Influence of gut and lung dysbiosis on lung cancer progression and their modulation as promising therapeutic targets: a comprehensive review
Rajan Thapa,
Anjana Thapa Magar,
Jesus Shrestha,
Nisha Panth,
Sobia Idrees,
Tayyaba Sadaf,
Saroj Bashyal,
Bassma H. Elwakil,
Vrashabh V. Sugandhi,
Satish Rojekar,
Ram Nikhate,
Gaurav Gupta,
Sachin Kumar Singh,
Kamal Dua,
Philip M Hansbro,
Keshav Raj Paudel
Affiliations
Rajan Thapa
Department of Pharmacy, Universal college of medical sciencesTribhuvan UniversityBhairahawaRupendehiNepal
Anjana Thapa Magar
Department of Medicine Kathmandu Medical College Teaching Hospital, Sinamangal Kathmandu Nepal
Jesus Shrestha
School of Biomedical Engineering University of Technology Sydney Sydney New South Wales Australia
Nisha Panth
Centre for Inflammation, Faculty of Science, School of Life Sciences Centenary Institute and University of Technology Sydney Sydney New South Wales Australia
Sobia Idrees
Centre for Inflammation, Faculty of Science, School of Life Sciences Centenary Institute and University of Technology Sydney Sydney New South Wales Australia
Tayyaba Sadaf
Centre for Inflammation, Faculty of Science, School of Life Sciences Centenary Institute and University of Technology Sydney Sydney New South Wales Australia
Saroj Bashyal
Department of Pharmacy, Manmohan Memorial Institute of Health Sciences Tribhuvan University, Soalteemode Kathmandu Nepal
Bassma H. Elwakil
Department of Medical Laboratory Technology, Faculty of Applied Health Sciences Technology Pharos University in Alexandria Alexandria Egypt
Vrashabh V. Sugandhi
Department of pharmaceutical sciences, College of Pharmacy & Health Sciences St. John's University Queens New York USA
Satish Rojekar
Department of Pharmacological Sciences Icahn School of Medicine at Mount Sinai New York New York USA
Ram Nikhate
Department of Pharmaceutics Dattakala Shikshan Sanstha, Dattakala college of pharmacy (Affiliated to Savitribai Phule Pune university Pune Maharashtra India
Gaurav Gupta
Centre for Global Health Research, Saveetha Medical College, Saveetha Institute of Medical and Technical Sciences Saveetha University Chennai India
Sachin Kumar Singh
School of Pharmaceutical Sciences Lovely Professional University Phagwara India
Kamal Dua
Faculty of Health, Australian Research Centre in Complementary and Integrative Medicine University of Technology Sydney Ultimo New South Wales Australia
Philip M Hansbro
Centre for Inflammation, Faculty of Science, School of Life Sciences Centenary Institute and University of Technology Sydney Sydney New South Wales Australia
Keshav Raj Paudel
Centre for Inflammation, Faculty of Science, School of Life Sciences Centenary Institute and University of Technology Sydney Sydney New South Wales Australia
Abstract Lung cancer (LC) continues to pose the highest mortality and exhibits a common prevalence among all types of cancer. The genetic interaction between human eukaryotes and microbial cells plays a vital role in orchestrating every physiological activity of the host. The dynamic crosstalk between gut and lung microbiomes and the gut–lung axis communication network has been widely accepted as promising factors influencing LC progression. The advent of the 16s rDNA sequencing technique has opened new horizons for elucidating the lung microbiome and its potential pathophysiological role in LC and other infectious lung diseases using a molecular approach. Numerous studies have reported the direct involvement of the host microbiome in lung tumorigenesis processes and their impact on current treatment strategies such as radiotherapy, chemotherapy, or immunotherapy. The genetic and metabolomic cross‐interaction, microbiome‐dependent host immune modulation, and the close association between microbiota composition and treatment outcomes strongly suggest that designing microbiome‐based treatment strategies and investigating new molecules targeting the common holobiome could offer potential alternatives to develop effective therapeutic principles for LC treatment. This review aims to highlight the interaction between the host and microbiome in LC progression and the possibility of manipulating altered microbiome ecology as therapeutic targets.
