Pravesh Regmi scite author profile

Our previous study showed that cells from medically important arthropods, such as ticks, secrete extracellular vesicles (EVs) including exosomes that mediate transmission of flavivirus RNA and proteins to the human cells. Understanding the molecular determinants and mechanism(s) of arthropod-borne flavivirus transmission via exosome biogenesis is very important. In this current study, we showed that in the presence of tick-borne Langat Virus (LGTV; a member of tick-borne encephalitis virus complex), the expression of arthropod IsSMase, a sphingomyelinase D (SMase D) that catalyzes the hydrolytic cleavage of substrates like sphingomyelin (SM) lipids, was significantly reduced in both Ixodes scapularis ticks (in vivo) and in tick cells (in vitro). The IsSMase reduced levels correlated with down-regulation of its activity upon LGTV replication in tick cells. Our data show that LGTV-mediated suppression of IsSMase allowed accumulation of SM lipid levels that supported membrane-associated viral replication and exosome biogenesis. Inhibition of viral loads and SM lipid built up upon GW4869 inhibitor treatment reversed the IsSMase levels and restored its activity. Our results suggest an important role for this spider venomous ortholog IsSMase in regulating viral replication associated with membrane-bound SM lipids in ticks. In summary, our study not only suggests a novel role for arthropod IsSMase in tick-LGTV interactions but also provides new insights into its important function in vector defense mechanism(s) against tick-borne virus infection and in anti-viral pathway(s).

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Identification of Candida species using CHROM agar.

Khadka¹,

Regmi²,

Giri³

et al. 2016

IJMBioS

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Background: Candida is the part of normal microbial flora of human body that potentially causes disease in the immune compromised host. Though C. albicans is regarded as most virulent species, non- albicans Candida are increasingly being reported in clinical samples which warrant their accurate identification that helps in directing the effective use of antifungal agents. Methods: The study was done in clinical isolates of Candida species obtained at clinical laboratory, Nobel Hospital, Kathmandu from the period of May 2014 to April 2015. Phenotypic characterization was based on the observation of growth characteristic on Sabouraud’s Dextrose Agar, Grams’ staining, germ tube formation and characteristics appearance in CHROMagar. Results: A total of 51 isolates were identified as Candida species. C. albicans (64.7%) predominated non albicans Candida (35.3%). The majority of non albicans Candida were C. tropicalis. Germ tube formation test was positive for all C. albicans which produced light green color in CHROM agar. Conclusion: CHROM agar can be routinely used to identify different Candida species from clinical samples.

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Immune response to COVID-19 vaccines in people with immunodeficiencies

Ricotta¹,

Zendt²,

Castillo³

et al. 2023

Preprint

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COVID-19 vaccine research in immune-deficient/disordered people (IDP) has primarily focused on cancer and organ transplantation populations. We followed 195 IDP with varied immune disorders and 35 healthy volunteers (HV) from April 2021-April 2022. Anti-spike IgG and angiotensin-converting enzyme 2 pseudo-neutralization were measured though six months post-dose 3. Anti-spike IgG was detected in 93% of IDP by six months post-dose 3. IgG dynamics in IDP and HV were similar, though median IgG levels for IDP were <33% of HV at all timepoints. IgG concentrations were lower against Omicron BA.1 than other variants at all timepoints. Pseudo-neutralization capacity was modestly correlated with anti-spike IgG concentration, but was especially low for Omicron BA.1. Post-vaccination adverse events were minimal. Results were largely unaffected by participants’ immunomodulatory medication and treatments. COVID-19 vaccines are safe, induce anti-spike IgG in most IDP, and should be more strongly recommended for people with immunodeficiencies.

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Role of Ixodes scapularis Sphingomyelinase-Like Protein (IsSMase) in Tick Pathogen Interactions

Regmi¹

2020

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Pravesh Regmi

Tick-Borne Flavivirus Inhibits Sphingomyelinase (IsSMase), a Venomous Spider Ortholog to Increase Sphingomyelin Lipid Levels for Its Survival in Ixodes scapularis Ticks

Identification of Candida species using CHROM agar.

Immune response to COVID-19 vaccines in people with immunodeficiencies

Role of Ixodes scapularis Sphingomyelinase-Like Protein (IsSMase) in Tick Pathogen Interactions

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