Tyler Lalonde scite author profile

With the current trajectory of the 2019‐nCoV outbreak unknown, public health and medicinal measures will both be needed to contain spreading of the virus and to optimize patient outcomes. Although little is known about the virus, an examination of the genome sequence shows strong homology with its better‐studied cousin, SARS‐CoV. The spike protein used for host cell infection shows key nonsynonymous mutations that might hamper the efficacy of previously developed therapeutics but remains a viable target for the development of biologics and macrocyclic peptides. Other key drug targets, including RNA‐dependent RNA polymerase and coronavirus main proteinase (3CLpro), share a strikingly high (>95 %) homology to SARS‐CoV. Herein, we suggest four potential drug candidates (an ACE2‐based peptide, remdesivir, 3CLpro‐1 and a novel vinylsulfone protease inhibitor) that could be used to treat patients suffering with the 2019‐nCoV. We also summarize previous efforts into drugging these targets and hope to help in the development of broad‐spectrum anti‐coronaviral agents for future epidemics.

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Learning from the Past: Possible Urgent Prevention and Treatment Options for Severe Acute Respiratory Infections Caused by 2019-nCoV

Morse¹,

Lalonde²,

Xu³

et al. 2020

Preprint

183

254

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With the current trajectory of the 2019-nCoV outbreak unknown, public health and medicinal measures will both be needed to contain spreading of the virus and to optimize patient outcomes. While little is known about the virus, an examination of the genome sequence shows strong homology with its more well-studied cousin, SARS-CoV. The spike protein used for host cell infection shows key nonsynonymous mutations which may hamper efficacy of previously developed therapeutics but remains a viable target for the development of biologics and macrocyclic peptides. Other key drug targets, including RdRp and 3CLpro, share a strikingly high (>95%) homology to SARS-CoV. Herein, we suggest 4 potential drug candidates (an ACE2-based peptide, remdesivir, 3CLpro-1 and a novel vinylsulfone protease inhibitor) that can be used to treat patients suffering with the 2019-nCoV. We also summarize previous efforts into drugging these targets and hope to help in the development of broad spectrum anti-coronaviral agents for future epidemics.

show abstract

Learning from the Past: Possible Urgent Prevention and Treatment Options for Severe Acute Respiratory Infections Caused by 2019-nCoV

Morse¹,

Lalonde²,

Xu³

et al. 2020

Preprint

View full text Add to dashboard Cite

show abstract

Evidence Supporting a Role for the Blood-Cerebrospinal Fluid Barrier Transporting Circulating Ghrelin into the Brain

et al. 2018

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The stomach-derived hormone ghrelin mainly acts in the brain. Studies in mice have shown that the accessibility of ghrelin into the brain is limited and that it mainly takes place in some circumventricular organs, such as the median eminence. Notably, some known brain targets of ghrelin are distantly located from the circumventricular organs. Thus, we hypothesized that ghrelin could also access the brain via the blood-cerebrospinal fluid (CSF) barrier, which consists of the choroid plexus and the hypothalamic tanycytes. Using systemic injection of ghrelin or fluorescent-ghrelin in mice, we found that cells of the blood-CSF barrier internalize these molecules. In time-response studies, we found that peripherally injected fluorescent-ghrelin quickly reaches hypothalamic regions located in apposition to the median eminence and more slowly reaches the periventricular hypothalamic parenchyma, adjacent to the dorsal part of the third ventricle. Additionally, we found that CSF ghrelin levels increase after the systemic administration of ghrelin, and that central infusions of either an anti-ghrelin antibody, which immuno-neutralizes CSF ghrelin, or a scrambled version of ghrelin, which is also internalized by cells of the blood-CSF barrier, partially impair the orexigenic effect of peripherally injected ghrelin. Thus, current evidence suggests that the blood-CSF barrier can transport circulating ghrelin into the brain, and that the access of ghrelin into the CSF is required for its full orexigenic effect.

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Drug Repurposing for the SARS‐CoV‐2 Papain‐Like Protease

Cho

Lalonde

et al. 2021

ChemMedChem

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As the pathogen of COVID‐19, SARS‐CoV‐2 encodes two essential cysteine proteases that process the pathogen's two large polypeptide products pp1a and pp1ab in the human cell host to form 15 functionally important, mature nonstructural proteins. One of the two enzymes is papain‐like protease or PL Pro . It possesses deubiquitination and deISGylation activities that suppress host innate immune responses toward SARS‐CoV‐2 infection. To repurpose drugs for PL Pro , we experimentally screened libraries of 33 deubiquitinase and 37 cysteine protease inhibitors on their inhibition of PL Pro . Our results showed that 15 deubiquitinase and 1 cysteine protease inhibitors exhibit strong inhibition of PL Pro at 200 μM. More comprehensive characterizations revealed seven inhibitors GRL0617, SJB2‐043, TCID, DUB‐IN‐1, DUB‐IN‐3, PR‐619, and S130 with an IC 50 value below 40 μM and four inhibitors GRL0617, SJB2‐043, TCID, and PR‐619 with an IC 50 value below 10 μM. Among four inhibitors with an IC 50 value below 10 μM, SJB2‐043 is the most unique in that it does not fully inhibit PL Pro but has a noteworthy IC 50 value of 0.56 μM. SJB2‐043 likely binds to an allosteric site of PL Pro to convene its inhibition effect, which needs to be further investigated. As a pilot study, the current work indicates that COVID‐19 drug repurposing by targeting PL Pro holds promise, but in‐depth analysis of repurposed drugs is necessary to avoid omitting critical allosteric inhibitors.

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Tyler Lalonde

Learning from the Past: Possible Urgent Prevention and Treatment Options for Severe Acute Respiratory Infections Caused by 2019‐nCoV

Learning from the Past: Possible Urgent Prevention and Treatment Options for Severe Acute Respiratory Infections Caused by 2019-nCoV

Learning from the Past: Possible Urgent Prevention and Treatment Options for Severe Acute Respiratory Infections Caused by 2019-nCoV

Evidence Supporting a Role for the Blood-Cerebrospinal Fluid Barrier Transporting Circulating Ghrelin into the Brain

Drug Repurposing for the SARS‐CoV‐2 Papain‐Like Protease

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