c-Kit mediates cutaneous sensory axon innervation and multi-kinase inhibitor-induced neurotoxicity

ABSTRACT

Peripheral somatosensory neurons innervate the skin and sense the environment. Loss of skin innervation, often caused by the “dying back” of distal somatosensory axons, is a common side effect of drug-induced peripheral neuropathies (DIPNs) and results in pain and sensory dysfunction. Targeted cancer therapies frequently employ multi-kinase inhibitor (MKI) drugs that each block multiple receptor tyrosine kinases. Many MKIs produce DIPNs but the molecular targets and cellular mechanisms underlying these are unknown. We performed live-imaging of cutaneous somatosensory axons in larval zebrafish during treatment with several MKIs known to induce DIPNs, and observed axonal retraction consistent with a dying back pathology. These results were replicated in mouse somatosensory neurons. Genetic knockout of potential MKI targets identified c-Kit receptor as a regulator of sensory axon innervation and a major target of these MKIs mediating loss of axonal density. In both fish and mammals, Kit receptor is expressed in cutaneous somatosensory neurons and its ligand, Kitlg, is expressed in the skin. Mosaic misexpression of Kitlg in the skin induced dramatic increases in local sensory axon density, suggesting an important role for Kit signaling in cutaneous axon growth and maintenance. Immunostaining and structure-function analysis revealed Src, a downstream Kit target, mediates Kit’s role in cutaneous axon innervation and MKI neurotoxicity. Our data shows that the Kit-Src signaling pathway has a major role in cutaneous sensory axon innervation and is a potential therapeutic target to address DIPNs caused by MKIs and other compounds.