Parvanendhu Pradeep scite author profile

Parvanendhu Pradeep

4Publications

21Citation Statements Received

204Citation Statements Given

How they've been cited

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188

198

Affiliations

University of Kerala, Rajiv Gandhi Centre for Biotechnology, University of Michigan–Ann Arbor

Publications

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Dihydrotestosterone Inhibits Granulosa Cell Proliferation by Decreasing the Cyclin D2 mRNA Expression and Cell Cycle Arrest at G1 Phase

Pradeep

Peegel

et al. 2002

Endocrinology

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Hyperandrogenism is known to perturb ovarian physiology resulting in anovulatory conditions. In the ovary, androgens produced by theca-interstitial cells are converted to estrogens in granulosa cells under the influence of FSH and LH. In some of the target organs, including the ovary, androgens are also converted into their 5alpha reduced metabolites. In the present study, we examined the molecular mechanism by which dihydrotestosterone (DHT), a 5alpha reduced metabolite of testosterone, mediates the inhibition of granulosa cell proliferation, using a rat model. Immature female rats were primed with estradiol, followed by DHT administration for 2 d and granulosa cells were cultured in the presence or absence of forskolin. Granulosa cells from the DHT-treated rats showed reduced [(3)H]thymidine incorporation into DNA and reduced cell number in response to forskolin stimulation, compared with control. The decreased responsiveness of DHT-treated granulosa cells to forskolin was not due to increased apoptosis because the expression of cleaved caspase 3 remained the same in both control and DHT-exposed granulosa cells stimulated with forskolin. Forskolin treatment stimulated the expression of cyclin D2 mRNA in control granulosa cells, whereas DHT treatment abolished this response. In vitro DHT treatment of granulosa cells for 48 h resulted in a cell cycle arrest with 70% of cells at G1 phase and 26% at S phase, and control cells exhibited a distribution of 42% and 55% at G1 and S phase, respectively. In conclusion, the present study shows that DHT inhibits the granulosa cell proliferation through a decrease in cyclin D2 mRNA expression, which leads to cell cycle arrest at the G1 phase.

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Targeting cap-dependent translation to inhibit Chikungunya virus replication: selectivity of p38 MAPK inhibitors to virus-infected cells due to autophagy-mediated down regulation of phospho-ERK

Mudaliar

Pradeep

Abraham

et al. 2021

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The 5′ capped, message-sense RNA genome of Chikungunya virus (CHIKV) utilizes the host cell machinery for translation. Translation is regulated by eIF2 alpha at the initiation phase and by eIF4F at cap recognition. Translational suppression by eIF2 alpha phosphorylation occurs as an early event in many alphavirus infections. We observe that in CHIKV-infected HEK293 cells, this occurs as a late event, by which time the viral replication has reached an exponential phase, implying its minimal role in virus restriction. The regulation by eIF4F is mediated through the PI3K-Akt-mTOR, p38 MAPK and RAS-RAF-MEK-ERK pathways. A kinetic analysis revealed that CHIKV infection did not modulate AKT phosphorylation, but caused a significant reduction in p38 MAPK phosphorylation. It caused degradation of phospho-ERK 1/2 by increased autophagy, leaving the PI3K-Akt-mTOR and p38 MAPK pathways for pharmacological targeting. mTOR inhibition resulted in moderate reduction in viral titre, but had no effect on CHIKV E2 protein expression, indicating a minimal role of the mTOR complex in virus replication. Inhibition of p38 MAPK using SB202190 caused a significant reduction in viral titre and CHIKV E2 and nsP3 protein expression. Furthermore, inhibiting the two pathways together did not offer any synergism, indicating that inhibiting the p38 MAPK pathway alone is sufficient to cause restriction of CHIKV replication. Meanwhile, in uninfected cells the fully functional RAS-RAF-MEK-ERK pathway can circumvent the effect of p38 MAPK inhibition on cap-dependent translation. Thus, our results show that host-directed antiviral strategies targeting cellular p38 MAPK are worth exploring against Chikungunya as they could be selective against CHIKV-infected cells with minimal effects on uninfected host cells.

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Role of UBP43 as a host restriction factor during Chikungunya infection

Pradeep

Nair

Sreekumar

2020

International Journal of Infectious Diseases

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Host Factor Nucleophosmin 1 (NPM1/B23) Exerts Antiviral Effects against Chikungunya Virus by Its Interaction with Viral Nonstructural Protein 3

2023

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