Abstract
Familial Alzheimer disease (FAD) is linked to mutations in the presenilin (PS) homologs. FAD mutant PS expression has several cellular consequences, including exaggerated intracellular Ca(2+) ([Ca(2+)](i)) signaling due to enhanced agonist sensitivity and increased magnitude of [Ca(2+)](i) signals. The mechanisms underlying these phenomena remain controversial. It has been proposed that PSs are constitutively active, passive endoplasmic reticulum (ER) Ca(2+) leak channels and that FAD PS mutations disrupt this function resulting in ER store overfilling that increases the driving force for release upon ER Ca(2+) release channel opening. To investigate this hypothesis, we employed multiple Ca(2+) imaging protocols and indicators to directly measure ER Ca(2+) dynamics in several cell systems. However, we did not observe consistent evidence that PSs act as ER Ca(2+) leak channels. Nevertheless, we confirmed observations made using indirect measurements employed in previous reports that proposed this hypothesis. Specifically, cells lacking PS or expressing a FAD-linked PS mutation displayed increased area under the ionomycin-induced [Ca(2+)](i) versus time curve (AI) compared with cells expressing WT PS. However, an ER-targeted Ca(2+) indicator revealed that this did not reflect overloaded ER stores. Monensin pretreatment selectively attenuated the AI in cells lacking PS or expressing a FAD PS allele. These findings contradict the hypothesis that PSs form ER Ca(2+) leak channels and highlight the need to use ER-targeted Ca(2+) indicators when studying ER Ca(2+) dynamics.
Highlights
Presenilins (PS) were proposed to form endoplasmic reticulum Ca2ϩ channels, with their function disrupted in familial Alzheimer disease (FAD)
Many studies have reported aberrant [Ca2ϩ]i homeostasis associated with expression of FAD-linked PS alleles [5,6,7,8,9,10,11,12]
Several mechanisms have been proposed to account for these phenomena (18 –22, 24, 31), including the hypothesis that FAD mutations in PS disrupt its normal function as an endoplasmic reticulum (ER) Ca2ϩ leak channel (26 –28, 30, 31)
Summary
Presenilins (PS) were proposed to form endoplasmic reticulum Ca2ϩ channels, with their function disrupted in familial Alzheimer disease (FAD). It has been proposed that PSs are constitutively active, passive endoplasmic reticulum (ER) Ca2؉ leak channels and that FAD PS mutations disrupt this function resulting in ER store overfilling that increases the driving force for release upon ER Ca2؉ release channel opening To investigate this hypothesis, we employed multiple Ca2؉ imaging protocols and indicators to directly measure ER Ca2؉ dynamics in several cell systems. It has been proposed that PS holoproteins are Ca2ϩ channels that comprise the passive ER Ca2ϩ leak, with FAD PS mutations disrupting this function (26 –28, 30, 31) Disruption of this function was suggested to result in Ca2ϩ overloading of the ER store, with consequent exaggerated Ca2ϩ release in response to agonists. Our results fail to provide consistent evidence in agreement with predictions made by the hypothesis that PS holoproteins function as ER Ca2ϩ leak channels
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