Discovery of multi-state gene cluster switches determining the adaptive mitochondrial and metabolic landscape of breast cancer

BioRxiv

bioRxiv Subject Collection: Systems Biology
This feed contains articles for bioRxiv Subject Collection "Systems Biology"

Discovery of multi-state gene cluster switches determining the adaptive mitochondrial and metabolic landscape of breast cancer

Adaptive metabolic switches are proposed to underlie conversions between cellular states during normal development as well as in cancer evolution, where they represent important therapeutic targets. However, the full spectrum, characteristics and regulation of existing metabolic switches are unknown. We propose that metabolic switches can be recognised by locating large alternating gene expression patterns and associate them with specific metabolic states. We developed a method to identify interspersed genesets by massive correlated biclustering (MCbiclust) and predict their metabolic wiring. Testing the method on major breast cancer transcriptome datasets we discovered a series of gene sets with switch-like behaviour, predicting mitochondrial content, activity and central carbon fluxes in tumours associated with different switch positions. The predictions were experimentally validated by bioenergetic profiling and metabolic flux analysis of 13C-labelled substrates, and were ultimately extended by geneset analysis to link metabolic alterations to cellular states, thus predicting tumour pathology, prognosis and chemosensitivity. The method is applicable to any large and heterogeneous transcriptome dataset to discover metabolic and associated pathophysiological states.
Menegollo, M., Bentham, R. B., Henriques, T., Ng, S. Q., Ren, Z., Esculier, C., Agarwal, S., Tong, E., Ilangovan, S., Szabadkai, Z., Suman, M., Patani, N., Ghanate, A., Bryson, K., Stein, R. C., Yuneva, M., Szabadkai, G.
February 19, 2023
http://biorxiv.org/cgi/content/short/2023.02.17.528922v1?rss=1