Vascular defects and spinal cord hypoxia in spinal muscular atrophy

Eilidh Somers, Robert D. Lees, Katie Hoban, James N. Sleigh, Haiyan Zhou, Francesco Muntoni, Kevin Talbot, Thomas H. Gillingwater, Simon H. Parson

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

Objective: Spinal Muscular Atrophy (SMA) is a major inherited cause of infant death worldwide. It results from mutations in a single, ubiquitously expressed gene (SMN1), with loss of lower motor neurons being the primary pathological signature. Systemic defects have also been reported in SMA patients and animal models. We investigated whether defects associated with the vasculature contribute to motor neuron pathology in SMA.

Methods: Development and integrity of the capillary bed was examined in skeletal muscle and spinal cord of SMA mice, and muscle biopsies from SMA patients and controls, using quantitative morphometric approaches on immunohistochemically labeled tissue. Pimonidazole hydrochloride–based assays were used to identify functional hypoxia.

Results: The capillary bed in muscle and spinal cord was normal in presymptomatic SMA mice (postnatal day 1), but failed to match subsequent postnatal development in control littermates. At mid‐ and late‐symptomatic time points, the extent of the vascular architecture observed in two distinct mouse models of SMA was ∼50% of that observed in control animals. Skeletal muscle biopsies from human patients confirmed the presence of developmentally similar, significant vascular depletion in severe SMA. Hypovascularity in SMA mouse spinal cord was accompanied by significant functional hypoxia and defects in the blood–spinal cord barrier.

Interpretation: Our results indicate that vascular defects are a major feature of severe forms of SMA, present in both mouse models and patients, resulting in functional hypoxia of motor neurons. Thus, abnormal vascular development and resulting hypoxia may contribute to the pathogenesis of SMA. Ann Neurol 2016;79:217–230
Original languageEnglish
Pages (from-to)217-230
Number of pages14
JournalAnnals of Neurology
Issue number2
Early online date13 Jan 2016
Publication statusE-pub ahead of print - 13 Jan 2016


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