Shruti Ahlawat scite author profile

Significance and Impact of the Study: Gut microbiota (GM) and its metabolites play a crucial role in maintaining the health of various vital organs. Literature review and evidences suggest that any alteration in GM composition and diversity not only triggers gut disorders but also influences other organs and cause-associated diseases. In this review, we have attempted to provide the readers a broad overview of the complex role of GM and its vital connection with other human organs. Our effort will foster the development of personalized treatment that can be adopted and evolved by targeting the microbiome in a deliberately controlled manner.

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Immunological co-ordination between gut and lungs in SARS-CoV-2 infection

Ahlawat

2020

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Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has evolved into a major pandemic called coronavirus disease 2019 (COVID-19) that has created unprecedented global health emergencies, and emerged as a serious threat due to its strong ability for human-to-human transmission. The reports indicate the ability of SARS-CoV-2 to affect almost any organ due to the presence of a receptor known as angiotensin converting enzyme 2 (ACE2) across the body. ACE2 receptor is majorly expressed in the brush border of gut enterocytes along with the ciliated cells and alveolar epithelial type II cells in the lungs. The amino acid transport function of ACE2 has been linked to gut microbial ecology in gastrointestinal (GI) tract, thereby suggesting that COVID-19 may, to some level, be linked to the enteric microbiota. The significant number of COVID-19 patients shows extra-pulmonary symptoms in the GI tract. Many subsequent studies revealed viral RNA of SARS-CoV-2 in fecal samples of COVID-19 patients. This presents a new challenge in the diagnosis and control of COVID-19 infection with a caution for proper sanitation and hygiene. Here, we aim to discuss the immunological coordination between gut and lungs that facilitates SARS-CoV-2 to infect and multiply in the inflammatory bowel disease (IBD) and non-IBD patients.

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Inflammatory bowel disease: tri-directional relationship between microbiota, immune system and intestinal epithelium

Ahlawat

Kumar

Mohan

et al. 2021

Critical Reviews in Microbiology

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Balancing reactive oxygen species generation by rebooting gut microbiota

Singh

Ahlawat

Mohan

et al. 2022

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Reactive oxygen species (ROS; free radical form O 2 •− , superoxide radical; OH • , hydroxyl radical; ROO • , peroxyl; RO • , alkoxyl and non-radical form 1 O 2 , singlet oxygen; H 2 O 2 , hydrogen peroxide) are inevitable companions of aerobic life with crucial role in gut health. But, overwhelming production of ROS can cause serious damage to biomolecules. In this review, we have discussed several sources of ROS production that can be beneficial or dangerous to the human gut. Micro-organisms, organelles and enzymes play crucial role in ROS generation, where NOX1 is the main intestinal enzyme, which produce ROS in the intestine epithelial cells. Previous studies have reported that probiotics play significant role in gut homeostasis by checking the ROS generation, maintaining the antioxidant level, immune system and barrier protection. With current knowledge, we have critically analysed the available literature and presented the outcome in the form of bubble maps to suggest that the probiotics help in controlling the ROS-specific intestinal diseases, such as inflammatory bowel disease (IBD) and colon cancer. Finally, it has been concluded that rebooting of the gut microbiota with probiotics, postbiotics or faecal microbiota transplantation (FMT) can have crucial implications in the structuring of gut communities for the personalized management of the gastrointestinal (GI) diseases.

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Shruti Ahlawat

Gut–organ axis: a microbial outreach and networking

Immunological co-ordination between gut and lungs in SARS-CoV-2 infection

Inflammatory bowel disease: tri-directional relationship between microbiota, immune system and intestinal epithelium

Balancing reactive oxygen species generation by rebooting gut microbiota

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