LKB1 loss in melanoma disrupts directional migration toward extracellular matrix cues |
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| Authors: | Keefe T. Chan Sreeja B. Asokan Samantha J. King Tao Bo Evan S. Dubose Wenjin Liu Matthew E. Berginski Jeremy M. Simon Ian J. Davis Shawn M. Gomez Norman E. Sharpless James E. Bear |
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| Affiliation: | 1.University of North Carolina Lineberger Comprehensive Cancer Center, 2.Department of Cell Biology and Physiology, 3.Department of Genetics, 4.Department of Biomedical Engineering, 5.Carolina Center for Genome Science, 6.Department of Pediatrics, and 7.Howard Hughes Medical Institute, University of North Carolina–Chapel Hill, Chapel Hill, NC 27599 |
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| Abstract: | Somatic inactivation of the serine/threonine kinase gene STK11/LKB1/PAR-4 occurs in a variety of cancers, including ∼10% of melanoma. However, how the loss of LKB1 activity facilitates melanoma invasion and metastasis remains poorly understood. In LKB1-null cells derived from an autochthonous murine model of melanoma with activated Kras and Lkb1 loss and matched reconstituted controls, we have investigated the mechanism by which LKB1 loss increases melanoma invasive motility. Using a microfluidic gradient chamber system and time-lapse microscopy, in this paper, we uncover a new function for LKB1 as a directional migration sensor of gradients of extracellular matrix (haptotaxis) but not soluble growth factor cues (chemotaxis). Systematic perturbation of known LKB1 effectors demonstrated that this response does not require canonical adenosine monophosphate–activated protein kinase (AMPK) activity but instead requires the activity of the AMPK-related microtubule affinity-regulating kinase (MARK)/PAR-1 family kinases. Inhibition of the LKB1–MARK pathway facilitated invasive motility, suggesting that loss of the ability to sense inhibitory matrix cues may promote melanoma invasion. |
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