Newest Articles
RYR3 ablation affects EOM functionExtraocular muscles are specialized skeletal muscles expressing a particular set of proteins involved in calcium homeostasis, including RYR3. Eckhardt et al. investigate extraocular muscle function in ryr3−/− mice and show that ablation of RYR3 significantly impacts vision.
Regulating CFTR recruitment to membrane microdomainsLittle is known about how CFTR, the Cl− channel that is mutated in cystic fibrosis, interacts with lipids. Abu-Arish et al. show that agents that stimulate salt and fluid secretion reduce CFTR lateral mobility and promote its clustering into ceramide-rich platforms, thereby increasing its surface expression.
TMEM16A Cl− currents in olfactory epitheliumGlial-like supporting cells of the olfactory epithelium are involved in a variety of processes important to the function of this tissue. Henriques et al. find that supporting cells exhibit an ATP-induced, Ca2+-sensitive Cl− current produced by TMEM16A Cl− channels.
Altered CaV2.1 gating linked to a developmental disorderCa2+ flux into axon terminals via CaV2.1 is the trigger for neurotransmitter release at neuromuscular junctions and many central synapses. Our data raise the possibility that an arginine to proline substitution at residue 1,673 causes a severe neurodevelopmental disorder by making CaV2.1 less sensitive to changes in membrane potential.
N-terminal regulation of ASIC2a desensitizationAcid-sensing ion channels (ASICs) are voltage-independent cation channels that are modulated by extracellular pH fluctuations. Lee et al. identify three neutral residues in the N terminus (T25, T39, and I40) that are critical for rapid resensitization of homomeric and heteromeric ASIC2a channels.
Thermal activation of cardiac thin filamentsMuscle fiber contraction involves chemical reactions and structural changes that are sensitive to temperature. Ishii et al. show that rapid heating causes cardiac thin filament sliding, and the data could indicate that thin filaments are partially activated during diastole at mammalian body temperature.
Ionic currents and Ca2+ transients in intact heartsIntact heart physiology assessed by local-field optical techniques helps decipher cardiac function at the organ level. Here, we found that the phase 1 repolarization rate of the mouse ventricular action potential defines contractility by regulating the deactivation of an L-type Ca2+ current.
Current Issue
May 6, 2019
Volume 151, No. 5
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Reviews & Opinions
- Isolating a reverse-mode ATP synthase–dependent mechanism of mitoflash activation
Wei-LaPierre and Dirksen discuss new work investigating the molecular events underlying mitoflash biogenesis.
- Tracking nitroxyl-derived posttranslational modifications of phospholamban in cardiac myocytes
Mundiña-Weilenmann and Mattiazzi examine new work revealing the mechanism by which nitroxide modifies uptake of Ca2+ into the SR.
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JGP study shows that pro-secretory agonists prompt CFTR to assemble into large lipid platforms.