An N-terminal heterozygous missense CASK mutation is associated with microcephaly and bilateral retinal dystrophy plus optic nerve atrophy.

Heterozygous loss-of-function mutations in the X-linked gene CASK are associated with mental retardation and microcephaly with pontine and cerebellar hypoplasia (MICPCH) and ophthalmological disorders including optic nerve atrophy (ONA) and optic nerve hypoplasia (ONH). Recently, we have demonstrated that CASK(+/-) mice display ONH with 100% penetrance but exhibit no change in retinal lamination or structure. It is not clear if CASK loss-of-function predominantly affects retinal ganglion cells, or if other retinal cells like photoreceptors are also involved. Here, we report a heterozygous missense mutation in the N-terminal calcium/calmodulin-dependent kinase (CaMK) domain of the CASK protein in which a highly conserved leucine is mutated to the cyclic amino acid proline. In silico analysis suggests that the mutation may produce destabilizing structural changes. Experimentally, we observe pronounced misfolding and insolubility of the CASKL209P protein. Interestingly, the remaining soluble mutant protein fails to interact with Mint1, which specifically binds to CASK's CaMK domain, suggesting a mechanism for the phenotypes observed with the CASKL209P mutation. In addition to microcephaly, cerebellar hypoplasia and delayed development, the subject with the L209P mutation also presented with bilateral retinal dystrophy and ONA. Electroretinography indicated that rod photoreceptors are the most prominently affected cells. Our data suggest that the CASK interactions mediated by the CaMK domain may play a crucial role in retinal function, and thus, in addition to ONH, individuals with mutations in the CASK gene may exhibit other retinal disorders, depending on the nature of mutation.

STAG1 mutations cause a novel cohesinopathy characterised by unspecific syndromic intellectual disability.

BACKGROUND: Cohesinopathies are rare neurodevelopmental disorders arising from a dysfunction in the cohesin pathway, which enables chromosome segregation and regulates gene transcription. So far, eight genes from this pathway have been reported in human disease. STAG1 belongs to the STAG subunit of the core cohesin complex, along with five other subunits. This work aimed to identify the phenotype ascribed to STAG1 mutations. METHODS: Among patients referred for intellectual disability (ID) in genetics departments worldwide, array-comparative genomic hybridisation (CGH), gene panel, whole-exome sequencing or whole-genome sequencing were performed following the local diagnostic standards. RESULTS: A mutation in STAG1 was identified in 17 individuals from 16 families, 9 males and 8 females aged 2-33 years. Four individuals harboured a small microdeletion encompassing STAG1; three individuals from two families had an intragenic STAG1 deletion. Six deletions were identified by array-CGH, one by whole-exome sequencing. Whole-exome sequencing found de novo heterozygous missense or frameshift STAG1 variants in eight patients, a panel of genes involved in ID identified a missense and a frameshift variant in two individuals. The 17 patients shared common facial features, with wide mouth and deep-set eyes. Four individuals had mild microcephaly, seven had epilepsy. CONCLUSIONS: We report an international series of 17 individuals from 16 families presenting with syndromic unspecific ID that could be attributed to a STAG1 deletion or point mutation. This first series reporting the phenotype ascribed to mutation in STAG1 highlights the importance of data sharing in the field of rare disorders.

Managing Couple Conflict During Prenatal Counseling Sessions: An Investigation of Genetic Counselor Experiences and Perceptions.

Research shows couple conflict occurring during prenatal genetic counseling sessions may be challenging for some genetic counselors. Yet, no study has explored couple conflict in depth. The current study investigated genetic counselors' experiences and perceptions of the nature and context of couple conflict in prenatal sessions and counselor conflict management strategies. Sixteen prenatal genetic counselors recruited through the National Society of Genetic Counselors participated in semi-structured phone interviews asking about how they recognize couple conflict; topics that trigger conflict and when it occurs; individual, cultural, and situational factors associated with conflict; conflict management strategies; and specific examples from their practice. Inductive and cross-case comparison methods revealed a number of themes. Genetic counselors recognize couple conflict through non-verbal and verbal cues, and conflict can occur at any time, particularly during decision-making about testing and test results and during results review of an affected pregnancy. Factors associated with conflict include cultural customs, age, emotional state, religious beliefs, and being forced to attend counseling. Participants identified 23 conflict management strategies classified into five themes: facilitate decision-making, encourage couple expression, act within one's scope of practice, provide psychosocial support, and support the identified patient. Counselors emphasized that their strategies are couple dependent. Patients may benefit from genetic counselors assessing couple conflict and intervening when it impedes genetic counseling goals. Clinical examples from this study may contribute to informing genetic counselor practice, program curricula, and continuing education workshops.

Deletion and duplication of 11p13-11p14: reciprocal aberrations derived from a paternal insertion.

More than 100 cases of deletions that span 11p13-11p14 resulting in WAGR syndrome have been reported in the literature. In contrast, reports of duplications spanning this region are extremely rare. We here report on a deletion of 11p13-11p14 identified in a neonate with severe congenital anomalies including genitourinary abnormalities and aniridia, and the reciprocal duplication identified in his healthy older sibling. Both were derived from a paternal balanced insertion of the 11p region into 18q. The deletion and duplication were characterized by G-banding, FISH and array CGH, and are estimated to include approximately 5.5-5.8 Mb. This single family report highlights the mild phenotypes that can be associated with duplications of chromosomal regions, even those that are larger than 5 Mb and harbor known disease-related genes, and highlights the impact of identifying balanced carrier status in a parent for accurate genetic counseling.