Gopal Pande scite author profile

The success of an implant used for bone regeneration and repair is determined by the events that take place at the cell-material interface. An understanding of these interactions in vitro gives insights into the formulation of ideal conditions for their effective functioning in vivo. Thus, it is not only important to understand the physico-chemical properties of the materials but, also necessary to assess the cellular responses to them to determine their long-term stability and efficacy as implants. In the present study, we have compared the physico-chemical and biological properties of titanium (Ti) and two Ti-based alloys, namely: Ti- Zirconium (TiZr) and Ti-Niobium (TiNb). The morphology, chemical analysis, surface roughness, and contact angle measurements of the alloys were assessed by scanning electron microscopy (SEM), X-ray photoelectron spectroscopy (XPS), profilometer, and contact angle goniometer, respectively whereas the biological properties of the materials were evaluated by measuring the adhesion, proliferation, and differentiation of MC3T3-E1 osteoblast cells on the surfaces of these alloys. Our results indicate that the biological properties of osteoblasts were better on TiZr surface than on TiNb surface. Furthermore, the surface energy and substrate composition influenced the superior biological activity of the TiZr alloy.

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Human fetal liver derived stem cell transplantation as supportive modality in the management of end stage decompensated liver cirrhosis

Khan

et al. 2010

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Liver transplantation is the only existing modality for treating decompensated liver cirrhosis. Several factors, such as nonavailability of donors, combined with operative risks, complications associated with rejection, usage of immunosuppressive agents, and cost intensiveness, make this strategy available to only a few people. With a tremendous upsurge in the mortality rate of patients with liver disorders worldwide, there is a need to search for an alternative therapeutic tool that can combat the above limitations and serve as a supportive therapy in the management of liver diseases. Cell therapy using human fetal liver-derived stem cells can provide great potential to conservatively manage end-stage liver diseases. Therefore, the present investigation aimed to study and prove the safety and efficacy of human fetal liver-derived stem cell transplantation in patients with end-stage liver cirrhosis. Twenty-five patients with liver cirrhosis of different etiologies were infused with human fetal liver-derived stem cells (EpCAM+ve) labeled with Tc-HMPAO through hepatic artery. Our high throughput analysis using flow cytometry, RT-PCR, and cellular characterization exemplifies fetal liver cells with their high proliferation rate could be the best source for rejuvenating the diseased liver. Further, no episodes related to hepatic encephalopathy recurred in any of the subjects following hepatic stem cell transplantation. There was marked clinical improvement observed in terms of all clinical and biochemical parameters. Further, there was decrease in mean MELD score (p < 0.01) observed in 6 months follow-up in all patients. Therapy using human fetal liver stem/progenitor cells offers a potentially supportive modality to organ transplantation in the management of liver diseases.

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Cholesterol Biosynthesis and Homeostasis in Regulation of the Cell Cycle

et al. 2013

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The cell cycle is a ubiquitous, multi-step process that is essential for growth and proliferation of cells. The role of membrane lipids in cell cycle regulation is not explored well, although a large number of cytoplasmic and nuclear regulators have been identified. We focus in this work on the role of membrane cholesterol in cell cycle regulation. In particular, we have explored the stringency of the requirement of cholesterol in the regulation of cell cycle progression. For this purpose, we utilized distal and proximal inhibitors of cholesterol biosynthesis, and monitored their effect on cell cycle progression. We show that cholesterol content increases in S phase and inhibition of cholesterol biosynthesis results in cell cycle arrest in G1 phase under certain conditions. Interestingly, G1 arrest mediated by cholesterol biosynthesis inhibitors could be reversed upon metabolic replenishment of cholesterol. Importantly, our results show that the requirement of cholesterol for G1 to S transition is absolute, and even immediate biosynthetic precursors of cholesterol, differing with cholesterol merely in a double bond, could not replace cholesterol for reversing the cell cycle arrest. These results are useful in the context of diseases, such as cancer and Alzheimer’s disease, that are associated with impaired cholesterol biosynthesis and homeostasis.

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Exploring Endocytosis and Intracellular Trafficking of the Human Serotonin_1A Receptor

et al. 2019

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G protein-coupled receptors (GPCRs) represent the largest class of receptors involved in signal transduction across cell membranes and are major drug targets in all clinical areas. Endocytosis of GPCRs offers a regulatory mechanism for sustaining their signaling within a stringent spatiotemporal regime. In this work, we explored agonist-induced endocytosis of the human serotonin1A receptor stably expressed in HEK-293 cells and the cellular machinery involved in receptor internalization and intracellular trafficking. The serotonin1A receptor is a popular GPCR implicated in neuropsychiatric disorders such as anxiety and depression and serves as an important drug target. In spite of its pharmacological relevance, its mechanism of endocytosis and intracellular trafficking is less understood. In this context, we have utilized a combination of robust population-based flow cytometric analysis and confocal microscopic imaging to address the path and fate of the serotonin1A receptor during endocytosis. Our results, utilizing inhibitors of specific endocytosis pathways and intracellular markers, show that the serotonin1A receptor undergoes endocytosis predominantly via the clathrin-mediated pathway and subsequently recycles to the plasma membrane via recycling endosomes. These results would enhance our understanding of molecular mechanisms of GPCR endocytosis and could offer novel insight into the underlying mechanism of antidepressants that act via the serotonergic pathway. In addition, our results could be relevant in understanding cell (or tissue)-specific GPCR endocytosis.

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Gopal Pande

Mg–Zr–Sr alloys as biodegradable implant materials

The influence of surface energy of titanium‐zirconium alloy on osteoblast cell functions in vitro

Human fetal liver derived stem cell transplantation as supportive modality in the management of end stage decompensated liver cirrhosis

Cholesterol Biosynthesis and Homeostasis in Regulation of the Cell Cycle

Exploring Endocytosis and Intracellular Trafficking of the Human Serotonin_1A Receptor

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Gopal Pande

Mg–Zr–Sr alloys as biodegradable implant materials

The influence of surface energy of titanium‐zirconium alloy on osteoblast cell functions in vitro

Human fetal liver derived stem cell transplantation as supportive modality in the management of end stage decompensated liver cirrhosis

Cholesterol Biosynthesis and Homeostasis in Regulation of the Cell Cycle

Exploring Endocytosis and Intracellular Trafficking of the Human Serotonin1A Receptor

Contact Info

Product

Resources

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Exploring Endocytosis and Intracellular Trafficking of the Human Serotonin_1A Receptor