Abstract
Spinal muscular atrophy with respiratory distress type 1 (SMARD1) and Charcot Marie Tooth type 2S (CMT2S) are due to mutations in immunoglobulin mu binding protein two (IGHMBP2). We generated the Ighmbp2-R604X mouse (R605X-humans) to understand how alterations in IGHMBP2 function impact disease pathology. The IGHMBP2-R605X mutation is associated with patients with SMARD1 or CMT2S. The impact of this mutation is substantial, Ighmbp2(R604X/R604X) mice have a decreased lifespan (6 days) and weight, and failure to thrive consistent with SMARD1 symptoms. Significant respiratory changes were present along with disease pathology of the phrenic nerve and diaphragm muscle fibers. Ighmbp2(R604X/R604X) mice also presented with signs of milk aspiration and lung pathology. Interestingly, P0 Ighmbp2(R604X/R604X) mice had visible milk spots, but demonstrated reduction of the milk spot by P3, indicating deficits in suckling. Alterations in hindlimb electrophysiology were consistent with the pathology of the sciatic nerve, hindlimb neuromuscular junction and muscle. Injection of the ssAAV9-WT-IGHMBP2 vector extended Ighmbp2(R604X/R604X) survival a few days. Ighmbp2(R604X/R604X) phenotypes are consistent with the most severe SMARD1 clinical symptoms and for the first time a Ighmbp2 mouse model demonstrates that milk aspiration and loss of the ability to suckle impact survival.