A REVIEW OF LUNG CANCER: HISTOLOGY, TARGETS AND TREATMENTS
K. Ragavan
Department of Pharmacology, Karuna College of Pharmacy, Palakkad, Iringuttoor, Thirumittacode Post, Pattambi, Kerala 679533, India
Sandra. P J
Department of Pharmacology, Karuna College of Pharmacy, Palakkad, Iringuttoor, Thirumittacode Post, Pattambi, Kerala 679533, India
Sunu
Department of Pharmacology, Karuna College of Pharmacy, Palakkad, Iringuttoor, Thirumittacode Post, Pattambi, Kerala 679533, India
Swathi. S
Department of Pharmacology, Karuna College of Pharmacy, Palakkad, Iringuttoor, Thirumittacode Post, Pattambi, Kerala 679533, India
Lung cancer is the leading cause of cancer-related death worldwide with a 5-year survival rate of less than 15%, despite significant advances in both diagnostic and therapeutic approaches. Combined genomic and transcriptomic sequencing studies have identified numerous genetic driver mutations that are responsible for the development of lung cancer. In addition, molecular profiling studies identify gene products and their mutations which predict tumour responses to targeted therapies such as protein tyrosine kinase inhibitors and also can offer explanation for drug resistance mechanisms. The profiling of circulating micro- RNAs has also provided an ability to discriminate patients in terms of prognosis/diagnosis and high-throughput DNA sequencing strategies are beginning to elucidate cell signaling pathway mutations associated with oncogenesis, including potential stem cell associated pathways, offering the promise that future therapies may target this sub-population, preventing disease relapse post treatment and improving patient survival. This review provides an assessment of molecular profiling within lung cancer concerning molecular mechanisms, treatment options and disease-progression. Current areas of development within lung cancer profiling are discussed (i.e. profiling of circulating tumour cells) and future challenges for lung cancer treatment addressed such as detection of micro-metastases and cancer stem cells
11 , 2 , 2021
40 - 44