Removal of pomt1 in zebrafish leads to loss of α-dystroglycan glycosylation and dystroglycanopathy phenotypes.
Brittany F KarasKristin R TerezShorbon MowlaNamarata BattulaKyle P FlanneryBrian M GuralGrace AbousslemanNuma MubinM Chiara ManziniPublished in: Human molecular genetics (2024)
Biallelic mutations in Protein O-mannosyltransferase 1 (POMT1) are among the most common causes of a severe group of congenital muscular dystrophies (CMDs) known as dystroglycanopathies. POMT1 is a glycosyltransferase responsible for the attachment of a functional glycan mediating interactions between the transmembrane glycoprotein dystroglycan and its binding partners in the extracellular matrix (ECM). Disruptions in these cell-ECM interactions lead to multiple developmental defects causing brain and eye malformations in addition to CMD. Removing Pomt1 in the mouse leads to early embryonic death due to the essential role of dystroglycan during placental formation in rodents. Here, we characterized and validated a model of pomt1 loss of function in the zebrafish showing that developmental defects found in individuals affected by dystroglycanopathies can be recapitulated in the fish. We also discovered that pomt1 mRNA provided by the mother in the oocyte supports dystroglycan glycosylation during the first few weeks of development. Muscle disease, retinal synapse formation deficits, and axon guidance defects can only be uncovered during the first week post fertilization by generating knock-out embryos from knock-out mothers. Conversely, maternal pomt1 from heterozygous mothers was sufficient to sustain muscle, eye, and brain development only leading to loss of photoreceptor synapses at 30 days post fertilization. Our findings show that it is important to define the contribution of maternal mRNA while developing zebrafish models of dystroglycanopathies and that offspring generated from heterozygous and knock-out mothers can be used to differentiate the role of dystroglycan glycosylation in tissue formation and maintenance.
Keyphrases
- extracellular matrix
- early onset
- skeletal muscle
- white matter
- binding protein
- traumatic brain injury
- birth weight
- stem cells
- resting state
- single cell
- high fat diet
- type diabetes
- body mass index
- adipose tissue
- intellectual disability
- metabolic syndrome
- clinical trial
- hepatitis c virus
- cerebral ischemia
- human immunodeficiency virus
- muscular dystrophy
- transcription factor
- gestational age
- bone marrow
- drug induced
- subarachnoid hemorrhage
- body composition
- resistance training
- protein protein
- weight gain