Browsing by Author "Gaddam, Ravinder Reddy"
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Item Dynamin-Independent Mechanisms of Endocytosis and Receptor Trafficking(MDPI, 2022-08-18T00:00:00) Gundu, Chayanika; Arruri, Vijay Kumar; Yadav, Poonam; Navik, Umashanker; Kumar, Ashutosh; Amalkar, Veda Sudhir; Vikram, Ajit; Gaddam, Ravinder ReddyEndocytosis is a fundamental mechanism by which cells perform housekeeping functions. It occurs via a variety of mechanisms and involves many regulatory proteins. The GTPase dynamin acts as a �molecular scissor� to form endocytic vesicles and is a critical regulator among the proteins involved in endocytosis. Some GTPases (e.g., Cdc42, arf6, RhoA), membrane proteins (e.g., flotillins, tetraspanins), and secondary messengers (e.g., calcium) mediate dynamin-independent endocytosis. These pathways may be convergent, as multiple pathways exist in a single cell. However, what determines the specific path of endocytosis is complex and challenging to comprehend. This review summarizes the mechanisms of dynamin-independent endocytosis, the involvement of microRNAs, and factors that contribute to the cellular decision about the specific route of endocytosis. � 2022 by the authors.Item Methionine as a double-edged sword in health and disease: Current perspective and future challenges(Elsevier Ireland Ltd, 2021-10-25T00:00:00) Navik, Umashanker; Sheth, Vaibhav G.; Khurana, Amit; Jawalekar, Snehal Sainath; Allawadhi, Prince; Gaddam, Ravinder Reddy; Bhatti, Jasvinder Singh; Tikoo, KulbhushanMethionine is one of the essential amino acids and plays a vital role in various cellular processes. Reports advocate that methionine restriction and supplementation provide promising outcomes, and its regulation is critical for maintaining a healthy life. Dietary methionine restriction in houseflies and rodents has been proven to extend lifespan. Contrary to these findings, long-term dietary restriction of methionine leads to adverse events such as bone-related disorders, stunted growth, and hyperhomocysteinemia. Conversely, dietary supplementation of methionine improves hepatic steatosis, insulin resistance, inflammation, fibrosis, and bone health. However, a high level of methionine intake shows adverse effects such as hyperhomocysteinemia, reduced body weight, and increased cholesterol levels. Therefore, dietary methionine in a safe dose could have medicinal values. Hence, this review is aimed to provide a snapshot of the dietary role and regulation of methionine in the modulation of health and age-related diseases. � 2021 Elsevier B.V.Item Zebrafish as an emerging tool for drug discovery and development for thyroid diseases(Academic Press, 2022-09-06T00:00:00) Yadav, Poonam; Sarode, Lopmudra P.; Gaddam, Ravinder Reddy; Kumar, Puneet; Bhatti, Jasvinder Singh; Khurana, Amit; Navik, UmashankerZebrafish is a useful model for understanding human genetics and diseases and has evolved into a prominent scientific research model. The genetic structure of zebrafish is 70% identical to that of humans. Its small size, low cost, and transparent embryo make it a valuable tool in experimentation. Zebrafish and mammals possess the same molecular mechanism of thyroid organogenesis and development. Thus, thyroid hormone signaling, embryonic development, thyroid-related disorders, and novel genes involved in early thyroid development can all be studied using zebrafish as a model. Here in this review, we emphasize the evolving role of zebrafish as a possible tool for studying the thyroid gland in the context of physiology and pathology. The transcription factors nkx2.1a, pax2a, and hhex which contribute a pivotal role in the differentiation of thyroid primordium are discussed. Further, we have described the role of zebrafish as a model for thyroid cancer, evaluation of defects in thyroid hormone transport, thyroid hormone (TH) metabolism, and as a screening tool to study thyrotoxins. Hence, the present review highlights the role of zebrafish as a novel approach to understand thyroid development and organogenesis. � 2022 Elsevier Ltd