Abstract
The detection and processing of noxious sensory input depends on the proper growth and function of nociceptor sensory neurons in the peripheral nervous system. In Drosophila melanogaster, the class IV (cIV) multidendritic dendritic arborization (md-da) neurons detect noxious stimuli through their highly branched dendrites that innervate the epidermis of the larval body wall. Here, we describe requirements of a previously uncharacterized gene named smoke alarm (smal), a discoidin domain receptor, in cIV md-da dendrite morphogenesis and nociception behavior. We find that smal mutant larvae exhibit thermal hyperalgesia that is fully rescued with a BAC transgene containing smal. Consistent with this phenotype, a smal reporter gene was expressed in nociceptors and other peripheral sensory neurons. Smal::GFP protein localized to punctate structures throughout the cIV md-da neurons. We further show that smal loss-of-function results in reduced nociceptor dendrite branching. Interestingly, mammalian homologues of smal act as collagen receptors, and we find that smal mutant dendrites showed an increase in epidermal cell ensheathment relative to animals that are wild type for smal. Based on this phenotype we propose that Smal protein function is required for attachment of dendrites to the extracellular matrix (ECM) and the loss of this activity results in thermal hyperalgesia.
Competing Interest Statement
The authors have declared no competing interest.
