Departments of Communication Sciences and Disorders, Molecular Biosciences, Neurobiology, and Otolaryngology-Head and Neck Surgery, and The Hugh Knowles Center for Clinical and Basic Science in Hearing and Its Disorders, Northwestern University, Evanston, Illinois 60208.
J Neurosci. 2014 Jan 22;34(4):1325-32. doi: 10.1523/JNEUROSCI.4020-13.2014.
The solute carrier gene family 26 (SLC26) encodes membrane proteins with diverse physiological roles but with the common feature of halide involvement. Here, we present bioinformatic and biochemical evidence that SLC26 proteins have intrinsically disordered regions (IDRs) in their C-terminal domains and that these regions contain calmodulin (CaM) binding sites. The veracity of these predictions and the functional consequences of CaM binding were examined in prestin, SLC26A5, as a model for the SLC26 family and as one of the most investigated and best understood members. We found that CaM binds directly to the IDR in the C-terminal domain of prestin in a calcium-obligate manner. Using both isolated murine outer hair cells (OHCs) and a heterologous expression system, we also found that this calcium-obligate CaM binding shifts the operating point of the protein to more hyperpolarized potentials with consequent alteration of the function of the prestin. Because calcium is the main intracellular second messenger used by the efferent medial olivocochlear (MOC) pathway of the auditory system and CaM is abundant in OHCs, the CaM-prestin interaction may be involved in the MOC-mediated modulation of cochlear amplification. However, this regulatory mechanism is not likely to be restricted to cochlear OHCs, in light of both clear bioinformatic evidence and the fact that calcium and CaM are ubiquitous intracellular second messengers used by virtually all cell types. Hence, the calcium/CaM-dependent regulatory mechanism described herein is likely applicable to most, if not all, SLC26 paralogs.
溶质载体家族 26(SLC26)基因编码具有多种生理作用的膜蛋白,但具有共同的参与卤化物的特征。在这里,我们提供了生物信息学和生化证据,表明 SLC26 蛋白在其 C 端结构域中具有固有无序区域(IDR),并且这些区域包含钙调蛋白(CaM)结合位点。这些预测的准确性以及 CaM 结合的功能后果在 prestin(SLC26 家族的模型和研究最深入、最了解的成员之一)中进行了检验。我们发现 CaM 以钙依赖性的方式直接结合到 prestin 的 C 端结构域中的 IDR 上。使用分离的鼠外毛细胞(OHC)和异源表达系统,我们还发现这种钙依赖性 CaM 结合将蛋白质的工作点转移到更超极化的电位,从而改变 prestin 的功能。由于钙是听觉系统传出内侧橄榄耳蜗(MOC)途径的主要细胞内第二信使,并且 CaM 在 OHC 中丰富,因此 CaM-prestin 相互作用可能参与 MOC 介导的耳蜗放大的调制。然而,鉴于清楚的生物信息学证据以及钙和 CaM 是几乎所有细胞类型都使用的普遍存在的细胞内第二信使,这种调节机制不太可能仅限于耳蜗 OHC。因此,本文描述的钙/CaM 依赖性调节机制可能适用于大多数(如果不是全部)SLC26 同源物。