Alterations in Circadian Rhythms, Sleep, and Physical Activity in COVID-19: Mechanisms, Interventions, and Lessons for the Future.

Although the world is acquitting from the throes of COVID-19 and returning to the regularity of life, its effects on physical and mental health are prominently evident in the post-pandemic era. The pandemic subjected us to inadequate sleep and physical activities, stress, irregular eating patterns, and work hours beyond the regular rest-activity cycle. Thus, perturbing the synchrony of the regular circadian clock functions led to chronic psychiatric and neurological disorders and poor immunological response in several COVID-19 survivors. Understanding the links between the host immune system and viral replication machinery from a clock-infection biology perspective promises novel avenues of intervention. Behavioral improvements in our daily lifestyle can reduce the severity and expedite the convalescent stage of COVID-19 by maintaining consistent eating, sleep, and physical activity schedules. Including dietary supplements and nutraceuticals with prophylactic value aids in combating COVID-19, as their deficiency can lead to a higher risk of infection, vulnerability, and severity of COVID-19. Thus, besides developing therapeutic measures, perpetual healthy practices could also contribute to combating the upcoming pandemics. This review highlights the impact of the COVID-19 pandemic on biological rhythms, sleep-wake cycles, physical activities, and eating patterns and how those disruptions possibly contribute to the response, severity, and outcome of SARS-CoV-2 infection.

An Intimate Alliance of DNA-Damage Response Network with Cell-Cycle Checkpoints Amid Events of Uncontrolled Cellular Proliferation: A Mini- Review.

There is close interdependence between cell survival, cell senescence, events of the cell cycle, apoptosis, malignancy development, and tumor responses to cancer treatment. Intensive studies and elaborate researches have been conducted on the functional aspects of oncogenes, tumor suppressor genes, apoptotic genes, and members guiding cell cycle regulation. These disquisitions have put forward the existence of a highly organized response pathway termed as a DNA-damage response network. The pathways detecting DNA damage and signaling are intensively linked to the events of cell-cycle arrest, cell proliferation, apoptosis, and cell senescence. DNA damage responses are complex systems that incorporate specific "sensor" and "transducer" proteins, for assessment of damage and signal transmission, respectively. These signals are thereafter relayed upon various "effector" proteins involved in different cellular pathways. It may include those governing cell-cycle checkpoints, participating in DNA repair, cell senescence, and apoptosis. This review discusses the role of the tumour suppressor gene, oncogenes, cell cycle checkpoint regulators during DNA damage response and regulation.

Essential functional molecules associated with SARS-CoV-2 infection: Potential therapeutic targets for COVID-19.

The whole world is still suffering substantially from the coronavirus disease 2019 (COVID-19) outbreak. Several protein-based molecules that are associated with the Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), which are essential for its functionality, survival, and pathogenesis have been identified and are considered as potential therapeutic targets. These protein-based molecules are either structural/non-structural components of SARS-CoV-2 or host factors, which play a crucial role in this infection. Developing drug molecules against these essential functional molecules to hinder their regular functioning and associated physiological pathways could be promising for successful clinical management of this novel coronavirus infection. The review aims to highlight the functional molecules that play crucial roles in SARS-CoV-2 pathogenesis. We have emphasized how these potential druggable targets could be beneficial in tackling the COVID-19 crisis.

Formulation and antitumorigenic activities of nanoencapsulated nifetepimine: A promising approach in treating triple negative breast carcinoma.

Triple negative breast cancer (TNBC) is one of the most common invasive malignancies among women, associated with poor prognosis. Standard chemotherapy targets all dividing cells, resulting in dose-limiting toxicities. In this study, we demonstrated a strategy of encapsulating a hydrophobic synthetic compound, nifetepimine, having anticancer properties, in poly (lactic-co-glycolic acid) nanoparticles to increase selectivity of drug to cancerous cells with minimum toxicity towards normal cells. Nanoencapsulated nifetepimine (30-100nm) having loading and encapsulation efficiency of 7.45% and 75% respectively, was successfully internalized inside TNBC cells upon sustained release resulting in apoptosis. An in vivo bio-distribution study indicated that nanonifetepimine selectively accumulated into breast tumor sites of mice, primarily due to prolonged blood circulation time and binding of nifetepimine to epidermal growth factor receptor that remains overexpressed in most of the TNBC tumors. Moreover, we observed significant reduction in breast tumor volume with improved survival implying high tumor targetability of nanonifetepimine.

Blood brain barrier: a challenge for effectual therapy of brain tumors.

Brain tumors are one of the most formidable diseases of mankind. They have only a fair to poor prognosis and high relapse rate. One of the major causes of extreme difficulty in brain tumor treatment is the presence of blood brain barrier (BBB). BBB comprises different molecular components and transport systems, which in turn create efflux machinery or hindrance for the entry of several drugs in brain. Thus, along with the conventional techniques, successful modification of drug delivery and novel therapeutic strategies are needed to overcome this obstacle for treatment of brain tumors. In this review, we have elucidated some critical insights into the composition and function of BBB and along with it we have discussed the effective methods for delivery of drugs to the brain and therapeutic strategies overcoming the barrier.