The acid-sensing ion channel-3 (ASIC3) is a degenerin/ epithelial sodium channel expressed in the peripheral nervous system. Previous studies indicate that it participates in the response to mechanical and painful stimuli, perhaps contributing to mechanoreceptor and/or H ؉ -gated nociceptor function. ASIC3 subunits contain intracellular N and C termini that may control channel localization and function. We found that a PDZ-binding motif at the ASIC3 C terminus interacts with four different proteins that contain PDZ domains: PSD-95, Lin7b, MAGI-1b, and PIST. ASIC3 and these interacting proteins were expressed in dorsal root ganglia and spinal cord, and PSD-95 co-precipitated ASIC3 from spinal cord. When expressed in heterologous cells, PSD-95 reduced the amplitude of ASIC3 acid-evoked currents, whereas Lin-7b increased current amplitude. PSD-95 and Lin-7b altered current density by decreasing or increasing, respectively, the amount of ASIC3 on the cell surface. The finding that multiple PDZ-containing proteins bind ASIC3 and can influence its presence in the plasma membrane suggests that they may play an important role in the contribution of ASIC3 to nociception and mechanosensation.
ASIC31 is a non-voltage-gated Na ϩ channel activated by acidic extracellular solutions (1, 2). It is expressed in the peripheral nervous system, including the dorsal root ganglia and trigeminal ganglia. Immunocytochemical studies have localized it to several different specialized sensory nerve endings of skin, suggesting it might participate in mechanosensation and nociception (3). The importance of ASIC3 for sensory function was revealed by studies of mice bearing targeted disruptions of the ASIC3 gene (3, 4). In single fiber recordings from cutaneous nerves, loss of ASIC3 increased the sensitivity of mechanoreceptors detecting light touch but reduced the sensitivity of a mechanoreceptor responding to noxious pinch. In behavioral studies, ASIC3 modulated the response to noxious acid, heat, and mechanical stimuli. Moreover chronic mechanical hyperalgesia produced by intramuscular acid injections was prevented in ASIC3 null animals (5). Functional studies suggest that ASIC3 may also mediate the pain associated with myocardial ischemia (6, 7). Thus, in different cellular contexts, ASIC3 may participate in the responses to both mechanical and acidotic stimuli to mediate normal touch and pain sensation.ASIC3, a member of the DEG/ENaC family, forms heteromultimers in neurons with other DEG/ENaC subunits, ASIC1 and ASIC2, to generate H ϩ -gated cation channels (8 -10). ASIC3 shares the overall structure of DEG/ENaC proteins, including two transmembrane domains, a large extracellular loop containing 14 conserved cysteines, and intracellular N and C termini (11,12). The intracellular domains of ASIC subunits might have several functions, including localizing the channels, controlling the number of channels on the cell surface, regulating channel function, and forming part of a scaffold important for the response to mechanical stimuli (11-13)...
