Bhawana Bissa

• PhD
• Professor (Assistant) at Central University of Rajasthan

Glioblastoma (GBM) is one of the most debilitating and extremely aggressive tumors, with a median survival of less than a year. GBMs have high metastatic potential and frequently acquire chemoresistance. The current multimodal treatment approaches for GBM include surgical tumor resurrection, radiotherapy, and chemotherapy but these approaches leave...

Prostate cancer (PCa) is one of the burgeoning cancers worldwide. Of late, the number of cases in the Indian subcontinent has been doubling and the incidence as per the population-based cancer registries (PBCR) has increased at an alarming rate. In assessing the trends of PCa, there needs a statistical framework on incidence, comparing PBCRs vis-a-...

Homocysteine (Hcy), produced physiologically in all cells, is an intermediate metabolite of methionine and cysteine metabolism. Hyperhomocysteinemia (HHcy) resulting from an in-born error of metabolism that leads to accumulation of high levels of Hcy, is associated with vascular damage, neurodegeneration and cognitive decline. Using a HHcy model in...

Since its discovery a few decades ago, autophagy has been recognized as a crucial signaling pathway, linked to the recycling of cellular components in nutrient stress. Autophagy is a two-way sword, playing a dual role in tumorigenesis. In this catabolic process, dysfunctional organelles, biomolecules, and misfolded proteins are sequestered in the a...

Prostate cancer (PCa) is one of the most prevalent cancers among men in India. Although studies on PCa have dealt with genetics, genomics, and the environmental influence in the causality of PCa, not many studies employing the Next Generation Sequencing (NGS) approaches of PCa have been carried out. In our previous study, we identified some causal...

Exosomes are secret intercellular messengers in the body, carrying crucial information from different organs. Different cargos can be packaged in exosomes including DNA, RNA, and proteins. The type of exosomal cargo can vary according to the tissue type, its pathophysiological state, and circadian rhythm. Therefore, exosomes have an immense potenti...

Prostate cancer (PCa) is one of the most prevalent cancers among men in India. Although studies on PCa have dealt with the genetics, genomics, and the environmental influence in causality of PCa, not many studies employing the next generation sequencing (NGS) approaches of PCa have been carried out. In our previous study, we have identified some ca...

Prostate cancer (PCa) is one of the most prevalent cancers among men in India.

“That survival instinct, that will to live, that need to get back to life again, is more powerful than any consideration of taste, decency, politeness, manners, civility, anything. It's such a powerful force.” This quote by famous director Danny Boyle is a perfect analogy to describe the cancer cell's inexhaustible drive to persist against all odds...

The CAncer Prostate Consortium of India (CAPCI) was established in September 2020 by a group of researchers and clinicians interested in identifying inherited and somatic risk factors that are related to the onset of prostate cancer (PCa). The consortium aims to improve the patient care and treatment in India by exploring and expanding the utility...

Lysosomal damage activates AMPK, a regulator of macroautophagy/autophagy and metabolism, and elicits a strong ubiquitination response. Here we show that the cytosolic lectin LGALS9 detects lysosomal membrane breach by binding to lumenal glycoepitopes, and directs both the ubiquitination response and AMPK activation. Proteomic analyses have revealed...

Membrane integrity is essential for cellular survival and function. The spectrum of mechanisms protecting cellular and intracellular membranes is not fully known. Our recent work has uncovered a cellular system termed MERIT for lysosomal membrane repair, removal and replacement. Specifically, lysosomal membrane damage induces, in succession, ESCRT-...

AMPK is a central regulator of metabolism and autophagy. Here we show how lysosomal damage activates AMPK. This occurs via a hitherto unrecognized signal transduction system whereby cytoplasmic sentinel lectins detect membrane damage leading to ubiquitination responses. Absence of Galectin 9 (Gal9) or loss of its capacity to recognize lumenal glyca...

Endomembrane damage elicits homeostatic responses including ESCRT-dependent membrane repair and autophagic removal of damaged organelles. Previous studies have suggested that these systems may act separately. Here, we show that galectin-3 (Gal3), a β-galactoside-binding cytosolic lectin, unifies and coordinates ESCRT and autophagy responses to lyso...

Mammalian homologs of yeast Atg8 protein (mAtg8s) are important in autophagy, but their exact mode of action remains ill-defined. Syntaxin 17 (Stx17), a SNARE with major roles in autophagy, was recently shown to bind mAtg8s. Here, we identified LC3-interacting regions (LIRs) in several SNAREs that broaden the landscape of the mAtg8-SNARE interactio...

Mutations exclusively in equilibrative nucleoside transporter 3 (ENT3), the only intracellular nucleoside transporter within the solute carrier 29 (SLC29) gene family, cause an expanding spectrum of human genetic disorders (e.g., H syndrome, PHID syndrome, and SHML/RDD syndrome). Here, we identify adult stem cell deficits that drive ENT3-related ab...

Introduction Glioblastoma(GBM) is an aggressive brain tumour arising from glial cells. Our lab has identified the oncogenic role of FAT1 gene in GBM, regulating inflammatory and hypoxic microenvironment of the tumour as well as migratory/invasive properties of the tumour cells. In Drosophila, fat, the ortholog of FAT1, is known to regulate the Salv...

Autophagosome biogenesis and the origins of its isolation membrane have been a long-standing unresolved question, with the endoplasmic reticulum and its membrane contact sites with other organelles remaining the prime suspect. This concept has now been reinforced by recent advances uncovering roles of several ER membrane proteins in autophagosome f...

The autophagy pathway known also as macroautophagy (herein referred to as autophagy) is characterized by the formation of double-membrane organelles that capture cytosolic material. Based on pathway termination alternatives, autophagy has been divided into degradative and secretory. During degradative autophagy, autophagosomes typically fuse with l...

Glioblastoma (GBM) is characterized by the presence of hypoxia, stemness and local invasiveness. We have earlier demonstrated that FAT1 promotes invasiveness, inflammation and upregulates HIF-1α expression and its signalling in hypoxic GBM. Here, we have identified the role of FAT1 in regulating EMT (Epithelial-Mesenchymal Transition) and stemness...

The hypoxic microenvironment is an important contributor of glioblastoma aggressiveness via HIF1α while tumor inflammation is profoundly influenced by FAT Atypical Cadherin (FAT1). This study was designed to explore the functional interaction and significance of FAT1 and HIF1α under severe hypoxia-mimicking tumor microenvironment in primary human t...

Emerging evidence indicates that lysosome function extends beyond macromolecular degradation. Genetic and functional defects in components of the lysosomal transport machinery cause lysosomal storage disorders implicating the lysosomal solute carrier (SLC) transporters as essential to vital cell processes. The pathophysiology and therapeutic potent...

Hypoxia is a hallmark of solid tumors including glioblastoma (GBM). Its synergism with Notch signaling promotes progression in different cancers. However, Notch signaling exhibits pleiotropic roles and the existing literature lacks a comprehensive understanding of its perturbations under hypoxia in GBM with respect to all components of the pathway....

An association between inflammation and cancer has long-been known, but the past decade has witnessed a spurt in the research linking the two processes. On the one hand chronic inflammation predisposes to cancer, on the other, neoplastic transformation predisposes towards an intrinsic pro-inflammatory microenvironment, which further promotes the pr...

FAT1, a member of cadherin superfamily is a large trans-membrane protein with 34 cadherin repeats. FAT1 was originally identified as a tumor suppressor gene in Drosophila but its role in human cancers is just beginning to unfold. Considering its tumor suppressive role in Drosophila, few studies have reported similar function of FAT1 in human cancer...

Glioblastoma multiforme (GBM) is the most aggressive and the commonest primary brain tumor with a tendency for local invasiveness. The pathways of neoplasia, invasion and inflammation are inextricably linked in cancer and aberrations in several regulatory pathways for these processes have been identified. Here we have studied the FAT1 (Homo sapiens...

FAT1, a human homologue of Drosophila tumor suppressor gene fat, is located on chromosome 4q35 in humans. In Drosophila, fat gene is known to be acting as an apical regulator of the tumor suppressor signaling, Salvador-Warts-Hippo (SWH) pathway. In mammalian cells, FAT1 is known to have a role in cell migration. The role of FAT1 in cancer is not cl...