by quantitative and physical aspects of the cell motility machinery.

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SARS-CoV-2 growth, furin-cleavage-site adaptation and neutralization using serum from acutely infected hospitalized COVID-19 patients

et al. 2020

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Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the causative agent of coronavirus disease 2019 (COVID-19), emerged at the end of 2019 and by mid-June 2020 the virus had spread to at least 215 countries, caused more than 8 000 000 confirmed infections and over 450 000 deaths, and overwhelmed healthcare systems worldwide. Like severe acute respiratory syndrome coronavirus (SARS-CoV), which emerged in 2002 and caused a similar disease, SARS-CoV-2 is a betacoronavirus. Both viruses use human angiotensin-converting enzyme 2 (hACE2) as a receptor to enter cells. However, the SARS-CoV-2 spike (S) glycoprotein has a novel insertion that generates a putative furin cleavage signal and this has been postulated to expand the host range. Two low-passage (P) strains of SARS-CoV-2 (Wash1 : P4 and Munich : P1) were cultured twice in Vero E6 cells and characterized virologically. Sanger and MinION sequencing demonstrated significant deletions in the furin cleavage signal of Wash1 : P6 and minor variants in the Munich : P3 strain. Cleavage of the S glycoprotein in SARS-CoV-2-infected Vero E6 cell lysates was inefficient even when an intact furin cleavage signal was present. Indirect immunofluorescence demonstrated that the S glycoprotein reached the cell surface. Since the S protein is a major antigenic target for the development of neutralizing antibodies, we investigated the development of neutralizing antibody titres in serial serum samples obtained from COVID-19 human patients. These were comparable regardless of the presence of an intact or deleted furin cleavage signal. These studies illustrate the need to characterize virus stocks meticulously prior to performing either in vitro or in vivo pathogenesis studies.

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Sarah Wheeler

The Role of Antibody Testing for SARS-CoV-2: Is There One?

Liver ‘organ on a chip’

Targeting tumor cell motility as a strategy against invasion and metastasis

SARS-CoV-2 growth, furin-cleavage-site adaptation and neutralization using serum from acutely infected hospitalized COVID-19 patients

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