José R. López scite author profile

Neurodegeneration in Alzheimer’s disease (AD) has been linked to intracellular accumulation of misfolded proteins and dysregulation of intracellular Ca2+. In the current work, we determined the contribution of specific Ca2+ pathways to an alteration in Ca2+ homeostasis in primary cortical neurons from an adult triple transgenic (3xTg‐AD) mouse model of AD that exhibits intraneuronal accumulation of β‐amyloid proteins. Resting free Ca2+ concentration ([Ca2+]i), as measured with Ca2+‐selective microelectrodes, was greatly elevated in neurons from 3xTg‐AD and APPSWE mouse strains when compared with their respective non‐transgenic neurons, while there was no alteration in the resting membrane potential. In the absence of the extracellular Ca2+, the [Ca2+]i returned to near normal levels in 3xTg‐AD neurons, demonstrating that extracellular Ca2+contributed to elevated [Ca2+]i. Application of nifedipine, or a non‐L‐type channel blocker, SKF‐96365, partially reduced [Ca2+]i. Blocking the ryanodine receptors, with ryanodine or FLA‐365 had no effect, suggesting that these channels do not contribute to the elevated [Ca2+]i. Conversely, inhibition of inositol trisphosphate receptors with xestospongin C produced a partial reduction in [Ca2+]i. These results demonstrate that an elevation in resting [Ca2+]i, contributed by aberrant Ca2+entry and release pathways, should be considered a major component of the abnormal Ca2+ homeostasis associated with AD.

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Nonspecific sarcolemmal cation channels are critical for the pathogenesis of malignant hyperthermia

Eltit

et al. 2012

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Malignant hyperthermia (MH) susceptibility has been attributed to a leaky sarcoplasmic reticulum (SR) caused by missense mutations in RYR1 or CACNA1S, and the MH crisis has been attributed solely to massive self-sustaining release of Ca(2+) from SR stores elicited by triggering agents. Here, we show in muscle cells from MH-RyR1(R163C) knock-in mice that increased passive SR Ca(2+) leak causes an enlarged basal influx of sarcolemmal Ca(2+) that results in chronically elevated myoplasmic free Ca(2+) concentration ([Ca(2+)]i) at rest. We discovered that Gd(+3) and GsMTx-4 were more effective than BTP2 or expression of the dominant-negative Orai1(E190Q) in reducing both Ca(2+) entry and [Ca(2+)]i, implicating a non-STIM1/Orai1 SOCE pathway in resetting resting [Ca(2+)]i. Indeed, two nonselective cationic channels, TRPC3 and TRPC6, are overexpressed, and [Na]i is chronically elevated in MH-RyR1(R163C) muscle cells. [Ca(2+)]i and [Na(+)]i are persistently elevated in vivo and further increased by halothane in MH-RyR1(R163C/WT) muscle. These increases are markedly attenuated by local perfusion of Gd(+3) or GsMTx-4 and completely suppressed by dantrolene. These results contribute a new paradigm for understanding MH pathophysiology by demonstrating that nonselective sarcolemmal cation channel activity plays a critical role in causing myoplasmic Ca(2+) and Na(+) overload both at rest and during the MH crisis.-Eltit, J. M., Ding, X., Pessah, I. N., Allen, P. D., Lopez, J. R. Nonspecific sarcolemmal cation channels are critical for the pathogenesis of malignant hyperthermia.

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José R. López

Pharmacologic and Functional Characterization of Malignant Hyperthermia in the R163C RyR1 Knock-in Mouse

Heart and Skeletal Muscle Are Targets of Dengue Virus Infection

Increased intraneuronal resting [Ca²⁺] in adult Alzheimer’s disease mice

Nonspecific sarcolemmal cation channels are critical for the pathogenesis of malignant hyperthermia

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José R. López

Pharmacologic and Functional Characterization of Malignant Hyperthermia in the R163C RyR1 Knock-in Mouse

Heart and Skeletal Muscle Are Targets of Dengue Virus Infection

Increased intraneuronal resting [Ca2+] in adult Alzheimer’s disease mice

Nonspecific sarcolemmal cation channels are critical for the pathogenesis of malignant hyperthermia

Contact Info

Product

Resources

About

Increased intraneuronal resting [Ca²⁺] in adult Alzheimer’s disease mice