Functional characterization of the p.(Gln195His) or Tainan and novel p.(Ser184Cys) or Toluca glucose-6-phosphate dehydrogenase (G6PD) gene natural variants identified through Mexican newborn screening for glucose-6-phosphate dehydrogenase deficiency.

BACKGROUND: Newborn screening for glucose-6-phosphate dehydrogenase deficiency (G6PDd) was implemented in Mexico beginning in 2017. In a Mexican population, genotyping analysis of G6PD as a second-tier method identified a previously unreported missense variant, p.(Ser184Cys), which we propose to call "Toluca", and the extremely rare p.(Gln195His) or "Tainan" variant, which was previously described in the Taiwanese population as a Class II allele through in silico evaluations. Here, we sought to perform in vitro biochemical characterizations of the Toluca and Tainan G6PD natural variants and describe their associated phenotypes. METHODS: The "Toluca" and "Tainan" variants were identified in three unrelated G6PDd newborn males, two of whom lacked evidence of acute hemolytic anemia (AHA) or neonatal hyperbilirubinemia (NHB). We constructed wild-type (WT), Tainan, and Toluca G6PD recombinant enzymes and performed in vitro assessments. RESULTS: Both variants had diminished G6PD expression, decreased affinities for glucose-6-phosphate and NADP+ substrates, significant decreases in catalytic efficiency (∼97 % with respect to WT-G6PD), and diminished thermostabilities that were partially rescued by NADP+. In silico protein modeling predicted that the variants would have destabilizing effects on the protein tertiary structure, potentially reducing the enzyme half-lives and/or catalytic efficiencies. CONCLUSION: Our data suggest that G6PD "Tainan" and "Toluca" are potential Class II natural variants, which agrees with the absence of chronic nonspherocytic hemolytic anemia (CNSHA) in our patients. It remains to be determined whether these variants represent high-risk genetic factors for developing CNSHA, AHA, and/or NHB.

Cleft Lip Palate in a Patient with 5q14.3 Deletion Syndrome: A Possible Unreported Feature?

5q14.3 deletion syndrome (MIM#613443) is an uncommon but well-known syndrome characterized by intellectual disability, epilepsy, hypotonia, brain malformations, and facial dysmorphism. Most patients with this syndrome have lost one copy of the MEF2C gene (MIM*600662), whose haploinsufficiency is considered to be responsible for the distinctive phenotype. To date, nearly 40 cases have been reported; the deletion size and clinical spectrum are variable, and at least 6 cases without MEF2C involvement have been documented. We herein report the clinical and cytogenomic findings of an 11-year-old girl who has a 5q14.3q21.1 de novo deletion that does not involve MEF2C but shares the clinical features described in other reported patients. Moreover, she additionally presents with bilateral cleft-lip palate (CLP), which has not been previously reported as a feature of the syndrome. The most frequent syndromic forms of CLP were ruled out in our patient mainly by clinical examination, and Sanger sequencing was performed to discard the presence of a TBX22 gene (MIM*300307) defect. Our report suggests CLP as a possible unreported feature and redefines the critical phenotypic regions of 5q14.3 deletion syndrome.

Screening of IRF6 Variants in Patients Subjected to Genetic Association Studies for Nonsyndromic Cleft Lip/Palate.

OBJECTIVE: To screen for interferon regulatory factor 6 (IRF6) pathogenic variants in patients clinically diagnosed with nonsyndromic cleft lip palate (NSCL/P) and establish the proportion of misdiagnosed Van der Woude syndrome (VWS) cases, which could have biased previous NSCL/P case-control association studies. DESIGN: Retrospective case series. SETTING: Tertiary care children's hospital. PARTICIPANTS: One hundred seventy-two unrelated Mexican patients with NSCL/P, 128 of whom had previously been included in a NSCL/P case-control association study. MAIN OUTCOMES MEASUREMENTS: Sanger sequencing of the 9 IRF6 exons were performed, all variants respect with sequence reference were reported and classified for their pathogenic significance according to the American College of Medical Genetics and Genomics guidelines. RESULTS: Seven percent of cases were familial. No pathogenic variant was identified in IRF6. We identified 12 previously reported benign variants; their frequencies did not significantly differ from those reported for individuals of Mexican ancestry. Three of them were uncommon intronic variants not reported in ClinVar. The rs2235371 and rs2235375 variants, which were previously analyzed in a NSCL/P case-control association study (containing 132 patients, 128 of whom were analyzed herein) did not show discordant association results comparing to the 370 controls from the previous study. CONCLUSIONS: The misdiagnosis of IRF6-related VWS as NSCL/P appears to be infrequent in our sample, suggesting that mutational screening of IRF6 would have a low diagnostic yield in patients with NSCL/P. The absence of IRF6 pathogenic alleles could be related to the application of an exhaustive clinical evaluation that discarded the syndromic forms and/or the low proportion of familial cases included.

Nonmosaic Trisomy 19p13.3p13.2 Resulting from a Rare Unbalanced t(Y;19)(q12;p13.2) Translocation in a Patient with Pachygyria and Polymicrogyria.

Nonmosaic trisomy involving 19p13.3p13.2 is a very uncommon abnormality. At present, only 12 cases with this genetic condition have been reported in the literature. However, the size of the trisomic fragment is heterogeneous and thus, the clinical spectrum is variable. Herein, we report the clinical and cytogenetic characterization of a 5-year-old boy with nonmosaic trisomy 19p13.3p13.2 (7.38 Mb), generated by a derivative Y chromosome resulting from a de novo unbalanced translocation t(Y;19)(q12;p13.2). We demonstrated the integrity of the euchromatic regions in the abnormal Y chromosome to confirm the pure trisomy 19p. Our patient shares some clinical features described in other reported patients with pure trisomy 19p, such as craniofacial anomalies, developmental delay, and heart defects. Different to previous reports, our case exhibits frontal pachygyria and polymicrogyria. These additional features contribute to further delineate the clinical spectrum of trisomy 19p13.3p13.2.

First comprehensive TSC1/TSC2 mutational analysis in Mexican patients with Tuberous Sclerosis Complex reveals numerous novel pathogenic variants.

The aim of this study was to improve knowledge of the mutational spectrum causing tuberous sclerosis complex (TSC) in a sample of Mexican patients, given the limited information available regarding this disease in Mexico and Latin America. Four different molecular techniques were implemented to identify from single nucleotide variants to large rearrangements in the TSC1 and TSC2 genes of 66 unrelated Mexican-descent patients that clinically fulfilled the criteria for a definitive TSC diagnosis. The mutation detection rate was 94%, TSC2 pathogenic variants (PV) prevailed over TSC1 PV (77% vs. 23%) and a recurrent mutation site (hotspot) was observed in TSC1 exon 15. Interestingly, 40% of the identified mutations had not been previously reported. The wide range of novels PV made it difficult to establish any genotype-phenotype correlation, but most of the PV conditioned neurological involvement (intellectual disability and epilepsy). Our 3D protein modeling of two variants classified as likely pathogenic demonstrated that they could alter the structure and function of the hamartin (TSC1) or tuberin (TSC2) proteins. Molecular analyses of parents and first-degree affected family members of the index cases enabled us to distinguish familial (18%) from sporadic (82%) cases and to identify one case of apparent gonadal mosaicism.

TSC2/PKD1 contiguous gene syndrome, with emphasis on a case with an atypical mild polycystic kidney phenotype and a novel genetic variant / Síndrome de genes contiguos TSC2/PKD1 con énfasis en un caso con un fenotipo atípico de riñón poliquístico leve y una nueva variante genética

About 80% of patients with tuberous sclerosis complex (TSC) present renal involvement, usually as angiomyolipomas followed by cystic disease. An early diagnosis of polycystic kidney disease (PKD) in such patients is frequently related to the TSC2/PKD1 contiguous gene syndrome (PKDTS). Molecular confirmation of PKDTS is important for a prompt diagnosis, which can be complicated by the phenotypic heterogeneity of PKD and the absence of a clear phenotype-genotype correlation. Herein, we report three PKDTS pediatric patients. The case 3 did not present a classic PKDTS phenotype, having only one observable cyst on renal ultrasound at age 4 and multiple small cysts on magnetic resonance imaging at age 15. In this patient, chromosomal microarray analysis showed a gross deletion of 230.8 kb that involved TSC2, PKD1 and 13 other protein-coding genes, plus a heterozygous duplication of a previously undescribed copy number variant of 242.9kb that involved six protein-coding genes, including SSTR5, in the 16p13.3 region. Given the observations that the case 3 presented the mildest renal phenotype, harbored three copies of SSTR5, and the reported inhibition of cystogenesis (specially in liver) observed with somatostatin analogs in some patients with autosomal dominant PKD, it can be hypothesized that other genetic factors as the gene dosage of SSTR5 may influence the PKD phenotype and the progression of the disease; however, future work is needed to examine this possibility

Un 80% de los pacientes con complejo de esclerosis tuberosa (CET) presentan afectación renal, generalmente angiomiolipomas, seguidos de enfermedad quística. Un diagnóstico temprano de la enfermedad renal poliquística (ERP) en estos pacientes se relaciona con frecuencia con el síndrome de genes contiguos TSC2/PKD1 (PKDTS). La confirmación molecular de PKDTS es importante para establecer un diagnóstico oportuno, que puede complicarse por la heterogeneidad fenotípica de PKD y la ausencia de una clara correlación entre fenotipo y genotipo. En este artículo presentamos los casos de 3 pacientes pediátricos con PKDTS. El caso 3 no presentó un fenotipo PKDTS clásico, con solo un quiste observable en la ecografía renal a los 4 años y numerosos quistes pequeños en la resonancia magnética a los 15 años. En este paciente, el análisis de microarreglos para análisis cromosómico global mostró una eliminación total de 230,8 kb que involucró a TSC2, PKD1 y otros 13 genes codificantes de proteínas, más una duplicación heterocigota para una variante de número de copias no descrita previamente de 242,9 kb que involucró a 6 genes codificantes de proteínas, entre ellos SSTR5, en la región 16p13.3. Dado que el caso 3 mostraba el fenotipo renal menos severo, contaba con tres copias del gen SSTR5 y a que se ha observado una inhibición en la cistogénesis (especialmente en el hígado) con los análogos de somatostatina en algunos pacientes con ERP autosómica dominante, podemos hipotetizar que existen otros factores genéticos como la dosis génica de SSTR5 que pudieran influir en el fenotipo y la progresión de la ERP; sin embargo, se necesitan estudios adicionales para investigar esta posibilidad

TSC2/PKD1 contiguous gene syndrome, with emphasis on a case with an atypical mild polycystic kidney phenotype and a novel genetic variant.

About 80% of patients with tuberous sclerosis complex (TSC) present renal involvement, usually as angiomyolipomas followed by cystic disease. An early diagnosis of polycystic kidney disease (PKD) in such patients is frequently related to the TSC2/PKD1 contiguous gene syndrome (PKDTS). Molecular confirmation of PKDTS is important for a prompt diagnosis, which can be complicated by the phenotypic heterogeneity of PKD and the absence of a clear phenotype-genotype correlation. Herein, we report three PKDTS pediatric patients. The case 3 did not present a classic PKDTS phenotype, having only one observable cyst on renal ultrasound at age 4 and multiple small cysts on magnetic resonance imaging at age 15. In this patient, chromosomal microarray analysis showed a gross deletion of 230.8kb that involved TSC2, PKD1 and 13 other protein-coding genes, plus a heterozygous duplication of a previously undescribed copy number variant of 242.9kb that involved six protein-coding genes, including SSTR5, in the 16p13.3 region. Given the observations that the case 3 presented the mildest renal phenotype, harbored three copies of SSTR5, and the reported inhibition of cystogenesis (specially in liver) observed with somatostatin analogs in some patients with autosomal dominant PKD, it can be hypothesized that other genetic factors as the gene dosage of SSTR5 may influence the PKD phenotype and the progression of the disease; however, future work is needed to examine this possibility.

Molecular analysis provides further evidence that Chitayat syndrome is caused by the recurrent p.(Tyr89Cys) pathogenic variant in the ERF gene.

Chitayat syndrome (CHYTS, MIM #617180) is a rare autosomal dominant clinical condition caused by a single missense pathogenic variant in the ERF gene (19q13.2, MIM*611888), which encodes the ETS2 Repressor Factor (ERF) protein. The characteristic features reported to date for this condition are facial dysmorphism, hyperphalangism and respiratory complications during the newborn period. Herein, we report the sixth patient worldwide with a confirmed molecular diagnosis of CHYTS. Our documentation of pectus carinatum, hypoplastic phalanges (as in two previously described patients), and lack of hyperphalangism broadens the phenotypic spectrum of CHYTS. Moreover, our identification of a heterozygous mutation [c.266A>G or p.(Tyr89Cys)] [rs886041001] in this patient provides further evidence that this condition is caused by a recurrent pathogenic variant in ERF.

Further delineation of achondroplasia-hypochondroplasia complex with long-term survival.

Achondroplasia-hypochondroplasia (ACH-HCH) complex is caused by the presence of two different pathogenic variants in each allele of FGFR3 gene. Only four patients with confirmed molecular diagnoses have been reported to date, and the phenotype has not been fully defined. Here, we describe a Mexican patient with a confirmed molecular diagnosis of ACH-HCH complex. This patient exhibits intellectual disability, has a history of seizures, experienced multiple cardiorespiratory complications during early childhood, and required foramen magnum decompression. However, he now shows a stable health condition with long-term survival (current age, 18 years). This case is particularly relevant to our understanding of ACH-HCH complex and for the genetic counseling of couples who are affected with ACH or HCH.

Germline mutations in NKX2-5, GATA4, and CRELD1 are rare in a Mexican sample of Down syndrome patients with endocardial cushion and septal heart defects.

Congenital heart defects (CHD) are found in ~50 % of Down syndrome (DS) patients. Genetic variants have been implicated, including CRELD1 mutations, but no previous study has examined the candidate genes, NKX2-5 and GATA4, in DS patients with secundum atrial defects (ASDII) and ventricular septal defects (VSD). Furthermore, CRELD1 mutations have not yet been studied in Mexican DS patients with atrioventricular septal defects (AVSD). Mexican DS patients (n = 148) with standard trisomy 21 were classified as follows: group I, normal heart; group II, VSD, ASDII, or both; and group III, AVSD. Mexican healthy controls (n = 113) were also included. Sequence analysis was performed on NKX2-5 and GATA4 in all three groups, and on CRELD1 in only group III. Statistical differences in the percentages of functional variants were analyzed by Fisher's exact test. Three non-synonymous variants in NKX2-5 were identified in the heterozygous state: a novel p.Pro5Ser was found in one DS patient without CHD; the p.Glu21Gln was found in one ASDII patient; and the p.Arg25Cys (R25C) was found in three patients (one from each DS study group). The p.Glu21Gln and R25C were also documented in 0.88 % of the controls. No significant difference was observed between the DS groups and healthy controls. Germline mutations in the NKX2-5, GATA4, and CRELD1 genes do not appear to be associated with CHD in Mexican DS patients. Our findings also support the notion that the R25C variant of NKX2-5 is a polymorphism, as it was not significantly different between our DS patients and controls.

5,10-Methylenetetrahydrofolate reductase single nucleotide polymorphisms and gene-environment interaction analysis in non-syndromic cleft lip/palate.

Non-syndromic cleft lip/palate (NSCL/P) is a common congenital defect in Mexico. Periconceptional intake of folic acid (FA) may reduce the risk of this malformation. Although the 5,10-methylenetetrahydrofolate reductase (MTHFR) enzyme participates in folate metabolism, several studies failed to find any association between NSCL/P and the MTHFR C677T and A1298C polymorphisms. However, interactions among NSCL/P, MTHFR gene polymorphisms, and FA intake have not been explored in Mexican populations. This case-control study included 132 patients with NSCL/P and 370 controls from Mexico City. Maternal FA consumption during pregnancy was examined, as were the MTHFR C677T and A1298C polymorphisms and gene-FA interactions. Maternal FA intake during the periconceptional period was lower in cases (1.5%) than in controls (13%), with the risk of delivering a child with NSCL/P lower in mothers who consumed FA (OR = 0.29, 95% CI: 0.19-0.44). In addition, the risk of NSCL/P was lower in children with the TT than the CC genotype of MTHFR C677T (OR = 0.39, 95% CI: 0.23-0.68), after Bonferroni correction and exclusion of stratification. No evidence of gene-FA interaction was found. These results indicate that maternal FA intake and the TT genotype of the MTHFR C677T polymorphism in children independently reduced the risk of NSCL/P in our population.

CTNS gene analysis emphasizes diagnostic value of eye examination in patients with cystinosis.

Classic nephropathic cystinosis (CNC) is an autosomal recessive and infrequent inborn metabolic disease that should be suspected in all children who show failure to thrive and renal Fanconi syndrome (RFS). Slit-lamp examination reveals pathognomonic corneal deposits of cystine crystals in virtually all affected individuals after 12-16 mo of age. A diagnosis of CNC is difficult to confirm in children living in Mexico and most Latin American countries, because cystine levels can be measured only at a few locations. We report the cystinosin genotype findings in 15 Latin American patients with a high clinical suspicion of CNC mainly due to RFS (n =13), although five of them lacked proper ophthalmologic assessment, despite being more than 1-year-old. Molecular analysis confirmed diagnosis of CNC in six (40%) of the 15 patients, five of them with RFS and cystine crystals. The remaining nine (60%) patients had a normal genotype. The predominance of a normal cystinosin genotype in eight of 13 patients with RFS (61.50%) reinforces the need to perform slit-lamp examinations in all patients with RFS over 1 yr of age, prior to measuring cystine or performing molecular cystinosin study, both methods not readily available throughout Latin America.

Mucopolysaccharidosis type II in a female carrying a heterozygous stop mutation of the iduronate-2-sulfatase gene and showing a skewed X chromosome inactivation.

We report a Mexican girl showing the full blown clinical picture of mucopolysaccharidosis type II (MPSII). Iduronate-2-sulfatase (IDS) activity was low and she carried a heterozygous de novo c.1327C>T transition in exon 9, that changes codon 443 for a premature stop (TGA; p.Arg443(*)). Analysis of X-chromosome inactivation in androgen receptor (AR) locus showed a highly skewed ratio of 92:8 suggesting a functional hemizygosity with dominant expression of the mutant IDS and explaining the disease manifestation. This is one of the rare cases of females affected by MPSII due to the combined effect of a skewed X-chromosome inactivation and a de novo IDS mutation. We recommend that clinicians should consider the diagnosis of MPSII even in a girl without positive family history for this condition.

Phenotype-Genotype Discrepancy Due to a 5.5-kb Deletion in the GALT Gene.

Classical galactosemia is an autosomal recessive inborn error of metabolism caused by a deficiency of the galactose-1-phosphate uridyltransferase (GALT). More than 200 mutations have been described in the GALT gene. A 5.5-kb GALT deletion, first described in patients of Ashkenazi Jewish ancestry, may lead either to an erroneous genotype assignment of classical galactosemia or to discrepancies with parental genotypes and the expected biochemical phenotype. The presence of the 5.5-kb deletion was examined in 27 Mexican nonrelated families with at least one child with reduced GALT activity in erythrocytes and it was detected in the 5.5% (n=3) of the 54 alleles tested. The first molecular studies in three of our families showed that the genotypes of the parents were inconsistent with those of their children, which were considered initially as homozygous p.N314D-Duarte 2, but after analyzing for the presence of the 5.5-kb deletion, were reassigned as compound heterozygotes [5.5-kb deletion]+[p.N314D-Duarte 2]. Identification of the 5.5-kb deletion in Mexican patients suggests that this mutation might not be exclusive to a given ethnic group and should be tested in other populations, especially when there is a discrepancy between the genotypes of patients and parents or by incongruence between biochemical phenotype and GALT genotype. Establishing a genotype-phenotype correlation for the 5.5-kb GALT deletion and determining the appropriate management will require additional studies in patients with a G/G genotype bearing the 5.5-kb GALT deletion.