Madhyastha Harishkumar scite author profile

Madhyastha Harishkumar

4Publications

3Citation Statements Received

88Citation Statements Given

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Affiliations

University of Miyazaki, K S Hegde Medical Academy

Publications

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Insight into OroxylinA-7-O-β-d-Glucuronide-Enriched Oroxylum indicum Bark Extract in Oral Cancer HSC-3 Cell Apoptotic Mechanism: Role of Mitochondrial Microenvironment

et al. 2021

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Oroxylum indicum, of the Bignoniaceae family, has various ethnomedical uses such as an astringent, anti-inflammatory, anti-bronchitis, anti-helminthic and anti-microbial, including anticancer properties. The druggability of OI stem bark extract was determined by its molecular docking interactions with PARP and Caspase-3, two proteins involved in cell survival and death. Note that 50 µg/mL of Oroxylum indicum extract (OIE) showed a significant (p < 0.05%) toxicity to HSC-3 cells. MTT aided cell viability and proliferation assay demonstrated that 50 µg/mL of OIE displayed significant (p < 0.5%) reduction in cell number at 4 h of incubation time. Cell elongation and spindle formation was noticed when HSC-3 cells were treated with 50 µg/mL of OIE. OIE initiated DNA breakage and apoptosis in HSC-3 cells, as evident from DNA ladder assay and calcein/EB staining. Apoptosis potential of OIE is confirmed by flow cytometer and triple-staining (live cell/apoptosis/necrosis) assay. Caspase-3/7 fluorescence quenching (LANCE) assay demonstrated that 50 µg/mL of OIE significantly enhanced the RFU of caspases-3/7, indicating that the apoptosis potential of OIE is probably through the activation of caspases. Immuno-cytochemistry of HSC-3 cells treated with 50 µg/mL of OIE showed a significant reduction in mitochondrial bodies as well as a reduction in RFU in 60 min of incubation time. Immunoblotting studies clearly showed that treatment of HSC-3 cells with OI extract caused caspase-3 activation and PARP deactivation, resulting in apoptotic cell death. Overall, our data indicate that OIE is an effective apoptotic agent for human squamous carcinoma cells and it could be a future cancer chemotherapeutic target.

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Oroxylum indicum stem bark extract exerts antitumor potential against Ehrlich’s ascites carcinoma in Swiss albino mice

K.P.¹,

Shetty²,

N³

et al. 2022

Biomedicine

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Introduction and Aim: Constant efforts are exerted to explore unique bioactive principles from natural sources that possess more effective and specific antineoplastic activities. In the present study, we aimed to evaluate the antitumor activity of stem bark extract of Oroxylum indicum in mice bearing Ehrlich ascites carcinoma (EAC).Materials and Methods: Ninety female Swiss albino mice were categorized into fifteen groups (n=6). The animals were inoculated with 1x10 6 EAC cells. Tumor control animals received sterile water once daily for 10 consecutive days. Positive control group was injected with Cisplatin (CP) (one dose -3.5 mg/kg body weight). The treatment groups were administered with O. indicum (OI) stem bark ethanol extract once daily with 50mg/kg, 200mg/kg and 400mg/kg body weight for eleven consecutive days. The blood parameters and serum hepatic enzymes activity was determined. The percentage increase in weight, the median survival time, the increase in median life span was calculated. The cytotoxic effect of CP and OI extract was determined.Results: There was significant reduction in the white blood cells count in OI and CP treatment group compared to increased level in EAC control group. The RBC count and Hemoglobin level which was significantly decreased (p<0.05) in the tumour mice, was enhanced in the drug treatment groups. The EAC control group showed significant increase in tumour cell count (p<0.05) whereas, treatment of EAC tumor bearing mice with OI and CP significantly increased the non-viable tumor cell count (p<0.05). Conclusion:OI stem bark ethanol extract reduced the toxic implications of Ehrlich ascites carcinoma, reverted the hematological and biochemical changes induced by tumour. These results call for additional research on isolating and identifying the responsible bioactive elements in order to clarify the underlying processes of the anticancer impact.

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Potential of Nanoparticles as Next Generation Therapeutics in Tissue Regeneration

Madhyastha¹,

Harishkumar²,

Nakajima³

et al. 2022

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Appraisal of Organic and Inorganic Nanomaterials in Cellular Microenvironment

Tank¹,

Raghav²,

Madhyastha³

et al. 2021

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