The genomic architecture of metastasis in breast cancer: focus on mechanistic aspects, signalling pathways and therapeutic strategies.
Yogita ChhichholiyaPrabhat SumanSandeep SinghAnjana MunshiPublished in: Medical oncology (Northwood, London, England) (2021)
Breast cancer is a multifactorial, heterogeneous disease and the second most frequent cancer amongst women worldwide. Metastasis is one of the most leading causes of death in these patients. Early-stage or locally advanced breast cancer is limited to the breast or nearby lymph nodes. When breast cancer spreads to farther tissues/organs from its original site, it is referred to as metastatic or stage IV breast cancer. Normal breast development is regulated by specific genes and signalling pathways controlling cell proliferation, cell death, cell differentiation and cell motility. Dysregulation of genes involved in various signalling pathways not only leads to the formation of primary tumour but also to the metastasis as well. The metastatic cascade is represented by a multi-step process including invasion of the local tumour cell followed by its entry into the vasculature, exit of malignant cells from the circulation and ultimately their colonization at the distant sites. These stages are referred to as formation of primary tumour, angiogenesis, invasion, intravasation and extravasation, respectively. The major sites of metastasis of breast cancer are the lymph nodes, bone, brain and lung. Only about 28% five-year survival rate has been reported for stage IV breast cancer. Metastasis is a serious concern for breast cancer and therefore, various therapeutic strategies such as tyrosine kinase inhibitors have been developed to target specific dysregulated genes and various signalling pathways involved in different steps of metastasis. In addition, other therapies like hyperbaric oxygen therapy, RNA interference and CRISPR/Cas9 are also being explored as novel strategies to cure the stage IV/metastatic breast cancer. Therefore, the current review has been compiled with an aim to evaluate the genetic basis of stage IV breast cancer with a focus on the molecular mechanisms. In addition, the therapeutic strategies targeting these dysregulated genes involved in various signalling pathways have also been discussed. Genome editing technologies that can target specific genes in the affected areas by making knock-in and knock-out alternations and thereby bring significant treatment outcomes in breast cancer have also been summarized.
Keyphrases
- crispr cas
- genome editing
- lymph node
- early stage
- cell death
- squamous cell carcinoma
- small cell lung cancer
- genome wide
- cell proliferation
- gene expression
- end stage renal disease
- radiation therapy
- breast cancer risk
- locally advanced
- stem cells
- escherichia coli
- single cell
- staphylococcus aureus
- chronic kidney disease
- neoadjuvant chemotherapy
- peritoneal dialysis
- adipose tissue
- metastatic breast cancer
- multiple sclerosis
- childhood cancer
- subarachnoid hemorrhage
- ejection fraction
- brain injury
- functional connectivity
- copy number
- blood brain barrier
- cell cycle
- cancer therapy
- open label
- bone mineral density