Proteasome inhibition preserves longitudinal growth of denervated muscle and prevents neonatal neuromuscular contractures
Sia Nikolaou, … , Douglas P. Millay, Roger Cornwall
Sia Nikolaou, … , Douglas P. Millay, Roger Cornwall
Published October 29, 2019
Citation Information: JCI Insight. 2019;4(23):e128454. https://doi.org/10.1172/jci.insight.128454.
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Research Article Muscle biology

Proteasome inhibition preserves longitudinal growth of denervated muscle and prevents neonatal neuromuscular contractures

Abstract

Muscle contractures are a prominent and disabling feature of many neuromuscular disorders, including the 2 most common forms of childhood neurologic dysfunction: neonatal brachial plexus injury (NBPI) and cerebral palsy. There are currently no treatment strategies to directly alter the contracture pathology, as the pathogenesis of these contractures is unknown. We previously showed in a mouse model of NBPI that contractures result from impaired longitudinal muscle growth. Current presumed explanations for growth impairment in contractures focus on the dysregulation of muscle stem cells, which differentiate and fuse to existing myofibers during growth, as this process has classically been thought to control muscle growth during the neonatal period. Here, we demonstrate in a mouse model of NBPI that denervation does not prevent myonuclear accretion and that reduction in myonuclear number has no effect on functional muscle length or contracture development, providing definitive evidence that altered myonuclear accretion is not a driver of neuromuscular contractures. In contrast, we observed elevated levels of protein degradation in NBPI muscle, and we demonstrate that contractures can be pharmacologically prevented with the proteasome inhibitor bortezomib. These studies provide what we believe is the first strategy to prevent neuromuscular contractures by correcting the underlying deficit in longitudinal muscle growth.

Authors

Sia Nikolaou, Alyssa A.W. Cramer, Liangjun Hu, Qingnian Goh, Douglas P. Millay, Roger Cornwall

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Figure 2

Reduced myonuclear numbers do not control muscle length or contracture pathology.

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Reduced myonuclear numbers do not control muscle length or contracture p...
(A) Mymk (myomaker) was deleted in MuSCs to prevent myonuclear accretion. Expression of Mymk in muscle from MymkloxP/loxP (control) and MymkloxP/loxP Pax7CreER (MymkscKO) at postnatal day 5 (P5) after treatment with tamoxifen (Tam.) at P0 (n = 4 each for control and MymkscKO). (B) Representative single myofibers from the extensor digitorum longus (EDL), stained with DAPI, of control and MymkscKO at P28, following tamoxifen at P0. (C) Quantification of nuclei per myofiber from the samples in B (n = 3 each for control and MymkscKO). (D) DIC images (left) from control and MymkscKO EDL showing similar sarcomere lengths. Nuclei are outlined in red. Quantification (right) of the myonuclear domain in length, expressed as the number of sarcomeres per nucleus in a 1000-μm segment of the myofiber; and quantification of myonuclear domain in volume (n = 3 each for control and MymkscKO). (E) Schematic showing experimental design to delete Mymk just before NBPI and assess myonuclear numbers and contracture pathology at P33. (F) Single myofiber images from contralateral and NBPI biceps of control and MymkscKO mice. DAPI shows myonuclei. (G) Quantification of nuclei per myofiber in the various groups of mice (n = 4 each for control and MymkscKO). (H) Brachialis sarcomere length, where increased sarcomere length indicates reduced functional muscle length (sarcomeres in series). Reduction in myonuclear numbers by 75% in MymkscKO muscle does not impact muscle length (control, n = 6 and MymkscKO, n = 9). (I) Assessment of elbow extension in the various groups of mice, where 170°–180° represents full range of motion. NBPI causes reduced range of motion, but reduction in myonuclear numbers in MymkscKO does not reduce range of motion in contralateral limbs or exacerbate the reduction caused by NBPI (control, n = 6 and MymkscKO, n = 9). (J) Assessment of biceps average single myofiber widths from F. NBPI reduces myofiber width, but reduction in myonuclear numbers in MymkscKO does not reduce myofiber width in contralateral biceps or exacerbate the reduction caused by NBPI (control, n = 4 and MymkscKO, n = 4). Data are presented as mean ± SD. Statistical analysis was performed with unpaired 2-tailed Student’s t test in A, C, and D; and with unpaired, 2-tailed Student’s t test between groups and paired, 2-tailed Student’s t test between limbs of mice in each group in GJ; except comparisons including NBPI brachialis sarcomere length in MymkscKO mice in H, where nonparametric tests (Mann-Whitney U test between groups and Wilcoxon’s signed-rank test between sides) were used due to non-normal distribution of these data. Bonferroni’s corrections for multiple comparisons were performed in GJ, and adjusted P values are reported for those data. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001. Scale bars: 100 μm. NS, not significant.