Micro and Martsolf syndromes are rare clinically and genetically overlapping disorders caused by mutations in RAB3GAP1, RAB3GAP2, RAB18 and TBC1D20 genes. We describe 34 new patients, 27 with Micro and seven with Martsolf. Patients presented with the characteristic clinical manifestations of the two syndromes, including postnatal microcephaly, congenital cataracts, microphthalmia, optic atrophy, spasticity and intellectual disability. Brain imaging showed in the majority of cases polymicrogyria, thin corpus callosum, cortical atrophy, and white matter dysmyelination. Unusual additional findings were pectus excavatum (four patients), pectus carinatum (three patients), congenital heart disease (three patients) and bilateral calcification in basal ganglia (one patient). Mutational analysis of RAB3GAP1 and RAB3GAP2 revealed 21 mutations, including 14 novel variants. RAB3GAP1 mutations were identified in 22 patients with Micro, including a deletion of the entire gene in one patient. On the other hand, RAB3GAP2 mutations were identified in two patients with Micro and all Martsolf patients. Moreover, exome sequencing unraveled a TBC1D20 mutation in an additional family with Micro syndrome. Our results expand the phenotypic and mutational spectrum associated with Micro and Martsolf syndromes. Due to the overlapped severities and genetic basis of both syndromes, we suggest to be comprehended as one entity \"Micro/Martsolf spectrum\" or \"RAB18 deficiency.\"

Warburg Micro syndrome and Martsolf syndrome are phenotypically overlapping autosomal recessive conditions characterized by multiple organ abnormalities involving the ocular, nervous, and endocrine systems. Warburg Micro syndrome, the more severe of the two conditions, is caused by loss of function mutations in RAB3GAP1, RAB3GAP2, RAB18, and TBC1D20 genes, whereas Martsolf syndrome has been attributed to less damaging mutations in RAB3GAP1 and RAB3GAP2 genes. We report the clinical description and molecular characterization of a consanguineous Iranian family with two siblings, a male and a female, with dysmorphic features, bilateral congenital cataracts, optic nerve atrophy, congenital glaucoma, mild to moderate intellectual disability, seizures, hypogonadism, and mild osteoporosis. Spastic quadriplegia with contractures was observed in the male patient, while the female patient showed only mild hyperreflexia. Magnetic resonance imaging scans performed in the male patient showed a normal brain structure. Both siblings had neither microcephaly nor postnatal growth retardation. Whole exome sequencing identified a novel homozygous nonsense mutation [c.1060C>T; p.(Arg354Ter)] in the TBC1D20 gene in both siblings and confirmed the heterozygous carrier status of both parents. This report describes a novel mutation in the TBC1D20 gene in two Iranian patients with Martsolf syndrome, further extending the allelic heterogeneity and phenotypic spectrum of this rare condition. The genotype and phenotype of the patients are compared with those of Martsolf syndrome and Warburg Micro syndrome patients reported in the literature.

Martsolf (MS) and Warburg micro syndromes (WARBM) are rare autosomal recessive inherited allelic disorders, which share similar clinical features including microcephaly, intellectual disability, brain malformations, ocular abnormalities, and spasticity. Here, we revealed the functions of novel mutations in RAB3GAP1 in a Turkish female patient with MS and two siblings with WARBM. We also present a review of MS patients as well as all reported RAB3GAP1 pathogenic mutations in the literature.
We present a female with MS phenotype and two siblings with WARBM having more severe phenotypes. We utilized whole-exome sequencing to identify the molecular basis of these syndromes and confirmed suspected variants by Sanger sequencing. Quantitative (q) RT-PCR analysis was carried out to reveal the functions of novel splice site mutation detected in MS patient.
We found a novel homozygous c.2607-1G>C splice site mutation in intron 22 of RAB3GAP1 in MS patient and a novel homozygous c.2187_2188delinsCT, p.(Met729_Lys730delinsIleTer) mutation in exon 19 of RAB3GAP1 in the WARBM patients. We showed exon skipping in MS patient by Sanger sequencing and gel electrophoresis. qRT-PCR analysis demonstrated the reduced expression of RAB3GAP1 in the patient with the c.2607-1G>C splice site mutation compared to a healthy control individual.
Here, we have studied two novel RAB3GAP1 mutations in two different phenotypes; a MS associated novel splice site mutation, and a WARBM1 associated novel deletion-insertion mutation. Our findings suggest that this splice site mutation is responsible for milder phenotype and the deletion-insertion mutation presented here is associated with severe phenotype.

Warburg micro syndrome is a very rare autosomal recessive disorder characterized by a mutation in the RAB3GAP1, RAB3GAP2, RAB18, and TBC1D20 genes. Warburg Micro syndrome 2 and Martsolf syndrome are clinically overlapping conditions characterized by variable clinical signs counting postnatal growth retardation, cataract, intellectual deficiency, contractures, and central nervous system abnormalities due to RAB3GAP2 gene mutations. The RAB3GAP2 gene encodes a member of the Rab3 protein family, which is involved in regulated exocytosis of neurotransmitters and hormones.
We describe four siblings from healthy consanguineous Turkish parents with developmental delay, congenital cataract, and speech delay. In this study, we performed whole exom sequencing (WES) in a index patient. WES analyses in proposita showed a homozygous c.1998 + 1 G > A mutation in RAB3GAP2 gene. After the Sanger confirmation, the same mutation was detected in the other three siblings.
The four siblings had a novel splice site mutation in RAB3GAP2. This report compares the symptoms and features of the our patients with clinical summary of Warburg Micro syndrome 2 and Martsolf syndrome. Further reports will make possible knowing of the genetic and clinical backgrounds of this orphan diseases. Abbreviation: MRI: Magnetic resonance imaging.

An autosomal recessive disease of Black Russian Terriers was previously described as a juvenile-onset, laryngeal paralysis and polyneuropathy similar to Charcot Marie Tooth disease in humans. We found that in addition to an axonal neuropathy, affected dogs exhibit microphthalmia, cataracts, and miotic pupils. On histopathology, affected dogs exhibit a spongiform encephalopathy characterized by accumulations of abnormal, membrane-bound vacuoles of various sizes in neuronal cell bodies, axons and adrenal cells. DNA from an individual dog with this polyneuropathy with ocular abnormalities and neuronal vacuolation (POANV) was used to generate a whole genome sequence which contained a homozygous RAB3GAP1:c.743delC mutation that was absent from 73 control canine whole genome sequences. An additional 12 Black Russian Terriers with POANV were RAB3GAP1:c.743delC homozygotes. DNA samples from 249 Black Russian Terriers with no known signs of POANV were either heterozygotes or homozygous for the reference allele. Mutations in human RAB3GAP1 cause Warburg micro syndrome (WARBM), a severe developmental disorder characterized by abnormalities of the eye, genitals and nervous system including a predominantly axonal peripheral neuropathy. RAB3GAP1 encodes the catalytic subunit of a GTPase activator protein and guanine exchange factor for Rab3 and Rab18 respectively. Rab proteins are involved in membrane trafficking in the endoplasmic reticulum, axonal transport, autophagy and synaptic transmission. The neuronal vacuolation and membranous inclusions and vacuoles in axons seen in this canine disorder likely reflect alterations of these processes. Thus, this canine disease could serve as a model for WARBM and provide insight into its pathogenesis and treatment.