Special Issue
Data-Driven Discovery: Biostatistics, Biometrics & Computational Science
Guest Editor: Yingjun Zhao — Department of Intelligent Manufacturing Engineering, Xinjiang University, China
Submission
Covid-19 Research
Safety Profile of COVID-19 Vaccines: Retrospective Analysis of Short, Medium, and Long-Term Side Effects: The Military Hospital Experience – Read more Evaluating the Efficacy of Different SARS-Cov-2 Drug Targets Using the Topo-Geometrical Superposition Algorithm, Molecular Docking and Chemical Reactivity Frameworks – Read more Preventing COVID-19 Infection by Complementary Medicine and Oral Health – Read more Analysis of Body Temperature in Patients with Trauma Visiting a Local Emergency Medical Center during the SARS-CoV-2 Outbreak – Read more N95 Respirator Fit Testing Experience during the Pandemic at a Singapore Tertiary Health Institution: Streamlining Workflow and Improving Respirator Fit Rate – Read more COVID-19 is an Amplifier of Social Inequalities Structural Violence against Students with Special Learning Needs and Low Socio-Economic Status – Read more Interaction between Chronic Influenza and COVID-19: Novel Aspects of Immune System Combat – Read more Daily Life, Fear of COVID-19 and Social Support in the Older Adults in Home Isolation: A Cross-Sectional Study – Read more The Impact of COVID-19 Pandemic on Cardiovascular Diseases in Brazil – Read more Diversity of Non-Influenza Respiratory Viruses Associated with Influenza-Like Illness during 2009 pre and pandemic periods in Sao Paulo, Brazil, a Historical Overview – Read more Cardiovascular Complications of SARS-CoV-2 (COVID-19) in Adults – Read more Impact of COVID-19 Pandemic on the Development of Childrens Executive Functions Implications for School-Based Interventions – Read more The Impact of the COVID-19 Pandemic on Youth Education – Read more Association between Dietary Habits, Lifestyle and Migraine Attacks During Social Isolation in the COVID-19 Pandemic: A Systematic Review of Observational Studies – Read more The Brazilian Increase in Cases of Lung Cancer and COVID-19, Can They be related? – Read more The Possible Therapeutic Application of CO on COVID-19 – Read more Planetary View of COVID Impact vs. IQ & PISA Rank as National Level of Intelligence – Read more Electrophysiological Study in a Patient with Visual Deficit after Severe Coronavirus 2 Pneumonia – Read more A Presentation of Analyses of COVID-19 Vaccine Samples, Blood Samples, Urine Samples, Foot Bath Samples, Sitz Bath Samples, and Skin-Extract Samples – Read more Is Anosmia-Ageusia in COVID-19 Patients Associated with Neuro-Philic Virus Mutant and Mild Respiratory Involvement? – Read more
Home/ All Articles/ Differentiating Compromised Mitochondria of Lung Cancer Cells from Mitochondria in Healthy…

Abstract & Article Details

Review Article • Vol.5, Issue 4 • ISSN: 2766-2276 • Open Access • CC BY 4.0

Open Access Review Article Vol.5, Issue 4 April 20, 2024

Differentiating Compromised Mitochondria of Lung Cancer Cells from Mitochondria in Healthy Cells

DOI: 10.37871/jbres1900
Authors
Sharma B, Shafaee Z, Twelker K, Bhatia ND, Agriantonis G, Dave J, Mestre J, Ghanta H, Arora S and Whittington JM*
Full Text PDF

Abstract

Mitochondria are double-walled organelles that generate energy in the form of ATP. ATP is an energy-rich compound and a driver of fundamental cell functions. Mitochondria-oriented studies help design advanced therapies to target lung cancer. Lung cancer is the leading cause of cancer incidences and death globally. Various studies have supported that mitochondrial function is disrupting cancerous cells. Mitochondrial dysfunctions lead to dysregulated ATP synthesis, disturbed respiratory chain, unbalanced mitochondrial fission or fusion, disturbed cellular redox homeostasis, dysregulated apoptosis, and interfered non-smooth intracellular calcium signaling. Dysfunction mitochondria are associated with cancer cell proliferation, metastasis, and death. In this review, we have tried to elaborate on how normal cell mitochondria function differently from the mitochondria of lung cancer cells. It includes various targets such as mitochondrial proteins and related pathways, along with new drug molecules like Militarin analog-1, Dihydromyricetin, and papuamine. As mitochondrial metabolism is associated with the proliferation and metastasis of lung cancer cells, finding interlinks between malfunctioning mitochondria and the process of lung cancer can promote the development of new treatments.

Research Topics

How to Cite

Sharma B, Shafaee Z, Twelker K, Bhatia ND, Agriantonis G, Dave J, Mestre J, Ghanta H, Arora S and Whittington JM* (2024). Differentiating Compromised Mitochondria of Lung Cancer Cells from Mitochondria in Healthy Cells. Journal of Biomedical Research & Environmental Sciences, 5(4). https://doi.org/10.37871/jbres1900

Article Information

JournalJournal of Biomedical Research & Environmental Sciences (JBRES)
ISSN2766-2276
DOI DOI 10.37871/jbres1900
Volume / IssueVol. 5, Issue 4
PublishedApril 20, 2024
Article TypeReview Article
Pages324-344
LicenseCC BY 4.0 — Open Access
PublisherSciRes Literature LLC, Sheridan, WY, USA
LanguageEnglish
Creative Commons BY 4.0

Published under CC BY 4.0 — free to share, copy, adapt, and redistribute with attribution.

Certificate of Publication

Certificate of Publication — Differentiating Compromised Mitochondria of Lung Cancer Cells from Mitochondria in Healthy Cells

Certificate verifies that this article was peer-reviewed and published in the Journal of Biomedical Research & Environmental Sciences.

Publish with JBRES — Peer-reviewed, multidisciplinary Open Access with rapid review, DOI, and global visibility.
Double-Blind CrossRef DOI Discoverable