School of Biological Sciences, National Institute of Science Education and Research, HBNI, Khordha, Jatni, Odisha, 752050, India; Homi Bhabha National Institute, Training School Complex, Anushakti Nagar, Mumbai, 400094, India.
School of Biological Sciences, National Institute of Science Education and Research, HBNI, Khordha, Jatni, Odisha, 752050, India; Homi Bhabha National Institute, Training School Complex, Anushakti Nagar, Mumbai, 400094, India.
Neurochem Int. 2024 Oct;179:105826. doi: 10.1016/j.neuint.2024.105826. Epub 2024 Aug 6.
TRPV1 acts as a unique polymodal ion channel having distinct structure and gating properties. In this context, TRPV1-R575D represents a special mutant located at the inner lipid-water-interface (LWI) region that has less possibility of interaction with membrane cholesterol. In control conditions, this lab-generated mutant of TRPV1 shows no "ligand-sensitivity", reduced surface expression, reduced localization in the lipid rafts, yet induces high cellular lethality. Notably, the cellular lethality induced by TRPV1-R575D expression can be rescued by adding 5'I-RTX (a specific inhibitor of TRPV1) or by introducing another mutation in the next position, i.e. in TRPV1-R575D/D576R. In this work we characterized TRPV1-R575D and TRPV1-R575D/D576R mutants in different cellular conditions and compared with the TRPV1-WT. We report that the "ligand-insensitivity" of TRPV1-R575D can be rescued in certain conditions, such as by chelation of extracellular Ca, or by reduction of the membrane cholesterol. Here we show that Ca plays an important role in the channel gating of TRPV1-WT as well as LWI mutants (TRPV1-R575D, TRPV1-R575D/D576R). However, chelation of intracellular Ca or depletion of ER Ca did not have a significant effect on the TRPV1-R575D. Certain properties related to channel gating of mutant TRPV1-R575D/D576R can be rescued partially or fully in a context -dependent manner. Cholesterol depletion also alters these properties. Our data suggests that lower intracellular basal Ca acts as a pre-requisite for further opening of TRPV1-R575D. These findings enable better understanding of the structure-function relationship of TRPV1 and may be critical in comprehending the channelopathies induced by other homologous thermosensitive TRPVs.
瞬时受体电位香草酸受体 1(TRPV1)作为一种独特的多模态离子通道,具有独特的结构和门控特性。在这种情况下,TRPV1-R575D 代表位于内脂-水界面(LWI)区域的特殊突变体,与膜胆固醇相互作用的可能性较小。在对照条件下,这种实验室产生的 TRPV1 突变体显示出没有“配体敏感性”,表面表达减少,在脂筏中的定位减少,但诱导高细胞致死率。值得注意的是,TRPV1-R575D 表达诱导的细胞致死率可以通过添加 5'I-RTX(TRPV1 的特异性抑制剂)或在下一个位置引入另一个突变(即 TRPV1-R575D/D576R)来挽救。在这项工作中,我们在不同的细胞条件下对 TRPV1-R575D 和 TRPV1-R575D/D576R 突变体进行了表征,并与 TRPV1-WT 进行了比较。我们报告说,TRPV1-R575D 的“配体不敏感性”可以在某些条件下得到挽救,例如通过螯合细胞外 Ca2+,或通过降低膜胆固醇。在这里,我们表明 Ca2+在 TRPV1-WT 以及 LWI 突变体(TRPV1-R575D、TRPV1-R575D/D576R)的通道门控中起着重要作用。然而,细胞内 Ca2+螯合或内质网 Ca2+耗竭对 TRPV1-R575D 没有显著影响。突变体 TRPV1-R575D/D576R 的某些与通道门控相关的特性可以以依赖于上下文的方式部分或完全挽救。胆固醇耗竭也会改变这些特性。我们的数据表明,较低的细胞内基础 Ca2+是 TRPV1-R575D 进一步开放的前提条件。这些发现有助于更好地理解 TRPV1 的结构-功能关系,并且对于理解其他同源热敏 TRPV 诱导的通道病可能至关重要。
