Rasika R. Hudlikar scite author profile

The current pandemic of coronavirus disease 2019 caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has presented unprecedented challenges to the healthcare systems in almost every country around the world. Currently, there are no proven effective vaccines or therapeutic agents against the virus. Current clinical management includes infection prevention and control measures and supportive care including supplemental oxygen and mechanical ventilatory support. Evolving research and clinical data regarding the virologic SARS-CoV-2 suggest a potential list of repurposed drugs with appropriate pharmacological effects and therapeutic efficacies in treating COVID-19 patients. In this review, we will update and summarize the most common and plausible drugs for the treatment of COVID-19 patients. These drugs and therapeutic agents include antiviral agents (remdesivir, hydroxychloroquine, chloroquine, lopinavir, umifenovir, favipiravir, and oseltamivir), and supporting agents (Ascorbic acid, Azithromycin, Corticosteroids, Nitric oxide, IL-6 antagonists), among others. We hope that this review will provide useful and most updated therapeutic drugs to prevent, control, and treat COVID-19 patients until the approval of vaccines and specific drugs targeting SARS-CoV-2.

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Understanding the molecular mechanisms of cancer prevention by dietary phytochemicals: From experimental models to clinical trials

Maru

Hudlikar

Kumar

et al. 2016

WJBC

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Pharmacokinetics, Pharmacodynamics, and PKPD Modeling of Curcumin in Regulating Antioxidant and Epigenetic Gene Expression in Healthy Human Volunteers

Cheng

Wang

et al. 2019

Mol. Pharmaceutics

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Curcumin is a major component of the spice, turmeric (Curcuma longa) often used in food or as a dietary supplement. Many preclinical studies on curcumin suggests benefit in many diseases due to its antioxidant and epigenetic effects. The few human studies and curcumin's unfavorable pharmacokinetics (PK) have limited its potential, leading researchers to study and develop formulations to improve its PK. The purpose of this clinical study is to describe the pharmacokinetics and pharmacodynamics (PK/PD) of commercially marketed curcumin in normal, healthy human volunteers. Twelve volunteers received 4 g of curcumin capsules with standard breakfast. Plasma samples were collected at specified timepoints and analyzed for curcumin levels. RNA was extracted and analyzed for expression of select antioxidant and epigenetic histone deacetylase (HDAC) genes. Plasma levels of parent curcumin were not detected by HPLC‐ITMS/MS/MS. However, curcumin glucuronide, a major metabolite of curcumin, was detected as soon as 30 min. These observations of little to no curcumin and low levels of metabolite are in line with previous studies. Antioxidant genes Nrf2, HO‐1, NQO1, and HDAC1, HDAC2, HDAC3, and HDAC4 were quantified by qPCR. Curcumin glucuronide pharmacokinetics are well‐described by a one‐compartment model and the PK/PD of curcumin glucuronide and its effect on antioxidant and epigenetic gene expression are explained by indirect response model (IDR). Increasing AUC or exposure to curcumin glucuronide was correlated with overall PD response. Physiologically based pharmacokinetic modeling (PBPK) and simulation using Simcyp correlated well with our observed data in the human volunteers. In vitro experiments on curcumin glucuronide in HepG2C8 cells also show that Nrf2‐ARE luciferase activity increases after 24‐hour treatment. These results show that poor bioavailability of curcumin remains a challenge but that oral administration of curcumin delivers detectable levels of curcumin glucuronide and may mediate the antioxidant and epigenetic effects of curcumin. Support or Funding Information Grant: This work was supported in part by institutional funds and R01AT007065 from the National Center for Complementary and Alternative Medicines (NCCAM) and the Office of Dietary Supplements (ODS). This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.

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UVB drives different stages of epigenome alterations during progression of skin cancer

Yang

Sargsyan

et al. 2019

Cancer Letters

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Exposure to ultraviolet B (UVB) irradiation results in multitude of cellular responses including generation of reactive oxygen species and DNA damage and is responsible for non-melanoma skin cancers (NMSCs). Although genetic mutation is well documented, the epi-mutation, the alteration in epigenetics, remains elusive. In this study, we utilized CpG Methyl-seq to identify a genomewide DNA CpG methylation, to profile the DNA methylation in UVB-irradiated SKH-1 mouse skin epidermis and non-melanoma skin papillomas at various stages. Methyl-seq and RNA-seq were performed to examine the methylation and corresponding transcriptome alterations. The methylation profiles in mouse epidermis were altered by UVB-irradiation as time progresses. Ingenuity Pathways Analysis (IPA) identified many cancer related pathways including PTEN, p53, Nrf2 and inflammatory signaling in UVB-irradiation induced carcinogenesis. Additionally, some novel genes involved in skin carcinogenesis that were not previously reported were differentially methylated, including Enf2, Mgst2, Vegfa, and Cdk4. Taken together, the current study provides novel profiles and insights of methylation and transcriptomic changes at different stages of

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