Age-dependent SMN expression in disease-relevant tissue and implications for SMA treatment
Daniel M. Ramos, … , Thomas O. Crawford, Charlotte J. Sumner
Daniel M. Ramos, … , Thomas O. Crawford, Charlotte J. Sumner
Published November 1, 2019; First published October 7, 2019
Citation Information: J Clin Invest. 2019;129(11):4817-4831. https://doi.org/10.1172/JCI124120.
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Clinical Medicine Development Neuroscience

Age-dependent SMN expression in disease-relevant tissue and implications for SMA treatment

Abstract

BACKGROUND Spinal muscular atrophy (SMA) is caused by deficient expression of survival motor neuron (SMN) protein. New SMN-enhancing therapeutics are associated with variable clinical benefits. Limited knowledge of baseline and drug-induced SMN levels in disease-relevant tissues hinders efforts to optimize these treatments.METHODS SMN mRNA and protein levels were quantified in human tissues isolated during expedited autopsies.RESULTS SMN protein expression varied broadly among prenatal control spinal cord samples, but was restricted at relatively low levels in controls and SMA patients after 3 months of life. A 2.3-fold perinatal decrease in median SMN protein levels was not paralleled by comparable changes in SMN mRNA. In tissues isolated from nusinersen-treated SMA patients, antisense oligonucleotide (ASO) concentration and full-length (exon 7 including) SMN2 (SMN2-FL) mRNA level increases were highest in lumbar and thoracic spinal cord. An increased number of cells showed SMN immunolabeling in spinal cord of treated patients, but was not associated with an increase in whole-tissue SMN protein levels.CONCLUSIONS A normally occurring perinatal decrease in whole-tissue SMN protein levels supports efforts to initiate SMN-inducing therapies as soon after birth as possible. Limited ASO distribution to rostral spinal and brain regions in some patients likely limits clinical response of motor units in these regions for those patients. These results have important implications for optimizing treatment of SMA patients and warrant further investigations to enhance bioavailability of intrathecally administered ASOs.FUNDING SMA Foundation, SMART, NIH (R01-NS096770, R01-NS062869), Ionis Pharmaceuticals, and PTC Therapeutics. Biogen provided support for absolute real-time RT-PCR.

Authors

Daniel M. Ramos, Constantin d’Ydewalle, Vijayalakshmi Gabbeta, Amal Dakka, Stephanie K. Klein, Daniel A. Norris, John Matson, Shannon J. Taylor, Phillip G. Zaworski, Thomas W. Prior, Pamela J. Snyder, David Valdivia, Christine L. Hatem, Ian Waters, Nikhil Gupte, Kathryn J. Swoboda, Frank Rigo, C. Frank Bennett, Nikolai Naryshkin, Sergey Paushkin, Thomas O. Crawford, Charlotte J. Sumner

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Figure 4

SMN protein expression correlates with SMN1-FL prenatally, but not postnatally, in human spinal cord.

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SMN protein expression correlates with SMN1-FL prenatally, but not postn...
(A) Correlation between SMN protein measured via HTRF and SMN1-FL mRNA expression in control human thoracic spinal cord cases (n = 75) stratified by indicated age bins. (B) Correlation of SMN protein with the sum of SMN1-FL+SMN2-FL mRNA. (C) Correlation between SMN protein measured via HTRF and SMN2-FL mRNA in SMA cases (n = 16). Single prenatal SMA case circled. Linear regression analysis was performed to achieve R2 and P values.