Dyggve-Melchior-Clausen syndrome (DMC), a severe autosomal recessive skeletal disorder with mental retardation, is caused by mutation of the gene encoding Dymeclin (DYM). Employing patient fibroblasts with mutations characterized at the genomic and, for the first time, transcript level, we identified profound disruption of Golgi organization as a pathogenic feature, resolved by transfection of heterologous wild-type Dymeclin. Collagen targeting appeared defective in DMC cells leading to near complete absence of cell surface collagen fibers. DMC cells have an elevated apoptotic index (P< 0.01) likely due to a stress response contingent upon Golgi-related trafficking defects. We performed spatiotemporal mapping of Dymeclin expression in zebrafish embryos and identified high levels of transcript in brain and cartilage during early development. Finally, in a chondrocyte cDNA library, we identified two novel secretion pathway proteins as Dymeclin interacting partners: GOLM1 and PPIB. Together these data identify the role of Dymeclin in secretory pathways essential to endochondral bone formation during early development.
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Atypical presentation of Dyggve-Melchior-Clausen disease in a Moroccan child without developmental delay and intellectual disabilities.
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Faculty of Medical Sciences, Mohamed VI Polytechnic University, Benguerir, Morocco.
Background: Dyggve-Melchior-Clausen (DMC) disease is a rare autosomal recessive disorder primarily characterized by spondylo-epimetaphyseal dysplasia, intellectual disability, and distinctive facial features. Patients typically present with severe developmental delays and cognitive impairments, defining features of the syndrome.
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Dyggve-Melchior-Clausen (DMC) disease, also known as DMC syndrome, is a rare, progressive genetic disorder that is characterized by skeletal and intellectual abnormalities. The case report involves a four-year-old male child presenting with marked short stature, intellectual disability, coarse facies, and microcephaly. Initial investigations, including blood tests and radiological evaluations, prompted further genetic testing via whole-exome sequencing.
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Dyggve-Melchior-Clausen dysplasia (DMC) and Smith-McCort dysplasia (SMC types 1 and 2) are rare spondylo-epi-metaphyseal dysplasias with identical radiological and clinical findings. DMC and SMC type 1 are allelic disorders caused by homozygous or compound heterozygous variants in DYM, while biallelic causative variants in RAB33B lead to SMC type 2. The terminology "skeletal golgipathies" has been recently used to describe these conditions, highlighting the pivotal role of these two genes in the organization and intracellular trafficking of the Golgi apparatus.
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