Robert M Schilke scite author profile

The on-going coronavirus disease 2019 (COVID-19) pandemic has mobilized a global effort to develop vaccines and therapeutics that inhibit viral entry by inducing or transferring antibodies against the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike glycoprotein (CoV2-S). Phase I/II vaccine clinical trials, monoclonal antibodies, and convalescent sera have all shown promise. However, these efforts often require extensive screening with the live virus under onerous high biocontainment conditions (BSL-3). Virus neutralization assays (VNAs) remain the gold standard for evaluating the anti-viral potency of antibodies and entry inhibitors. The proliferation of pseudotyped virus systems that can be used in BSL-2 compatible VNAs is a positive development. Yet, there is marked variability between VNAs and how the findings are presented, making inter-group comparisons difficult. To address these limitations, we developed a standardized VNA using VSVdeltaG based CoV-2-S pseudotyped particles (CoV2pp) that can be robustly produced at scale. We used our CoV2pp to interrogate the role of exogenous and endogenous proteases in CoV-2-S mediated entry and standardized our VNA based on that understanding. Our CoV2pp VNA showed a strong positive correlation with CoV2-S ELISA and live virus neutralizations in a validated set of patient sera. Our system was subsequently validated by three independent groups as an out-of-the-box VNA. More than 120 patient sera were screened, and we report descriptive statistics for absolute (abs) IC50, IC80, and IC90 values from all positive patient sera. Lastly, we used our CoV2pp in a screen to identify ultrapermissive 293T clones that stably express ACE2 or ACE2+TMPRSS2. When used in combination with our CoV2pp, we can now produce CoV2pp sufficient for 150,000 standardized VNA/week.

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Alpha-1-antitrypsin and its variant-dependent role in COVID-19 pathogenesis

Oguntuyo

Stevens

Siddiquey

et al. 2020

Preprint

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Entry of SARS-CoV-2 is facilitated by endogenous and exogenous proteases. These proteases proteolytically activate the SARS-CoV-2 spike glycoprotein and are key modulators of virus tropism. We show that SARS-CoV-2 naïve serum exhibits significant inhibition of SARS-CoV-2 entry. We identify alpha-1-antitrypsin (AAT), and to a lesser degree, alpha-2-macroglobulin (A2M) as highly abundant serum protease inhibitors that potently restrict protease-mediated entry of SARS-CoV-2. AAT inhibition of protease-mediated SARS-CoV-2 entry in vitro occurs at concentrations far below what is present in serum and bronchoalveolar tissues, suggesting that AAT effects are physiologically relevant. Moreover, AAT mutations that have been characterized to affect abundance or function are highly prevalent. In addition to the effects that AAT may have on viral entry itself, we argue that the anti-inflammatory and coagulation regulatory activity of AAT have implications for coronavirus disease 2019 (COVID-19) pathogenicity, SARS-CoV-2 tissue restriction, convalescent plasma therapies, and even potentially AAT therapy.

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Quantifying Absolute Neutralization Titers against SARS-CoV-2 by a Standardized Virus Neutralization Assay Allows for Cross-Cohort Comparisons of COVID-19 Sera

Oguntuyo

Stevens

Hung

et al. 2021

mBio

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The global coronavirus disease 2019 (COVID-19) pandemic has mobilized efforts to develop vaccines and antibody-based therapeutics, including convalescent-phase plasma therapy, that inhibit viral entry by inducing or transferring neutralizing antibodies (nAbs) against the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike glycoprotein (CoV2-S). However, rigorous efficacy testing requires extensive screening with live virus under onerous biosafety level 3 (BSL3) conditions, which limits high-throughput screening of patient and vaccine sera. Myriad BSL2-compatible surrogate virus neutralization assays (VNAs) have been developed to overcome this barrier. Yet, there is marked variability between VNAs and how their results are presented, making intergroup comparisons difficult. To address these limitations, we developed a standardized VNA using CoV2-S pseudotyped particles (CoV2pp) based on vesicular stomatitis virus bearing the Renilla luciferase gene in place of its G glycoprotein (VSVΔG); this assay can be robustly produced at scale and generate accurate neutralizing titers within 18 h postinfection. Our standardized CoV2pp VNA showed a strong positive correlation with CoV2-S enzyme-linked immunosorbent assay (ELISA) results and live-virus neutralizations in confirmed convalescent-patient sera. Three independent groups subsequently validated our standardized CoV2pp VNA (n > 120). Our data (i) show that absolute 50% inhibitory concentration (absIC50), absIC80, and absIC90 values can be legitimately compared across diverse cohorts, (ii) highlight the substantial but consistent variability in neutralization potency across these cohorts, and (iii) support the use of the absIC80 as a more meaningful metric for assessing the neutralization potency of a vaccine or convalescent-phase sera. Lastly, we used our CoV2pp in a screen to identify ultrapermissive 293T clones that stably express ACE2 or ACE2 plus TMPRSS2. When these are used in combination with our CoV2pp, we can produce CoV2pp sufficient for 150,000 standardized VNAs/week. IMPORTANCE Vaccines and antibody-based therapeutics like convalescent-phase plasma therapy are premised upon inducing or transferring neutralizing antibodies that inhibit SARS-CoV-2 entry into cells. Virus neutralization assays (VNAs) for measuring neutralizing antibody titers (NATs) are an essential part of determining vaccine or therapeutic efficacy. However, such efficacy testing is limited by the inherent dangers of working with the live virus, which requires specialized high-level biocontainment facilities. We therefore developed a standardized replication-defective pseudotyped particle system that mimics the entry of live SARS-CoV-2. This tool allows for the safe and efficient measurement of NATs, determination of other forms of entry inhibition, and thorough investigation of virus entry mechanisms. Four independent labs across the globe validated our standardized VNA using diverse cohorts. We argue that a standardized and scalable assay is necessary for meaningful comparisons of the myriad of vaccines and antibody-based therapeutics becoming available. Our data provide generalizable metrics for assessing their efficacy.

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Macrophage-Associated Lipin-1 Promotes β-Oxidation in Response to Proresolving Stimuli

Schilke

Blackburn

Rao

et al. 2020

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Macrophages reprogram their metabolism to promote appropriate responses. Proresolving macrophages primarily use fatty acid oxidation as an energy source. Metabolites generated during the catabolism of fatty acids aid in the resolution of inflammation and tissue repair, but the regulatory mechanisms that control lipid metabolism in macrophages are not fully elucidated. Lipin-1, a phosphatidic acid phosphatase that has transcriptional coregulator activity, regulates lipid metabolism in a variety of cells. In this current study, we show that lipin-1 is required for increased oxidative phosphorylation in IL-4 stimulated mouse (Mus musculus) macrophages. We also show that the transcriptional coregulatory function of lipin-1 is required for b-oxidation in response to palmitate (free fatty acid) and apoptotic cell (human) stimulation. Mouse bone marrow-derived macrophages lacking lipin-1 have a reduction in critical TCA cycle metabolites following IL-4 stimulation, suggesting a break in the TCA cycle that is supportive of lipid synthesis rather than lipid catabolism. Together, our data demonstrate that lipin-1 regulates cellular metabolism in macrophages in response to proresolving stimuli and highlights the importance of aligning macrophage metabolism with macrophage phenotype.

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Lipin-1 contributes to IL-4 mediated macrophage polarization

Chandran

Schilke

Blackburn

et al. 2019

Preprint

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ABSTRACTMacrophage responses contribute to a diverse array of pathologies ranging from infectious disease to sterile inflammation. Polarization of macrophages determines their cellular function within biological processes. Lipin-1 is a phosphatidic acid phosphatase in which its enzymatic activity contributes to macrophage pro-inflammatory responses. Lipin-1 also possesses transcriptional co-regulator activity and whether this activity is required for macrophage polarization is unknown. Using mice that lack only lipin-1 enzymatic activity or both enzymatic and transcriptional coregulator activities from myeloid cells, we investigated the contribution of lipin-1 transcriptional co-regulator function towards macrophage wound healing polarization. Macrophages lacking both lipin-1 activities did elicit IL-4 mediated gene expression to levels seen in either wild-type or lipin-1 enzymatically deficient macrophages. Furthermore, we provide evidence that the lack of myeloid-associated lipin-1 transcriptional co-regulator activity leads to impaired full thickness excisional wound healing. Our study demonstrates that lipin-1 transcriptional co-regulatory activity contributes to macrophage polarization and the macrophage contribution to wound healing in vivo.

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Lipin-1 Contributes to IL-4 Mediated Macrophage Polarization

et al. 2020

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Macrophage responses contribute to a diverse array of pathologies ranging from infectious disease to sterile inflammation. Polarization of macrophages determines their cellular function within biological processes. Lipin-1 is a phosphatidic acid phosphatase in which its enzymatic activity contributes to macrophage pro-inflammatory responses. Lipin-1 also possesses transcriptional co-regulator activity and whether this activity is required for macrophage polarization is unknown. Using mice that lack only lipin-1 enzymatic activity or both enzymatic and transcriptional coregulator activities from myeloid cells, we investigated the contribution of lipin-1 transcriptional co-regulator function toward macrophage wound healing polarization. Macrophages lacking both lipin-1 activities did not elicit IL-4 mediated gene expression to levels seen in either wildtype or lipin-1 enzymatically deficient macrophages. Furthermore, mice lacking myeloidassociated lipin-1 have impaired full thickness excisional wound healing compared to wild-type mice or mice only lacking lipin-1 enzymatic activity from myeloid cell. Our study provides evidence that lipin-1 transcriptional co-regulatory activity contributes to macrophage polarization and influences wound healing in vivo.

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AAV8-mediated overexpression of mPCSK9 in liver differs between male and female mice

et al. 2018

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Myeloid-associated lipin-1 transcriptional co-regulatory activity is atheroprotective

et al. 2021

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Robert M Schilke

Quantifying absolute neutralization titers against SARS-CoV-2 by a standardized virus neutralization assay allows for cross-cohort comparisons of COVID-19 sera

Alpha-1-antitrypsin and its variant-dependent role in COVID-19 pathogenesis

Quantifying Absolute Neutralization Titers against SARS-CoV-2 by a Standardized Virus Neutralization Assay Allows for Cross-Cohort Comparisons of COVID-19 Sera

Macrophage-Associated Lipin-1 Promotes β-Oxidation in Response to Proresolving Stimuli

Lipin-1 contributes to IL-4 mediated macrophage polarization

Lipin-1 Contributes to IL-4 Mediated Macrophage Polarization

AAV8-mediated overexpression of mPCSK9 in liver differs between male and female mice

Myeloid-associated lipin-1 transcriptional co-regulatory activity is atheroprotective

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