ABT1 modifies SMARD1 pathology via interactions with IGHMBP2 and stimulation of ATPase and helicase activity
Gangadhar P. Vadla, … , Kamal Singh, Monique A. Lorson
Gangadhar P. Vadla, … , Kamal Singh, Monique A. Lorson
Published December 8, 2022
Citation Information: JCI Insight. 2023;8(2):e164608. https://doi.org/10.1172/jci.insight.164608.
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Research Article Genetics Neuroscience

ABT1 modifies SMARD1 pathology via interactions with IGHMBP2 and stimulation of ATPase and helicase activity

Abstract

SMA with respiratory distress type 1 (SMARD1) and Charcot-Marie-Tooth type 2S (CMT2S) are results of mutations in immunoglobulin mu DNA binding protein 2 (IGHMBP2). IGHMBP2 is a UPF1-like helicase with proposed roles in several cellular processes, including translation. This study examines activator of basal transcription 1 (ABT1), a modifier of SMARD1-nmd disease pathology. Microscale thermophoresis and dynamic light scattering demonstrate that IGHMBP2 and ABT1 proteins directly interact with high affinity. The association of ABT1 with IGHMBP2 significantly increases the ATPase and helicase activity as well as the processivity of IGHMBP2. The IGHMBP2/ABT1 complex interacts with the 47S pre-rRNA 5′ external transcribed spacer and U3 small nucleolar RNA (snoRNA), suggesting that the IGHMBP2/ABT1 complex is important for pre-rRNA processing. Intracerebroventricular injection of scAAV9-Abt1 decreases FVB-Ighmbp2nmd/nmd disease pathology, significantly increases lifespan, and substantially decreases neuromuscular junction denervation. To our knowledge, ABT1 is the first disease-modifying gene identified for SMARD1. We provide a mechanism proposing that ABT1 decreases disease pathology in FVB-Ighmbp2nmd/nmd mutants by optimizing IGHMBP2 biochemical activity (ATPase and helicase activity). Our studies provide insight into SMARD1 pathogenesis, suggesting that ABT1 modifies IGHMBP2 activity as a means to regulate pre-rRNA processing.

Authors

Gangadhar P. Vadla, Sara M. Ricardez Hernandez, Jiude Mao, Mona O. Garro-Kacher, Zachary C. Lorson, Ronin P. Rice, Sarah A. Hansen, Christian L. Lorson, Kamal Singh, Monique A. Lorson

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Figure 1

IGHMBP2 and ABT1 coimmunoprecipitate.

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IGHMBP2 and ABT1 coimmunoprecipitate. (A) IGHMBP2 and ABT1 coimmunopreci...
(A) IGHMBP2 and ABT1 coimmunoprecipitation using anti-IGHMBP2 antibodies for Western blot. Lane 1 shows A/G beads alone, lane 2 shows A/G beads of ABT1 preclear lysate, lane 3 shows A/G beads of IGHMBP2 + ABT1 preclear lysate, lane 4 shows ABT1 lysate IP with anti-GST antibodies, lane 5 shows IGHMBP2 + ABT1 IP with anti-His antibodies, lane 6 shows IGHMBP2 + ABT1 IP with anti-IGHMBP2 antibodies, lane 7 shows protein marker, lane 8 shows IGHMBP2 + ABT1 IP with anti-ABT1 antibodies, lane 9 shows IGHMBP2 + ABT1 IP with anti-GST antibodies, and lane 10 shows IGHMBP2 + ABT1 IP with IP serum (1:20 dilution) (negative control). (B) IGHMBP2 and ABT1 coimmunoprecipitation using anti-ABT1 antibodies for Western blot. Lane 1 shows protein marker, lane 2 shows A/G beads alone, lane 3 shows A/G beads of ABT1 preclear lysate, lane 4 shows A/G beads of IGHMBP2 + ABT1 preclear lysate, lane 5 shows ABT1 lysate IP with anti-GST antibodies, lane 6 shows IGHMBP2 + ABT1 IP with anti-His antibodies, lane 7 shows IGHMBP2 + ABT1 IP with anti-IGHMBP2 antibodies, lane 8 shows IGHMBP2 + ABT1 IP with anti-GST antibodies, lane 9 shows IGHMBP2 + ABT1 IP with anti-ABT1 antibodies, and lane 10 shows IGHMBP2 + ABT1 IP with IP serum (1:20 dilution) (negative control). ABT1, 31 kDa ABT1 + ~26 kDa GST; IGHMBP2, 110 kDa IGHMBP2 + ~14 kDa thioredoxin–6× His.