The molecular mechanisms that underlie IGHMBP2‐related diseases

Immunoglobulin Mu‐binding protein 2 (IGHMBP2) pathogenic variants result in the fatal, neurodegenerative disease spinal muscular atrophy with respiratory distress type 1 (SMARD1) and the milder, Charcot–Marie‐Tooth (CMT) type 2S (CMT2S) neuropathy. More than 20 years after the link between IGHMBP2 a...

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Veröffentlicht in:Neuropathology and applied neurobiology 2024-08, Vol.50 (4), p.e13005-n/a
Hauptverfasser: Rzepnikowska, Weronika, Kaminska, Joanna, Kochański, Andrzej
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Sprache:eng
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Zusammenfassung:Immunoglobulin Mu‐binding protein 2 (IGHMBP2) pathogenic variants result in the fatal, neurodegenerative disease spinal muscular atrophy with respiratory distress type 1 (SMARD1) and the milder, Charcot–Marie‐Tooth (CMT) type 2S (CMT2S) neuropathy. More than 20 years after the link between IGHMBP2 and SMARD1 was revealed, and 10 years after the discovery of the association between IGHMBP2 and CMT2S, the pathogenic mechanism of these diseases is still not well defined. The discovery that IGHMBP2 functions as an RNA/DNA helicase was an important step, but it did not reveal the pathogenic mechanism. Helicases are enzymes that use ATP hydrolysis to catalyse the separation of nucleic acid strands. They are involved in numerous cellular processes, including DNA repair and transcription; RNA splicing, transport, editing and degradation; ribosome biogenesis; translation; telomere maintenance; and homologous recombination. IGHMBP2 appears to be a multifunctional factor involved in several cellular processes that regulate gene expression. It is difficult to determine which processes, when dysregulated, lead to pathology. Here, we summarise our current knowledge of the clinical presentation of IGHMBP2‐related diseases. We also overview the available models, including yeast, mice and cells, which are used to study the function of IGHMBP2 and the pathogenesis of the related diseases. Further, we discuss the structure of the IGHMBP2 protein and its postulated roles in cellular functioning. Finally, we present potential anomalies that may result in the neurodegeneration observed in IGHMBP2‐related disease and highlight the most prominent ones. This review focuses on the pathological mechanisms that underlie immunoglobulin Mu‐binding protein 2 (IGHMBP2)‐related diseases. We provide an overview of the cellular processes likely to involve the IGHMBP2 protein and discuss the cellular abnormalities observed when IGHMBP2 is depleted. We also suggest possible reasons for neuron degeneration in IGHMBP2‐related diseases.
ISSN:0305-1846
1365-2990
1365-2990
DOI:10.1111/nan.13005