Autoinhibition of TRPV6 Channel and Regulation by PIP2

Cai, Ruiqi; Liu, Xiong; Zhang, Rui; Hofmann, Laura; Zheng, Wang; Amin, Ruhul; Wang, Lingyun; Hu, Qiaolin; Peng, Ji‐Bin; Michalak, Marek; Flockerzi, Veit; Ali, Declan W.; Chen, Xing-Zhen; Tang, Jingfeng

doi:10.1016/j.isci.2020.101444

Cited by 25 publications

(35 citation statements)

References 58 publications

(97 reference statements)

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“…While the S4–S5 linker in TRPV6 is a critical regulatory element for its channel function 14 the functional of helix S5 which is in close proximity to the pore-forming S6 as revealed by structures 15 is not well understood. Among the three conserved positively charged residues (K524, R510, and R532) in the S4–S5 linker or S5 helix, R510 mediates the S4–S5 linker/TRP domain binding, K524 is critical for TRPV6 activation by PIP2 6 , 16 , but the role of R532 in S5 is unclear. Interestingly, the Catalogue of Somatic Mutations in Cancer (COSMIC) database predicted R510Q and R532Q as pathogenic mutations 17 .…”

Section: Resultsmentioning

confidence: 99%

“…Xenopus oocyte expression vector pBSMXT-MCS encoding human TRPV6 (accession number: Q9H1D0, containing 40 additional amino-acid residues at the start of the N-terminus compared to the one used in structural studies) cDNA was generated previously 6 . For mammalian cell expression, human TRPV6 cDNA was subcloned into a pCMV vector.…”

Section: Methodsmentioning

confidence: 99%

“…Secondary antibodies conjugated with HRP were purchased from GE healthecare. Biotinylation assays were performed as described previously 6 . Oocytes were washed with ice-cold PBS and incubated with 0.5 mg/ml sulfo-NHS-SS-Biotin (Pierce, Rockford, IL), followed by quenching 1 M NH 4 Cl.…”

Section: Methodsmentioning

confidence: 99%

“…The S6 helix was reported to undergo transition from an α helical configuration in the closed state to a π helical configuration in an open state, which enlarges the pore gate. We recently identified functionally autoinhibitory intramolecular interactions of the S4–S5 linker and pre-S1 domain with the TRP domain in TRPV6 and found that each interaction is mediated by a conserved residue pair and negatively regulated by phosphatidylinositol 4,5-bisphosphate (PIP2) 6 . TRPV6 channel function substantially increased when either interaction was disrupted 6 .…”

Section: Introductionmentioning

confidence: 99%

“…We recently identified functionally autoinhibitory intramolecular interactions of the S4–S5 linker and pre-S1 domain with the TRP domain in TRPV6 and found that each interaction is mediated by a conserved residue pair and negatively regulated by phosphatidylinositol 4,5-bisphosphate (PIP2) 6 . TRPV6 channel function substantially increased when either interaction was disrupted 6 . Structures of TRPV6 suggest the presence of more intramolecular interactions, which have yet to be investigated and may be relevant to TRPV6-dependent physiology and pathology.…”

Section: Introductionmentioning

confidence: 99%

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Auto-inhibitory intramolecular S5/S6 interaction in the TRPV6 channel regulates breast cancer cell migration and invasion

et al. 2021

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TRPV6, a Ca-selective channel, is abundantly expressed in the placenta, intestine, kidney and bone marrow. TRPV6 is vital to Ca homeostasis and its defective expression or function is linked to transient neonatal hyperparathyroidism, Lowe syndrome/Dent disease, renal stone, osteoporosis and cancers. The fact that the molecular mechanism underlying the function and regulation of TRPV6 is still not well understood hampers, in particular, the understanding of how TRPV6 contributes to breast cancer development. By electrophysiology and Ca imaging in Xenopus oocytes and cancer cells, molecular biology and numerical simulation, here we reveal an intramolecular S5/S6 helix interaction in TRPV6 that is functionally autoinhibitory and is mediated by the R532:D620 bonding. Predicted pathogenic mutation R532Q within S5 disrupts the S5/S6 interaction leading to gain-of-function of the channel, which promotes breast cancer cell progression through strengthening of the TRPV6/PI3K interaction, activation of a PI3K/Akt/GSK-3β cascade, and up-regulation of epithelial-mesenchymal transition and anti-apoptosis.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Auto-inhibitory intramolecular S5/S6 interaction in the TRPV6 channel regulates breast cancer cell migration and invasion

et al. 2021

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Ciliary membrane, localised lipid modification and cilia function

Dutta

Ray

2022

Journal Cellular Physiology

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Cilium, a tiny microtubule‐based cellular appendage critical for cell signalling and physiology, displays a large variety of receptors. The composition and turnover of ciliary lipids and receptors determine cell behaviour. Due to the exclusion of ribosomal machinery and limited membrane area, a cilium needs adaptive logistics to actively reconstitute the lipid and receptor compositions during development and differentiation. How is this dynamicity generated? Here, we examine whether, along with the Intraflagellar‐Transport, targeted changes in sector‐wise lipid composition could control the receptor localisation and functions in the cilia. We discuss how an interplay between ciliary lipid composition, localised lipid modification, and receptor function could contribute to cilia growth and signalling. We argue that lipid modification at the cell‐cilium interface could generate an added thrust for a selective exchange of membrane lipids and the transmembrane and membrane‐associated proteins.

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Mechanism of activation and the rewired network: New drug design concepts

Nussinov

Zhang

Maloney

et al. 2021

Medicinal Research Reviews

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Precision oncology benefits from effective early phase drug discovery decisions. Recently, drugging inactive protein conformations has shown impressive successes, raising the cardinal questions of which targets can profit and what are the principles of the active/inactive protein pharmacology. Cancer driver mutations have been established to mimic the protein activation mechanism. We suggest that the decision whether to target an inactive (or active) conformation should largely rest on the protein mechanism of activation. We next discuss the recent identification of double (multiple) same‐allele driver mutations and their impact on cell proliferation and suggest that like single driver mutations, double drivers also mimic the mechanism of activation. We further suggest that the structural perturbations of double (multiple) in cis mutations may reveal new surfaces/pockets for drug design. Finally, we underscore the preeminent role of the cellular network which is deregulated in cancer. Our structure‐based review and outlook updates the traditional Mechanism of Action, informs decisions, and calls attention to the intrinsic activation mechanism of the target protein and the rewired tumor‐specific network, ushering innovative considerations in precision medicine.

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Autoinhibition of TRPV6 Channel and Regulation by PIP2

Cited by 25 publications

References 58 publications

Auto-inhibitory intramolecular S5/S6 interaction in the TRPV6 channel regulates breast cancer cell migration and invasion

Auto-inhibitory intramolecular S5/S6 interaction in the TRPV6 channel regulates breast cancer cell migration and invasion

Ciliary membrane, localised lipid modification and cilia function

Mechanism of activation and the rewired network: New drug design concepts

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