Moscow Institute of Steel & Alloys

A review.COVID-19 pandemic has affected the fabric of the world: health system, travel, living and working styles, and economy.Furthermore, it has also severely impacted the previously on-going global efforts to reduce the use of plastic waste.During the period of the whole COVID-19, the sustainable measures and products adopted for the conservation of our land and marine ecosystem are being neglected or at the very least, kept on hold.The use of plastic-based personal protective equipment (PPEs) and sanitizers by health-care professionals and the public has led to a huge surge in a plastic waste generation without any plans to mitigate its severity.It is vital to understand the impact of this problem and find the possible solutionsThe sudden escalation in medical plastic waste makes it difficult to follow the protocol of medical plastic waste handling in the civic waste management system.In this article all plastic waste management issues faced globally, especially in the developing world, have been highlighted.Moreover, in the end, some possible solutions have been recommended for the safe handling of plastic wastes in the civic society such as plastic waste management system, the use of artificial intelligence from generation to disposal, etc.In addition, the steps to produce a zero waste society have been recommended.This study emphasizes not only government institutes and technol. centers but also on the common citizens to make a sustainable civic society.

The leading form of cancer affecting females globally is breast cancer, characterized by an unregulated growth of cells within the breast. Therefore, examining breast tissue is crucial in accurately identifying and treating this disease. Exosomes are very small enclosures bounded by a layer of cells and produced by a variety of cells present in the cancerous tissue surroundings. They play a crucial role in several biological functions in cancerous tumors. These exosomes carry non-coding RNAs (ncRNAs) and are discharged into the TME, where they are instrumental in the development and advancement of tumors. Additionally, the ncRNAs enclosed in exosomes act as significant mediators of communication within cells. Consequently, there is limited comprehension regarding the precise roles and targets of exosomal RNA in regulation, as research in this area is still in its preliminary phases. This piece provides a comprehensive overview of the latest studies on exosomes, delving into their impact on the behavior of cancer cells and immune cells. Moreover, it presents a compilation of the diverse forms of non-coding RNA molecules found in exosomes released by both cancerous and supportive cells, including circular RNAs, microRNAs, and long non-coding RNAs. Current research has proven the noteworthy influence that non-coding RNA molecules have on the progression, proliferation, drug resistance, and immune responses of breast cancer cells.

The Hippo signaling pathway is a pivotal regulator of tissue homeostasis, organ size, and cell proliferation. Its dysregulation is profoundly implicated in various forms of cancer, making it a highly promising target for therapeutic intervention. This review extensively evaluates the mechanisms underlying the dysregulation of the Hippo pathway in cancer cells and the molecular processes linking these alterations to tumorigenesis. Under normal physiological conditions, the Hippo pathway is a guardian, ensuring controlled cellular proliferation and programmed cell death. However, numerous mutations and epigenetic modifications can disrupt this equilibrium in cancer cells, leading to unchecked cell proliferation, enhanced survival, and metastatic capabilities. The pathway's interaction with other critical signaling networks, including Wnt/β-catenin, PI3K/Akt, TGF-β/SMAD, and EGFR pathways, further amplifies its oncogenic potential. Central to these disruptions is the activation of YAP and TAZ transcriptional coactivators, which drive the expression of genes that promote oncogenesis. This review delves into the molecular mechanisms responsible for the dysregulation of the Hippo pathway in cancer, elucidating how these disruptions contribute to tumorigenesis. We also explore potential therapeutic strategies, including inhibitors targeting YAP/TAZ activity and modulators of upstream signaling components. Despite significant advancements in understanding the Hippo pathway's role in cancer, numerous questions remain unresolved. Continued research is imperative to unravel the complex interactions within this pathway and to develop innovative and effective therapies for clinical application. In conclusion, the comprehensive understanding of the Hippo pathway's regulatory mechanisms offers significant potential for advancing cancer therapies, regenerative medicine, and treatments for chronic diseases. The translation of these insights into clinical practice will necessitate collaborative efforts from researchers, clinicians, and pharmaceutical developers to bring novel and effective therapies to patients, ultimately improving clinical outcomes and advancing the field of oncology.