The C. elegans anchor cell: A model to elucidate mechanisms underlying invasion through basement membrane.

Cell invasion through basement membrane barriers is crucial during many developmental processes and in immune surveillance. Dysregulation of invasion also drives the pathology of numerous human diseases, such as metastasis and inflammatory disorders. Cell invasion involves dynamic interactions between the invading cell, basement membrane, and neighboring tissues. Owing to this complexity, cell invasion is challenging to study in vivo, which has hampered the understanding of mechanisms controlling invasion. Caenorhabditis elegans anchor cell invasion is a powerful in vivo model where subcellular imaging of cell-basement membrane interactions can be combined with genetic, genomic, and single-cell molecular perturbation studies. In this review, we outline insights gained by studying anchor cell invasion, which span transcriptional networks, translational regulation, secretory apparatus expansion, dynamic and adaptable protrusions that breach and clear basement membrane, and a complex, localized metabolic network that fuels invasion. Together, investigation of anchor cell invasion is building a comprehensive understanding of the mechanisms that underlie invasion, which we expect will ultimately facilitate better therapeutic strategies to control cell invasive activity in human disease. [Display omitted] • The C. elegans anchor cell is an in vivo model to study basement membrane invasion. • Invasion requires expansion of translation capacity and the endomembrane system. • Invasion requires transcriptional control of cycle arrest. • Anchor cell invasion is robust and adapts using proteolysis and force. • Localized glucose import, processing, and mitochondrial ATP fuels invasion. [ABSTRACT FROM AUTHOR]