Prenatal Phenotype of Alkuraya-Kučinskas Syndrome: A Novel Case and Systematic Literature Review

Alkuraya-Kučinskas syndrome (AKS) is an autosomal recessive multisystem disorder resulting from mutations in the BLTP1 gene, formerly known as KIAA1109. Primary manifestations include brain malformations, arthrogryposis, and clubfeet. Cardiac, renal, and ophthalmologic abnormalities may also be observed, while nonimmune hydrops is rare. We present a case of two novel BLTP1 canonical splice-site variants in a fetus with multiple congenital anomalies, including hydrops, a kinked brainstem, and joint contractures. A systematic literature review was conducted to describe the prenatal phenotype of AKS, which was inspired by our case. Our systematic literature review of the prenatal phenotype in 19 cases, including our additional case, demonstrated joint contractures in 90% (18/20), ventriculomegaly in 60% (12/20), brainstem dysgenesis in 50% (10/20), cerebellar hypoplasia in 50% (10/20), parenchymal thinning with lissencephalic aspect in 60% (12/20), and facial dysmorphism in 70% (14/20) of reported AKS cases. In addition to our case, hydrops was reported in two other families. AKS should be considered in fetal presentations with characteristic features, especially brainstem kinking and joint contractures. Exome sequencing, including coverage of canonical intronic splice-site variants, can clarify the diagnosis. TRIAL REGISTRATION: ClinicalTrials.gov registration: NCT03911531.

Prenatal delineation of a distinct lethal fetal syndrome caused by a homozygous truncating KIDINS220 variant

Kinase D-interacting substrate of 220 kDa (KIDINS220) is a transmembrane protein playing integral role in growth mediating pathways in the nervous and cardiovascular systems. KIDINS220 heterozygous truncating variants that affect the protein's C-terminus have been associated with a phenotype, so far described only in few unrelated children, including spastic paraplegia, intellectual disability, nystagmus, and obesity. More recently, a homozygous, more N-terminal truncating variant in KIDINS220 gene was suggested to be associated with enlarged cerebral ventricles and limb contractures in three fetuses from a consanguineous family. We confirm the latter finding by presenting the first detailed prenatal identification of a fetal phenotype associated with novel homozygous deleterious frameshift variant in KIDINS220 gene in a consanguineous healthy Egyptian couple. History of unexplained seven miscarriages and a similar stillbirth were recorded. Prenatal ultrasonography revealed limb contractions and ventriculomegaly; in addition to previously unreported cerebellar anomalies, cardiac anomalies and hydrops fetalis. These findings represent an expansion of clinical and molecular spectrum associated with KIDINS220 variants and broaden our understanding of genotype-phenotype relationships in lethal congenital contractures syndromes and associated severe abnormal embryological development. More generally, our study adds KIDINS220 to the rare group of genes which may cause disease by either of two distinct mutational mechanisms.

Two novel pathogenic variants in KIAA1109 causing Alkuraya-Kučinskas syndrome in two Czech Roma brothers

Recently described Alkuraya-Kučinskas syndrome (ALKKUCS) clinically presented with severe congenital hydrocephalus, severe brain hypoplasia and other multiple malformations has been described in only few families worldwide to date. ALKKUCS is caused by biallelic pathogenic variants in the KIAA1109 gene with autosomal recessive inheritance. We describe two brothers of Roma origin born with severe congenital hydrocephalus, brain hypoplasia and other clinical findings corresponding with ALKKUCS. Using WES two novel pathogenic variants c.359-1G>A and c.14564_14565del in compound heterozygous status in the KIAA1109 gene were found in both brothers. We consider that the number of healthy heterozygous carriers of pathogenic variants in KIAA1109 could be higher than it is known and pathogenic variants in KIAA1109 could be more frequent cause of congenital hydrocephalus and severe brain dysplasias.

KIAA1109 gene mutation in surviving patients with Alkuraya-Kučinskas syndrome: a review of literature

Background

Alkuraya-Kučinskas syndrome is an autosomal recessive disorder characterized by brain abnormalities associated with cerebral parenchymal underdevelopment, arthrogryposis, club foot and global developmental delay. KIAA1109, a functionally uncharacterized gene is identified as the molecular cause for Alkuraya-Kučinskas syndrome. Most of the reported mutations in KIAA1109 gene result in premature termination of pregnancies or neonatal deaths while a few mutations have been reported in surviving patients with global developmental delay and intellectual disability. To our knowledge, only three surviving patients from two families have been reported with missense variants in KIAA1109. In this study, we describe four surviving patients from two related families (a multiplex family) with global developmental delay and mild to severe intellectual disability with no other systemic manifestations. There were no miscarriages or neonatal deaths reported in these families.

Methods

X-chromosome exome panel sequencing was carried out in one patient and whole exome sequencing was carried out on the remaining three affected individuals and the unaffected father of the index family. Data analysis was carried out followed by variant filtering and segregation analysis. Sanger sequencing was carried out to validate the segregation of mutation in all four affected siblings and unaffected parents from both families.

Results

A novel homozygous missense mutation in a conserved region of KIAA1109 protein was identified. Sanger sequencing confirmed the segregation of mutation in both families in an autosomal recessive fashion.

Conclusion

Our study is the second study reporting a KIAA1109 variant in surviving patients with Alkuraya-Kučinskas syndrome. Our study expands the spectrum of phenotypic features and mutations associated with Alkuraya-Kučinskas syndrome.