Ca2+, mitochondria and selective motoneuron vulnerability : implications for ALS

Motoneurons are selectively damaged in amyotrophic lateral sclerosis (ALS), a fatal neurodegenerative disorder. Although the underlying mechanisms are not completely understood, increasing evidence indicates that motoneurons are particularly sensitive to disruption of mitochondria and Ca(2+)-dependent signalling cascades. Comparison of ALS-vulnerable and ALS-resistant neurons identified low Ca(2+)-buffering capacity and a strong impact of mitochondrial signal cascades as important risk factors. Under physiological conditions, weak Ca(2+) buffers are valuable because they facilitate rapid relaxation times of Ca(2+) transients in motoneurons during high-frequency rhythmic activity. However, under pathological conditions, weak Ca(2+) buffers are potentially dangerous because they accelerate a vicious circle of mitochondrial disruption, Ca(2+) disregulation and excitotoxic cell damage.