Oscar Sánchez-Carranza scite author profile

Mechanosensitive PIEZO ion channels are evolutionarily conserved proteins whose presence is critical for normal physiology in multicellular organisms. Here we show that, in addition to mechanical stimuli, PIEZO channels are also powerfully modulated by voltage and can even switch to a purely voltage-gated mode. Mutations that cause human diseases, such as xerocytosis, profoundly shift voltage sensitivity of PIEZO1 channels toward the resting membrane potential and strongly promote voltage gating. Voltage modulation may be explained by the presence of an inactivation gate in the pore, the opening of which is promoted by outward permeation. Older invertebrate (fly) and vertebrate (fish) PIEZO proteins are also voltage sensitive, but voltage gating is a much more prominent feature of these older channels. We propose that the voltage sensitivity of PIEZO channels is a deep property co-opted to add a regulatory mechanism for PIEZO activation in widely different cellular contexts.

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Membrane hyperpolarization during human sperm capacitation

López-González¹,

Torres-Rodríguez²,

Sánchez-Carranza³

et al. 2014

113

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Sperm capacitation is a complex and indispensable physiological process that spermatozoa must undergo in order to acquire fertilization capability. Spermatozoa from several mammalian species, including mice, exhibit a capacitation-associated plasma membrane hyperpolarization, which is necessary for the acrosome reaction to occur. Despite its importance, this hyperpolarization event has not been adequately examined in human sperm. In this report we used flow cytometry to show that a subpopulation of human sperm indeed undergo a plasma membrane hyperpolarization upon in vitro capacitation. This hyperpolarization correlated with two other well-characterized capacitation parameters, namely an increase in intracellular pH and Ca(2+) concentration, measured also by flow cytometry. We found that sperm membrane hyperpolarization was completely abolished in the presence of a high external K(+) concentration (60 mM), indicating the participation of K(+) channels. In order to identify, which of the potential K(+) channels were involved in this hyperpolarization, we used different K(+) channel inhibitors including charybdotoxin, slotoxin and iberiotoxin (which target Slo1) and clofilium (a more specific blocker for Slo3). All these K(+) channel antagonists inhibited membrane hyperpolarization to a similar extent, suggesting that both members of the Slo family may potentially participate. Two very recent papers recorded K(+) currents in human sperm electrophysiologically, with some contradictory results. In the present work, we show through immunoblotting that Slo3 channels are present in the human sperm membrane. In addition, we found that human Slo3 channels expressed in CHO cells were sensitive to clofilium (50 μM). Considered altogether, our data indicate that Slo1 and Slo3 could share the preponderant role in the capacitation-associated hyperpolarization of human sperm in contrast to what has been previously reported for mouse sperm, where Slo3 channels are the main contributors to the hyperpolarization event.

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Rapid molecular evolution of pain insensitivity in multiple African rodents

Eigenbrod

Debus

Reznick

et al. 2019

Science

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Noxious substances, called algogens, cause pain and are used as defensive weapons by plants and stinging insects. We identified four previously unknown instances of algogen-insensitivity by screening eight African rodent species related to the naked mole-rat with the painful substances capsaicin, acid (hydrogen chloride, pH 3.5), and allyl isothiocyanate (AITC). Using RNA sequencing, we traced the emergence of sequence variants in transduction channels, like transient receptor potential channel TRPA1 and voltage-gated sodium channel Nav1.7, that accompany algogen insensitivity. In addition, the AITC-insensitive highveld mole-rat exhibited overexpression of the leak channel NALCN (sodium leak channel, nonselective), ablating AITC detection by nociceptors. These molecular changes likely rendered highveld mole-rats immune to the stings of the Natal droptail ant. Our study reveals how evolution can be used as a discovery tool to find molecular mechanisms that shut down pain.

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TMEM87a/Elkin1, a component of a novel mechanoelectrical transduction pathway, modulates melanoma adhesion and migration

Patkunarajah

Stear

Moroni

et al. 2020

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37Mechanoelectrical transduction is a cellular signalling pathway where physical stimuli are 38 converted into electro-chemical signals by mechanically activated ion channels. We describe 39 here the presence of mechanically activated currents in melanoma cells that are dependent on 40 TMEM87a, which we have renamed Elkin1. Heterologous expression of this protein in 41 PIEZO1-deficient cells, that exhibit no baseline mechanosensitivity, is sufficient to 42 reconstitute mechanically activated currents. Melanoma cells lacking functional Elkin1 43 exhibit defective mechanoelectrical transduction, decreased motility and increased 44 dissociation from organotypic spheroids. By analysing cell adhesion properties, we 45 demonstrate that Elkin1 deletion is associated with increased cell-substrate adhesion and 46 decreased homotypic cell-cell adhesion strength. We therefore conclude that Elkin1 supports 47 a PIEZO1-independent mechanoelectrical transduction pathway and modulates cellular 48 adhesions and regulates melanoma cell migration and cell-cell interactions. 49 50 130 occurred within the stimulus range, allowing us to use a Boltzmann sigmoidal fit to determine 131 the MA current sensitivity. Half-maximal activation of MA currents was seen with 132 approximately 18 nm of substrate deflection (Effective deflection ED50; standard error = 133 20.5 nm). These data indicate a correlation between migratory properties and the MA current 134 sensitivity to deflections applied at cell-substrate contact points. The robust MA current 135 activation observed in cells cultured on LM511 also provided an excellent system to 136 investigate the molecules required for this mechanoelectrical transduction. 137 5 138 157 1999), indicating that neither likely mediates the deflection-evoked currents in WM266-4 158 cells (Figure 1-figure supplement 2). We then examined the proteomics data for proteins of 159 unknown function with 4 or more predicted transmembrane (TM) domains. We prioritised 160 the investigation of Elkin1 due to its expression in melanoma cells but not healthy 161 melanocytes, its expression in additional mechanosensitive cells (Alveolar Type II cells) and 162 its upregulation in additional human cancers (Human Protein Atlas (Uhlén et al., 2005) 163 available from www.proteinatlas.org). We generated miRNA constructs targeting Elkin1 and 164 found that knockdown of Elkin1 transcript resulted in a dramatic reduction in MA currents to 165 deflections up to 1000 nm (Figure 2A,B). These data suggested that Elkin1 contributes to 166 MA currents in melanoma cells. 167 168 Three human isoforms (representing splice variants) of Elkin1 have been identified: isoforms 169 1 and 3 (555 and 494 aa respectively), contain 6 predicted TM domains (Figure 2C). Isoform 170 2 (181 aa) does not contain any predicted TM domains and was not examined in this study.171 6We cloned hsElkin1-iso1 and hsElkin1-iso3 from WM266-4 cDNA and generated C-terminal 172 GFP fusion constructs. We confirmed the plasma membrane localisation of these two 17...

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Pharmacology of hSlo3 channels and their contribution in the capacitation-associated hyperpolarization of human sperm

Sánchez-Carranza

Torres-Rodríguez

Darszon

et al. 2015

Biochemical and Biophysical Research Communications

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