Variants in DOK7 results in fetal akinesia deformation sequence: A case report and review of literature.

We report the third case of FADS due to biallelic DOK7 variants, which further strengthens the association of DOK7 with this lethal phenotype and lack of genotype phenotype correlation.

Clinical, radiological and molecular studies in 24 individuals with Dyggve-Melchior-Clausen dysplasia and Smith-McCort dysplasia from India.

BACKGROUND: Dyggve-Melchior-Clausen dysplasia (DMC) and Smith-McCort dysplasia (SMC types 1 and 2) are rare spondyloepimetaphyseal dysplasias with identical radiological findings. The presence of intellectual disability in DMC and normal intellect in SMC differentiates the two. DMC and SMC1 are allelic and caused by homozygous or compound heterozygous variants in DYM. SMC2 is caused by variations in RAB33B. Both DYM and RAB33B are important in intravesicular transport and function in the Golgi apparatus. METHODS: Detailed clinical phenotyping and skeletal radiography followed by molecular testing were performed in all affected individuals. Next-generation sequencing and Sanger sequencing were used to confirm DYM and RAB33B variants. Sanger sequencing of familial variants was done in all parents. RESULTS: 24 affected individuals from seven centres are described. 18 had DMC and 6 had SMC2. Parental consanguinity was present in 15 of 19 (79%). Height <3 SD and gait abnormalities were seen in 20 and 14 individuals, respectively. The characteristic radiological findings of lacy iliac crests and double-humped vertebral bodies were seen in 96% and 88% of the affected. Radiological findings became attenuated with age. 23 individuals harboured biallelic variants in either DYM or RAB33B. Fourteen different variants were identified, out of which 10 were novel. The most frequently occurring variants in this group were c.719 C>A (3), c.1488_1489del (2), c.1484dup (2) and c.1563+2T>C (2) in DYM and c.400C>T (2) and c.186del (2) in RAB33B. The majority of these have not been reported previously. CONCLUSION: This large cohort from India contributes to the increasing knowledge of clinical and molecular findings in these rare 'Golgipathies'.

Mutations in genes encoding condensin complex proteins cause microcephaly through decatenation failure at mitosis.

Compaction of chromosomes is essential for accurate segregation of the genome during mitosis. In vertebrates, two condensin complexes ensure timely chromosome condensation, sister chromatid disentanglement, and maintenance of mitotic chromosome structure. Here, we report that biallelic mutations in NCAPD2, NCAPH, or NCAPD3, encoding subunits of these complexes, cause microcephaly. In addition, hypomorphic Ncaph2 mice have significantly reduced brain size, with frequent anaphase chromatin bridge formation observed in apical neural progenitors during neurogenesis. Such DNA bridges also arise in condensin-deficient patient cells, where they are the consequence of failed sister chromatid disentanglement during chromosome compaction. This results in chromosome segregation errors, leading to micronucleus formation and increased aneuploidy in daughter cells. These findings establish "condensinopathies" as microcephalic disorders, with decatenation failure as an additional disease mechanism for microcephaly, implicating mitotic chromosome condensation as a key process ensuring mammalian cerebral cortex size.

Neurodegeneration with brain iron accumulation: a case series highlighting phenotypic and genotypic diversity in 20 Indian families.

Neurodegeneration with brain iron accumulation (NBIA) is an umbrella term encompassing various inherited neurological disorders characterised by abnormal iron accumulation in basal ganglia. We aimed to study the clinical, radiological and molecular spectrum of disorders with NBIA. All molecular-proven cases of NBIA presented in the last 5 years at 2 tertiary care genetic centres were compiled. Demographic details and clinical and neuroimaging findings were collated. We describe 27 individuals from 20 unrelated Indian families with causative variants in 5 NBIA-associated genes. PLA2G6-associated neurodegeneration (PLAN) was the most common, observed in 13 individuals from 9 families. They mainly presented in infancy with neuroregression and hypotonia. A recurrent pathogenic variant in COASY was observed in two neonates with prenatal-onset severe neurodegeneration. Pathogenic bi-allelic variants in PANK2, FA2H and C19ORF12 genes were observed in the rest, and these individuals presented in late childhood and adolescence with gait abnormalities and extrapyramidal symptoms. No intrafamilial and interfamilial variability were observed. Iron deposition on neuroimaging was seen in only 6/17 (35.3%) patients. A total of 22 causative variants across 5 genes were detected including a multiexonic duplication in PLA2G6. The variants c.1799G > A and c.2370 T > G in PLA2G6 were observed in three unrelated families. In silico assessments of 8 amongst 9 novel variants were also performed. We present a comprehensive compilation of the phenotypic and genotypic spectrum of various subtypes of NBIA from the Indian subcontinent. Clinical presentation of NBIAs is varied and not restricted to extrapyramidal symptoms or iron accumulation on neuroimaging.

T2 olivary nuclei hyperintensities: A characteristic neuroimaging finding in FIG4-related leukoencephalopathy.

FIG4 related leukoencephalopathy has recently been considered as an expanded spectrum of FIG4 related disorders characterized by upper and lower motor neuron involvement, dystonia, intellectual disability, bulbar symptoms with cerebellar atrophy. We report a 7-year-old girl who presented with classic clinical features of FIG4 related leukoencephalopathy and neuroimaging showed characteristic T2 olivary nuclei hyperintensities in addition to bilateral parietal lobe and thalamic hyperintensities and mild cerebellar atrophy. Trio exome sequencing with Sanger confirmation revealed a novel variant c.504C>G in the FIG4 gene. Phase contrast microscopy of skin fibroblast cultures detect enlarged vacuoles in 50% of patient's fibroblasts as opposed to 18.6% vacuolation in cultured control fibroblasts (p < 0.00001), a feature characteristic of fibroblasts with deleterious variants of FIG4. In addition, we have reviewed and compared the phenotypic features of published cases of FIG4 related leukoencephalopathy from literature. This case adds to the delineation of FIG4 related leukoencephalopathy phenotype. The radiological finding of T2 inferior olivary nuclei hyperintensities appear to be characteristic for the phenotype or at least for the cases due to variants in and around the 168th codon and active effort should be made to detect the same as it can add to the genotype phenotype spectrum.

Perspectives on the future of dysmorphology.

The field of clinical genetics and genomics continues to evolve. In the past few decades, milestones like the initial sequencing of the human genome, dramatic changes in sequencing technologies, and the introduction of artificial intelligence, have upended the field and offered fascinating new insights. Though difficult to predict the precise paths the field will follow, rapid change may continue to be inevitable. Within genetics, the practice of dysmorphology, as defined by pioneering geneticist David W. Smith in the 1960s as "the study of, or general subject of abnormal development of tissue form" has also been affected by technological advances as well as more general trends in biomedicine. To address possibilities, potential, and perils regarding the future of dysmorphology, a group of clinical geneticists, representing different career stages, areas of focus, and geographic regions, have contributed to this piece by providing insights about how the practice of dysmorphology will develop over the next several decades.

Retrospective diagnosis by parental testing in the next generation sequencing era and utility of reanalysis of exome data.

OBJECTIVE: Genetic diseases are an important cause of neonatal and childhood mortality. For couples with a history of demise of previous children, screening for carrier status can be done by exome sequencing (ES) of the parents. Our aim was to describe the clinical utility of "targeted parental ES" in such couples and to assess the utility of reanalysis of parental ES data. METHOD: We analyzed previous records, including ES reports, of 52 families with demise of previous offspring with a suspected genetic disorder. We also retrieved and reanalyzed raw data of parental ES in FASTQ format from the testing lab. RESULTS: A potential diagnosis was obtained in 30/52 (57.7%) of couples. We found 38/70 (54.3%) novel variants in this cohort. Shared carrier status for more than one autosomal or X-linked recessive disorder was identified in 18% of couples. Reanalysis of raw data resulted in a reclassification of variants in 15% of cases. CONCLUSION: Targeted parental ES can be helpful for families with demise of previous offspring with a suspected genetic disorder.

Hypomorphic Mutations in TONSL Cause SPONASTRIME Dysplasia.

SPONASTRIME dysplasia is a rare, recessive skeletal dysplasia characterized by short stature, facial dysmorphism, and aberrant radiographic findings of the spine and long bone metaphysis. No causative genetic alterations for SPONASTRIME dysplasia have yet been determined. Using whole-exome sequencing (WES), we identified bi-allelic TONSL mutations in 10 of 13 individuals with SPONASTRIME dysplasia. TONSL is a multi-domain scaffold protein that interacts with DNA replication and repair factors and which plays critical roles in resistance to replication stress and the maintenance of genome integrity. We show here that cellular defects in dermal fibroblasts from affected individuals are complemented by the expression of wild-type TONSL. In addition, in vitro cell-based assays and in silico analyses of TONSL structure support the pathogenicity of those TONSL variants. Intriguingly, a knock-in (KI) Tonsl mouse model leads to embryonic lethality, implying the physiological importance of TONSL. Overall, these findings indicate that genetic variants resulting in reduced function of TONSL cause SPONASTRIME dysplasia and highlight the importance of TONSL in embryonic development and postnatal growth.

Autosomal recessive spinocerebellar ataxia-20 due to a novel SNX14 variant in an Indian girl.

Autosomal recessive spinocerebellar ataxia-20 is a rare disorder having distinctive coarse facies in addition to intellectual disability and cerebellar ataxia, with less than 35 cases reported worldwide. It is caused by biallelic variants in the SNX14 gene and is classified under the group of autophagy disorders. We report a 9-year-old girl who presented with classic clinical features of autosomal recessive spinocerebellar ataxia-20 and cerebellar atrophy on magnetic resonance imaging of brain. Trio exome sequencing with Sanger confirmation revealed a novel splice site variant, c.140 + 3A > T in the SNX14 gene. The variant pathogenicity established by mRNA expression study showed a significant reduction in the expression levels of SNX14 gene in proband and her parents on comparison to the control. The electron microscopy of the skin fibroblasts of proband depicted numerous cytoplasmic vacuoles with variable degrees of dense staining material. In addition, we have briefly reviewed and compared the phenotypic features of published cases of autosomal recessive spinocerebellar ataxia-20 in the literature. Coarse facies, intellectual disability with severe speech delay, hypotonia, and cerebellar atrophy were universal findings in the published cases. This is the second reported case from the Indian subcontinent.

Monosomy 1p36: Report of a cohort of 13 Asian Indian patients.

Monosomy 1p36 is one of the common microdeletion syndromes with a recognizable facial phenotype. Failure to thrive, developmental delay, congenital heart disease, and other abnormalities are common in these patients. This is the first study on Asian Indian patients with monosomy 1p36, documenting the phenotypic characteristics of 13 patients, indicating phenotypic similarities in a diverse population and broadening the clinical spectrum.

COASY related pontocerebellar hypoplasia type 12: A common Indian mutation with expansion of the phenotypic spectrum.

Pontocerebellar hypoplasia (PCH) type 12 is a rare, perinatal lethal neurodegenerative genetic disorder caused by biallelic mutations in the COASY gene. Herein, we describe the clinical and neuroradiological profile of nine affected fetuses/neonates from five families identified with a common COASY: c.1486-3C>G biallelic variant. Four of the five families were identified after data reanalysis of unresolved, severe PCH like phenotype and the fifth family through collaboration. The common antenatal phenotype was cerebellar hypoplasia. Microcephaly, arthrogryposis, and intrauterine growth restriction were the shared postnatal findings. The neurological manifestations included seizures, poor sucking, and spasticity. Novel findings of corpus callosum agenesis, simplified gyral pattern, normal sized pons, optic neuropathy, and a small thorax are reported in this series. The allele frequency of the COASY: c.1486-3C>G variant was 0.62% in the available Asian Indian database. We describe this as a possible common Indian origin variant. To the best of our knowledge, this is the largest PCH12 series reported.

Pseudoachondroplasia: Phenotype and genotype in 11 Indian patients.

Pseudoachondroplasia (PSACH) is an autosomal dominant disorder characterized by rhizomelic short-limbed skeletal dysplasia. The primary clinical and radiographic features include disproportionate dwarfism, joint laxity and hyperextensibility, exaggerated lumbar lordosis, and late ossification of the epiphyses. Identification of disease-causing variants in heterozygous state in COMP establishes the molecular diagnosis of PSACH. We examined 11 families with clinical features suggestive of PSACH. In nine families, we used Sanger sequencing of exons 8-19 of COMP (NM_000095.2) and in two families exome sequencing was used for confirming the diagnosis. We identified 10 de novo variants, including five known variants (c.925G>A, c.976G>A, c.1201G>T, c.1417_1419del, and c.1511G>A) and five variants (c.874T>C, c.1201G>C, c.1309G>A, c.1416_1421delCGACAA, and c.1445A>T) which are not reported outside Indian ethnicity. We hereby report the largest series of individuals with molecular diagnosis of PSACH from India and reiterate the well-known genotype-phenotype corelation in PSACH.

Ectodysplasin pathogenic variants affecting the furin-cleavage site and unusual clinical features define X-linked hypohidrotic ectodermal dysplasia in India.

Hypohidrotic ectodermal dysplasia (HED) is a rare genetic disorder caused by mutational inactivation of a developmental pathway responsible for generation of tissues of ectodermal origin. The X-linked form accounts for the majority of HED cases and is caused by Ectodysplasin (EDA) pathogenic variants. We performed a combined analysis of 29 X-linked hypohidrotic ectodermal dysplasia (XLHED) families (including 12 from our previous studies). In addition to the classical triad of symptoms including loss (or reduction) of ectodermal structures, such as hair, teeth, and sweat glands, we detected additional HED-related clinical features including facial dysmorphism and hyperpigmentation in several patients. Interestingly, global developmental delay was identified as an unusual clinical symptom in many patients. More importantly, we identified 22 causal pathogenic variants that included 15 missense, four small in-dels, and one nonsense, splice site, and large deletion each. Interestingly, we detected 12 unique (India-specific) pathogenic variants. Of the 29 XLHED families analyzed, 11 (38%) harbored pathogenic variant localized to the furin cleavage site. A comparison with HGMD revealed significant differences in the frequency of missense pathogenic variants; involvement of specific exons and/or protein domains and transition/transversion ratios. A significantly higher proportion of missense pathogenic variants (33%) localized to the EDA furin cleavage when compared to HGMD (7%), of which p.R155C, p.R156C, and p.R156H were detected in three families each. Therefore, the first comprehensive analysis of XLHED from India has revealed several unique features including unusual clinical symptoms and high frequency of furin cleavage site pathogenic variants.

Haemophilia management programme: Transformation during COVID-19.

Background & objectives: Haemophilia is a debilitating bleeding disorder with significant comorbidities affecting the quality of life. In India, the management of these individuals is still limited to on-demand institutional treatment with coagulant factors. In this study, we highlighted the problems faced by these patients in the COVID-19 period due to nationwide lockdown. Methods: A retrospective study was done to ascertain the trend in the number of patients with haemophilia A and B visiting the hospital, those succumbing to haemophilic complications and indications for factor requirement in the pre-COVID (October 2019-March 2020) and during the COVID-19 period (April-September 2020). Representative cases with unusual complications were described along with significant challenges faced in providing standard care of treatment to these individuals due to the COVID-19 pandemic. Results: A total of 818 and 162 individuals with haemophilia A and B, respectively, were registered with the department. The overall number of patient visits to the hospital significantly reduced from an average of 6.9 outpatient department (OPD) visits per patient in the pre-COVID-19 period to an average of 3.9 OPD visits per patient and admissions reduced to 50 per cent during the COVID-19 period. This led to a reduction in utilization of factors VIII and IX except VIIa for haemophilia with inhibitors. There was no factor utilization for elective surgeries during the COVID-19 period. A total of eight patients succumbed to haemophilia-related complications during the COVID-19 period due to delay in reaching the hospital. The challenges faced in the management of three cases with musculoskeletal bleeds, one case with scrotal haematoma and one with haemothorax during the COVID-19 period were also highlighted. Interpretation & conclusions: COVID-19 pandemic has unveiled the need for on-demand home treatment with coagulant factors and has also brought to light the existing need for primary prophylaxis, especially for younger individuals with haemophilia.

A data set of variants derived from 1455 clinical and research exomes is efficient in variant prioritization for early-onset monogenic disorders in Indians.

Given the genomic uniqueness, a local data set is most desired for Indians, who are underrepresented in existing public databases. We hypothesize patients with rare monogenic disorders and their family members can provide a reliable source of common variants in the population. Exome sequencing (ES) data from families with rare Mendelian disorders was aggregated from five centers in India. The dataset was refined by excluding related individuals and removing the disease-causing variants (refined cohort). The efficiency of these data sets was assessed in a new set of 50 exomes against gnomAD and GenomeAsia. Our original cohort comprised 1455 individuals from 1203 families. The refined cohort had 836 unrelated individuals that retained 1,251,064 variants with 181,125 population-specific and 489,618 common variants. The allele frequencies from our cohort helped to define 97,609 rare variants in gnomAD and 44,520 rare variants in GenomeAsia as common variants in our population. Our variant dataset provided an additional 1.7% and 0.1% efficiency for prioritizing heterozygous and homozygous variants respectively for rare monogenic disorders. We observed additional 19 genes/human knockouts. We list carrier frequency for 142 recessive disorders. This is a large and useful resource of exonic variants for Indians. Despite limitations, datasets from patients are efficient tools for variant prioritization in a resource-limited setting.

Functional characterization of novel variants in SMPD1 in Indian patients with acid sphingomyelinase deficiency.

Pathogenic variations in SMPD1 lead to acid sphingomyelinase deficiency (ASMD), that is, Niemann-Pick disease (NPD) type A and B (NPA, NPB), which is a recessive lysosomal storage disease. The knowledge of variant spectrum in Indian patients is crucial for early and accurate NPD diagnosis and genetic counseling of families. In this study, we recruited 40 unrelated pediatric patients manifesting symptoms of ASMD and subnormal ASM enzyme activity. Variations in SMPD1 were studied using Sanger sequencing for all exons, followed by interpretation of variants based on American College of Medical Genetics and Genomics & Association for Molecular Pathology (ACMG/AMP) criteria. We identified 18 previously unreported variants and 21 known variants, including missense, nonsense, deletions, duplications, and splice site variations with disease-causing potential. Eight missense variants were functionally characterized using in silico molecular dynamic simulation and in vitro transient transfection in HEK293T cells, followed by ASM enzyme assay, immunoblot, and immunofluorescence studies. All the variants showed reduced ASM activity in transfected cells confirming their disease-causing potential. The study provides data for efficient prenatal diagnosis and genetic counseling of families with NPD type A and B.

Novel FOXP1 pathogenic variants in two Indian subjects with syndromic intellectual disability.

We describe two unrelated Indian boys with Mental retardation with language impairment with or without autistic features (OMIM#613670). Novel pathogenic variants c. 593_599 delins AGAAG and c.1556T>C in FOXP1 were identified in Patients 1 and 2, respectively by exome sequencing. The patients shared the cardinal features of significant language impairment, prominent forehead, downslanted palpebral fissures, frontal upsweep of hair, and behavioral abnormalities. Camptodactyly (with pterygia in Patient 2) was an additional feature noted in our study. The phenotype was consistent with previous reports of patients with monogenic defects in FOXP1. The facial features overlap with Sotos syndrome. However, presence of frontal upsweep of hair is a good pointer toward FOXP1 related syndromic intellectual disability.

Twins with PEX7 related intellectual disability and cataract: Highlighting phenotypes of peroxisome biogenesis disorder 9B.

Peroxisome biogenesis disorders (PBDs) are a group of autosomal recessive disorders caused due to impaired peroxisome assembly affecting the formation of functional peroxisomes. PBDs are caused by a mutation in PEX gene family resulting in disease manifestation with extreme variability ranging from the onset of profound neurologic symptoms in newborns to progressive degenerative disease in adults. Disease causing variations in PEX7 is known to cause severe rhizomelic chondrodysplasia punctata type 1 and PBD 9B, an allelic disorder resulting in a milder phenotype, often indistinguishable from that of classic Refsum disease. This case report highlights the variability of PEX7 related phenotypes and suggests that other than RCDP1 and late onset phenotype similar to Refsum disease, some cases present with cataract and neurodevelopmetal abnormalities during childhood without chondrodysplasia or rhizomelia. This report also underlines the importance of considering PBD 9B in children presenting with neurodevelopmental abnormalities especially if they have congenital cataract.

Clinical and molecular characterization of four patients with Robinow syndrome from different families.

Robinow syndrome (RS) is a rare heterogeneous disorder characterized by short stature, short-limbs, craniofacial, oro-dental abnormalities, vertebral segmentation defects, and frequently genital hypoplasia. Both autosomal dominant and recessive patterns of inheritance are observed with many causative genes. Here, we present the phenotypes and genotypes of four children with RS from different Indian families. Sequence variants were identified in genes ROR2, DVL1, and DVL3. Our results expand the mutational spectrum of RS and we also highlight the radiological changes in the radius and ulna in patients with ROR2 sequence variants which are primarily characteristic for ROR2 related RS but have been reported in WNT5A related RS.

Carrier frequency of SMN1-related spinal muscular atrophy in north Indian population: The need for population based screening program.

Chromosome 5q related Spinal muscular atrophy (SMA) is an autosomal recessive, progressive, neuromuscular disorder most commonly caused by homozygous deletion of exon 7 or exon 7 and 8 of SMN1 gene. Being the leading genetic cause of infant mortality, studies of its prevalence and incidence are necessary. Carrier testing for the common pathogenic variant for SMA is offered to the couples visiting our tertiary care hospital in North India. Subjects were tested for SMA carrier status by Multiplex Ligation-dependent Probe amplification (MLPA) technique for deletion of exons 7 and 8 of SMN1 gene. The retrospective data of individuals tested for SMA carrier status in last 4 years (2016-2019) was evaluated. Six hundred and six individuals without family history of SMA or carrier of SMA who were subjected to MLPA based screening for SMA carrier status were included in the study. The carrier frequency of SMN1 deletion (deletion of exon 7 and/or exon 8) was found to be 1 in 38 (16 out of 606). The catchment area of our medical genetics clinic covering the state of Uttar Pradesh (16.5% of Indian population according to censusindia.gov.in, 2011) and neighboring states, showing SMA carrier frequency of 1:38 in a cohort with no prior positive family history has important significance for policy making.