Polyglutamine expansions in huntingtin (Htt) are known to cause the profound neurodegenerative disorder, Huntington's disease (HD). Mitochondrial dysfunction has long been implicated in the pathophysiology of HD, but the underlying mechanism remains obscure. An article by Costa et al in this months edition describes a smooth mechanistic cascade from the well-accepted upstream event that mutant Htt is associated with Ca(2+) handling abnormalities, through to apoptotic neuronal death. The proposed cascade implicates calcineurin, activated by abnormal Ca(2+) levels, in the dephosphorylation of dynamin-1-like protein (Drp1), increasing its association with mitochondria and promoting fission, cristae disruption, cytochrome c release and apoptosis (Fig 1). Together with the recent reports of increased mitochondrial fission in striatal neurons from HD patients, the article by Costa et al provides a compelling case for the role of abnormal mitochondrial networking in HD pathogenesis.