Beta-mannosidosis in a domestic cat associated with a missense variant in MANBA.

A 6-month-old cat of unknown ancestry presented for a neurologic evaluation due to progressive motor impairment. Complete physical and neurologic examinations suggested the disorder was likely to be hereditary, although the signs were not consistent with any previously described inherited disorders in cats. Due to the progression of disease signs including severely impaired motor function and cognitive decline, the cat was euthanized at approximately 10.5 months of age. Whole genome sequence analysis identified a homozygous missense variant c.2506G > A in MANBA that predicts a p.Gly836Arg alteration in the encoded lysosomal enzyme ß -mannosidase. This variant was not present in the whole genome or whole exome sequences of any of the 424 cats represented in the 99 Lives Cat Genome dataset. ß -Mannosidase enzyme activity was undetectable in brain tissue homogenates from the affected cat, whereas α-mannosidase enzyme activities were elevated compared to an unaffected cat. Postmortem examination of brain and retinal tissues revealed massive accumulations of vacuolar inclusions in most cells, similar to those reported in animals of other species with hereditary ß -mannosidosis. Based on these findings, the cat likely suffered from ß -mannosidosis due to the abolition of ß -mannosidase activity associated with the p.Gly836Arg amino acid substitution. p.Gly836 is located in the C-terminal region of the protein and was not previously known to be involved in modulating enzyme activity. In addition to the vacuolar inclusions, some cells in the brain of the affected cat contained inclusions that exhibited lipofuscin-like autofluorescence. Electron microscopic examinations suggested these inclusions formed via an autophagy-like process.

Hereditary ß-mannosidosis in a dog: Clinicopathological and molecular genetic characterization.

Hereditary ß-mannosidosis causing progressive lysosomal neuropathy and other clinical signs, has been previously described in humans, Nubian goats, and Salers cattle. Here we report the clinicopathological, metabolic, and molecular genetic features of canine beta-mannosidase (MANBA, EC 3.2.1.25) deficiency. A 1-year-old male mix-breed dog from St. Kitts was presented with progressive stumbling, weakness, and regurgitation. Vacuolated lymphocytes were observed on the blood film. Postmortem findings included marked enlargement of nerves, megaesophagus, and internal hydrocephalus. Vacuolated macrophages, neurons, and secretory epithelial cells suggested an oligosaccharide storage disease. Plasma concentration of the ß-mannosidosis specific oligosaccharide was approximately 75 fold that of controls. The plasma beta-mannosidase activity was severely reduced to ~5% of controls; five other lysosomal acid hydrolase activities were increased or within their normal reference interval. Genomic sequencing of this dog's MANBA gene identified a homozygous exonic five bp tandem duplication in the penultimate exon of the MANBA gene (c.2377_2381dupTATCA) which results in a reading frame shift, altering the subsequent amino acid sequence and creating a premature stop codon. The truncated beta-mannosidase enzyme is expected to be dysfunctional. This enzyme deficiency causes the accumulation of un-degraded oligosaccharides in cells, which affect the myelination of the peripheral and central nervous systems. This insertion was not encountered in 121 and 80-screened samples from dogs on St. Kitts (all were homozygous for wild-type) and Philadelphia region (wild-type), respectively. In conclusion, canine ß-mannosidosis has similar clinicopathological features with some human patients, but milder signs than in ruminants and more severe than in knockout mice. Hence, dogs with ß-mannosidosis could become a valuable disease model for the human disease.

ß-Mannosidosis caused by a novel homozygous intragenic inverted duplication in MANBA.

ß-Mannosidosis is a lysosomal storage disorder characterized by accumulation of disaccharides due to deficiency of the lysosomal enzyme ß-mannosidase. The disease is caused by mutations in MANBA and is extremely rare in humans. Although the clinical presentation is heterogeneous, common symptoms include various degrees of developmental delay, behavioral disturbances, hearing loss, and frequent infections. We report a 15-yr-old girl presenting with mild intellectual disability, sensorineural hearing loss, severe behavioral disturbances, dysmorphic traits, and evolving angiokeratomas. Copy-number variation analysis of next-generation sequencing (NGS) data indicated increased coverage in exons 8-11 of MANBA Low ß-mannosidase activity (1 µkatal/kg protein, refv 25-40) established the diagnosis of ß-mannosidosis. Whole-genome sequencing (WGS) and cDNA analysis revealed a novel homozygous intragenic inverted duplication in MANBA, where a 13.1-kb region between introns 7 and 11 was duplicated and inserted in an inverted orientation, creating a 67-base nonduplicated gap at the insertion point. Both junctions showed microhomology regions. The inverted duplication resulted in exon skipping of exons 8-9 or 8-10. Our report highlights the importance of copy-number variation analysis of data from NGS and in particular the power of WGS in the identification and characterization of copy-number variants.

Molecular analysis in two beta-mannosidosis patients: description of a new adult case.

beta-Mannosidosis is a lysosomal storage disorder caused by deficiency of beta-mannosidase. Thirteen families with cases of beta-mannosidosis have been described including one case previously reported by our group. We present clinical and biochemical data in a new adult case, and the molecular analyses in both this new case and the one previously reported. We detected four novel mutations: p.R182W, p.G392E, p.W466X and c.1848delA. Discrepancies between genomic DNA and cDNA results when detecting this last deletion suggested a nonsense-mediated decay cell process (NMD).

Beta-mannosidosis with angiokeratoma corporis diffusum.

Beta-mannosidosis is a lysosomal disorder which is caused by a deficiency of beta-mannosidase. This disorder was first described in goats. Twelve human cases have already been reported. We present the first case in Japan in whom the diagnosis was reached from angiokeratoma corporis diffusum. Futhermore, mental retardation, hearing loss, and renal failure were also detected. Pseudoxanthoma elasticum was also present, but whether it is a complication of beta-mannosidosis or not remains unknown. The activity level of beta-mannosidase in the patient's plasma was only 2% of the normal range, while that in the patient's mother was 40%. We suggest that beta-mannosidosis should be one of the differential diagnoses when lysosomal enzyme disorders are suspected in cases of angiokeratoma corporis diffusum.