Long-term follow-up and novel variant in Suleiman-El-Hattab syndrome: Expanding the genotypic and clinical spectrum of a rare neurodevelopmental disorder.

Suleiman-El-Hattab syndrome (SULEHS, OMIM #618950) is an autosomal recessive multisystem developmental disorder characterized by distinctive facial appearance, global developmental delay/intellectual disability, poor expressive speech and happy demeanor. SULEHS is an ultra-rare disorder associated with biallelic loss-of-function variants of the TASP1 gene, and up-to-date, seven patients from five families have been reported in the literature. Loss of TASP1 function has been reported to alter H3K4 histone modifications and expression of TFIIA and HOX transcription factors in the SULEHS phenotype. In this report, a new patient molecularly diagnosed with SULEHS by a novel homozygous c.404-2A > G variant in the TASP1 gene is presented with the long-term follow-up. Although the majority of the patient's clinical characteristics were similar to those of previously reported SULEHS patients, this study was the first to describe some additional anomalies, such as cystic hygroma, increased nuchal thickness, coarctation of the aorta, pulmonary stenosis, pulmonary sequestration anomaly, chronic constipation, encephalomalacia, and aggressive behavior. Because of the remarkable similarities between the clinical features of Baraitser-Winter syndrome (BRWS) and the patient, BRWS was considered the most likely diagnosis before the molecular diagnosis. Network analysis also supported that the interaction of the SULEHS-associated TASP1 gene with the BRWS-associated ACTB and ACTG1 genes through common intermediate molecules. Overall, despite the existence of differences in clinical features, inheritance patterns, and underlying pathophysiology between BRWS and SULEHS, both diseases could be considered in the differential diagnosis due to the high clinical similarities, including the dysmorphic features, growth parameters, neurodevelopmental phenotype, neurological problems, and multisystem involvement. Additionally, this report could contribute to a better understanding of the genotypic and clinical features of SULEHS by describing a novel pathogenic variant and new clinical features, such as prenatal manifestations.

Expanding the phenotype and genotype in Thauvin-Robinet-Faivre syndrome: A new patient with a novel variant and additional clinical findings.

Thauvin-Robinet-Faivre syndrome (TROFAS; OMIM #617107) is a rare autosomal recessive overgrowth syndrome characterized by generalized overgrowth, dysmorphic facial features, and delayed psychomotor development caused by biallelic pathogenic variants in the FGF-1 intracellular binding protein (FIBP) gene. To date, only four patients from two families have been reported. In this report, we present a 4-year-old male patient with generalized overgrowth and delayed developmental milestones consistent with this syndrome. In addition, he has unique features that were not reported in previous patients, including drooling, recurrent pulmonary infections, chronic pulmonary disease, hyperextensible elbow joints, hypoplastic nipples, unilateral cryptorchidism, and frequent spontaneous erections. We identified a homozygous, likely pathogenic variant, c.415_416insCAGTTTG (p.Asp139AlafsTer3), which causes a frameshift in the FIBP. Additionally, we identified a homozygous missense variant in the Toll-like receptor 5(TLR5) gene and a hemizygous missense variant in the chloride voltage-gated channel 4 (CLCN4) gene, with uncertain significance in either case. In this article, we set out the new observations and also discuss the frequency of the characteristic findings of the syndrome in the patients so far reported.

Shared Biological Pathways and Processes in Patients with Intellectual Disability: A Multicenter Study.

BACKGROUND: Although the underlying genetic causes of intellectual disability (ID) continue to be rapidly identified, the biological pathways and processes that could be targets for a potential molecular therapy are not yet known. This study aimed to identify ID-related shared pathways and processes utilizing enrichment analyses. METHODS: In this multicenter study, causative genes of patients with ID were used as input for Disease Ontology (DO), Gene Ontology (GO), and Kyoto Encyclopedia of Genes and Genomes enrichment analysis. RESULTS: Genetic test results of 720 patients from 27 centers were obtained. Patients with chromosomal deletion/duplication, non-ID genes, novel genes, and results with changes in more than one gene were excluded. A total of 558 patients with 341 different causative genes were included in the study. Pathway-based enrichment analysis of the ID-related genes via ClusterProfiler revealed 18 shared pathways, with lysine degradation and nicotine addiction being the most common. The most common of the 25 overrepresented DO terms was ID. The most frequently overrepresented GO biological process, cellular component, and molecular function terms were regulation of membrane potential, ion channel complex, and voltage-gated ion channel activity/voltage-gated channel activity, respectively. CONCLUSION: Lysine degradation, nicotine addiction, and thyroid hormone signaling pathways are well-suited to be research areas for the discovery of new targeted therapies in ID patients.

A homozygous missense variant in the WRN gene segregating in a family with progressive pulmonary failure with recurrent spontaneous pneumothorax and interstitial lung disease.

Interstitial lung disease (ILD) is a condition affecting the lung parenchyma by inflammation and fibrosis and can be caused by various exposures, connective tissue diseases (CTD), and genetic disorders. In this report, a family with five patients having progressive respiratory failure that begins with coughing in adolescence, followed by dyspnea and recurrent spontaneous pneumothorax, and death in early adulthood is presented. The patients were diagnosed to have ILD through clinical and radiological evaluations. Molecular genetic analyses of the family provided two homozygous rare variants in the WRN and SFXN5 genes, co-segregating with the phenotype. The network analyses pointed out that the variant in the WRN, rather than that in the SFXN5 gene, could be the main factor in the existence of the ILD phenotype, putatively through the altered DNA repair and telomere maintenance pathways. In silico analyses suggested that the variant could affect the exonuclease activity or the stability of the WRN protein. Moreover, the adolescent-onset pulmonary phenotype described in the case has not been reported in Werner Syndrome, the only disease known to be associated with biallelic WRN pathogenic variants. Thus, the present phenotype could be either a very atypical presentation of Werner syndrome or a new clinical entity associated with the WRN gene.

A de novo heterozygous HOXA11 variant in a patient with mesomelic dysplasia with urogenital abnormalities.

Mesomelic dysplasias are a genetically and clinically heterogeneous group of diseases with more than 10 types defined. This article presents an 18-year-old female patient with normal intelligence and a multisystem phenotype including disproportionate short stature, scoliosis, mesomelic limb shortening, radial bowing, short fourth to fifth metacarpals and metatarsals, fusions in the carpal/tarsal bones, operated pes equinovarus, primary amenorrhea, uterine hypoplasia, vesicoureteral reflux, and chronic kidney disease. Whole-exome sequencing revealed a de novo heterozygous c.881T>G (p.Met294Arg) variant in HOXA11 (NM_005523.6) gene. The variant was located in the homeodomain of HOXA11 and predicted to alter DNA-binding ability of the protein. In silico analyses indicated that the variant could promote the alterations in the protein-protein interaction. The possible functional effect of the variant was supposed as dominant-negative. Hoxa11-mutant mice have been reported to exhibit homeotic transformations in the thoracic and sacral vertebrae, zeugopodal phenotype in forelimb and hindlimb, and urogenital abnormalities. Although mice models were reported as mesomelic dysplasia and urogenital abnormalities (MDUGA), this phenotype has not yet been reported in humans. This was the first case with MDUGA putatively related to a de novo variant in HOXA11.

Warburg Micro Syndrome 1 due to Segmental Paternal Uniparental Isodisomy of Chromosome 2 Detected by Whole-Exome Sequencing and Homozygosity Mapping.

Warburg micro syndrome (WARBM) is a rare autosomal recessive disorder characterized by microcephaly, cortical dysplasia, intellectual disability, ocular abnormalities, spastic diplegia, and microgenitalia. WARBM has 4 subtypes arising from pathogenic variants in 4 genes (RAB18, RAB3GAP1, RAB3GAP2, and TBC1D20). Here, we report on a patient with a homozygous pathogenic c.665delC (p.Pro222HisfsTer30) variant in the RAB3GAP1 gene identified by whole-exome sequencing (WES) analyses. Only his father was a heterozygous carrier, and homozygosity mapping analysis of the WES data revealed large loss-of-heterozygosity regions in both arms of chromosome 2, interpreted as uniparental isodisomy. This uniparental disomy pattern could be due to paternal meiosis I nondisjunction because of the preserved heterozygosity in the pericentromeric region. This report provides novel insights, including a rare form of UPD, usage of homozygosity mapping analysis for the evaluation of isodisomy, and the first reported case of WARBM1 as a result of uniparental isodisomy.

15-LOX-1 has diverse roles in the resensitization of resistant cancer cell lines to doxorubicin.

Lipoxygenases (LOXs) are a family of enzymes that can oxygenate polyunsaturated fatty acids. As a member of the family, 15-lipoxygenase-1 (15-LOX-1) specifically metabolizes arachidonic acid and linoleic acid. 15-LOX-1 can affect physiological and pathophysiological events via regulation of the protein-lipid interactome, alterations in intracellular redox state and production of lipid metabolites that are involved in the induction and resolution of inflammation. Although several studies have shown that 15-LOX-1 has an antitumorigenic role in many different cancer models, including breast cancer, the role of the protein in cancer drug resistance has not been established yet. In this study, we, for the first time, aimed to show the potential role of 15-LOX-1 in acquired doxorubicin (DOX) resistance in MCF7 and HeLa cancer cell lines. Our results show that ALOX15 was transcriptionally downregulated in DOX-resistant cells compared with their drug-sensitive counterparts. Moreover, overexpression of ALOX15 in the drug-resistant cells resulted in resensitization of those cells to DOX in a cell-dependent manner. 15-LOX-1 expression could induce apoptosis by activating PPARγ and enhance the accumulation of DOX in drug-resistant MCF7 cells by altering cellular motility properties, and membrane dynamics. However, HeLa DOX cells did not show any of these effects but were susceptible to cell death when treated with 13(S)-HODE. These results underline the role and importance of 15-LOX-1 in cancer drug resistance, and points to novel mechanisms as a therapeutic approach to overcome cancer drug resistance.

Hypopigmented patches in Roberts/SC phocomelia syndrome occur via aneuploidy susceptibility.

Roberts/SC phocomelia syndrome (RBS/SC) is a rare autosomal recessive inherited condition characterized by prenatal-onset growth retardation, craniofacial anomalies, and symmetrical limb reduction defects. Here, we present two affected siblings with RBS/SC who have consanguineous parents. Both patients had intrauterine growth retardation; similar facial findings, including arched eyebrows, epicanthic folds, posteriorly angulated ears, and retrognathia; and hypopigmented patches on their skin. However, despite these common findings, the extremity involvement was different between the patients. The more severely affected boy had hypoplasia of the tibia and symmetrical agenesis of the radius, ulna, proximal carpal bones, and fibula. The slightly affected girl presented with mild symmetrical mesomelic shortening. The cytogenetic analysis showed aneuploidies at varying rates concerning different chromosomes in the analyses of different culture materials. As a remarkable finding in the cytogenetic studies, chromosome analysis of fibroblast cultures obtained from the hypopigmented skin region showed a much higher frequency of aneuploidy, especially trisomy 7, than normopigmented skin fibroblasts and lymphocyte cultures for both patients, which was also proven ex vivo by qPCR analyses from uncultured skin tissues. In the subsequent ESCO2 gene sequence analysis, both patients were found to be homozygous for the mutation c.1111dupA (p.Thr371Asnfs*32; NM_001017420.2), which is known to be pathogenic. In the literature search, only two RBS/SC patient reports with hypopigmented skin patches could be found. In addition, the presence of pigmentation defects in the embryo was reported in some different animal models for RBS/SC. When the literature review and study are evaluated together, hypopigmented patches can be considered as a rare finding for RBS/SC. It can be suggested that somatic aneuploidies seen in the natural course of the disease, especially aneuploidy of chromosome 7, which has many genes associated with pigmentation, may be responsible for the hypopigmentation patches.