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1.
Gastroenterology ; 2024 Aug 20.
Article in English | MEDLINE | ID: mdl-39173721

ABSTRACT

BACKGROUND AND AIMS: We recently identified a recessive syndrome due to LIG3 mutations in patients with chronic intestinal pseudo-obstruction, leukoencephalopathy and neurogenic bladder. LIG3 mutations affect mitochondrial DNA (mtDNA) maintenance, leading to defective energy production. We aimed at identifying altered molecular pathways and develop possible targeted treatments to revert / ameliorate the cellular energy impairment. METHODS: Whole transcriptome analysis was performed on patients' derived fibroblasts total RNA and controls. Mitochondrial function, mitophagy, L-Glutamine (L-Gln) supplementation effects were analyzed by live cell analysis, immunostaining and western blot. Patients were treated with Dipeptiven according to standard protocols. Patients' symptoms were analyzed by the Gastrointestinal Symptom Rating Scale questionnaire. RESULTS: We identified deregulated transcripts in mutant fibroblasts vs. controls, including overexpression of genes involved in extracellular matrix development and remodeling and mitochondrial functions. Gut biopsies of LIG3-mutant patients documented collagen and elastic fiber accumulation. Mutant fibroblasts exhibited impaired mitochondrial mitophagy indicative of dysfunctional turnover and altered Ca2+ homeostasis. L-Gln supplementation (6 mM), previously shown to increase mtDNA-defective cell survival, improved growth rate and ATP production in LIG3-mutant fibroblasts. These data led us to provide parenterally a dipeptide containing L-Gln to three siblings carrying biallelic LIG3 mutations. Compared to baseline, gastrointestinal and extra-gastrointestinal symptoms significantly improved after 8 months of treatment. CONCLUSIONS: LIG3 deficiency leads to mitochondrial dysfunction. High levels L-Gln supplementation was beneficial in LIG3-mutant cells and improved symptom severity without noticeable side effects. Our results provide a proof-of-concept to design ad hoc clinical trials with L-Gln in LIG3-mutant patients.

2.
Ann Neurol ; 2024 Jul 30.
Article in English | MEDLINE | ID: mdl-39078102

ABSTRACT

OBJECTIVES: We aimed to elucidate the pathogenic mechanisms underlying autosomal dominant adult-onset demyelinating leukodystrophy (ADLD), and to understand the genotype/phenotype correlation of structural variants (SVs) in the LMNB1 locus. BACKGROUND: Since the discovery of 3D genome architectures and topologically associating domains (TADs), new pathomechanisms have been postulated for SVs, regardless of gene dosage changes. ADLD is a rare genetic disease associated with duplications (classical ADLD) or noncoding deletions (atypical ADLD) in the LMNB1 locus. METHODS: High-throughput chromosome conformation capture, RNA sequencing, histopathological analyses of postmortem brain tissues, and clinical and neuroradiological investigations were performed. RESULTS: We collected data from >20 families worldwide carrying SVs in the LMNB1 locus and reported strong clinical variability, even among patients carrying duplications of the entire LMNB1 gene, ranging from classical and atypical ADLD to asymptomatic carriers. We showed that patients with classic ADLD always carried intra-TAD duplications, resulting in a simple gene dose gain. Atypical ADLD was caused by LMNB1 forebrain-specific misexpression due to inter-TAD deletions or duplications. The inter-TAD duplication, which extends centromerically and crosses the 2 TAD boundaries, did not cause ADLD. Our results provide evidence that astrocytes are key players in ADLD pathology. INTERPRETATION: Our study sheds light on the 3D genome and TAD structural changes associated with SVs in the LMNB1 locus, and shows that a duplication encompassing LMNB1 is not sufficient per se to diagnose ADLD, thereby strongly affecting genetic counseling. Our study supports breaking TADs as an emerging pathogenic mechanism that should be considered when studying brain diseases. ANN NEUROL 2024.

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