The first Japanese family of CDH3-related hypotrichosis with juvenile macular dystrophy.

BACKGROUND: Hypotrichosis with juvenile macular dystrophy (HJMD) is a rare autosomal recessive inherited disorder caused by biallelic variants in the CDH3 gene encoding P-cadherin. Here, we report two Japanese sibling patients with HJMD. METHODS: Whole-exome sequencing (WES) was performed to identify disease-causing variants. In addition, ophthalmic and dermatological examinations were performed to classify the phenotype of each patient. RESULTS: The WES analysis revealed novel compound heterozygous CDH3 variants [c.123_129dupAGGCGCG (p.Glu44fsX26) and c.2280+1G>T] in both patients; the unaffected, nonconsanguineous parents each exhibited one of the variants. Both patients showed the same clinical findings. Ophthalmologically, they exhibited progressive loss of visual acuity and chorioretinal macular atrophy, as examined with fundoscopy, fundus autofluorescence imaging, and optical coherence tomography. Full-field electroretinography, assessing generalized retinal function, revealed nearly normal amplitudes of both rod- and cone-mediated responses. Multifocal electroretinography, reflecting macular function, showed extremely decreased responses in the central area, corresponding to the chorioretinal atrophy. Dermatological examination revealed diffuse thinning of the scalp hair, which was sparse and fragile. CONCLUSION: This is the first report of Japanese patients with HJMD and novel compound heterozygous truncating variants in CDH3. Our findings can expand the knowledge and understanding of CDH3-related HJMD, which could be helpful to ophthalmologists and dermatologists.

Metabolic and pathologic profiles of human LSS deficiency recapitulated in mice.

Skin lesions, cataracts, and congenital anomalies have been frequently associated with inherited deficiencies in enzymes that synthesize cholesterol. Lanosterol synthase (LSS) converts (S)-2,3-epoxysqualene to lanosterol in the cholesterol biosynthesis pathway. Biallelic mutations in LSS have been reported in families with congenital cataracts and, very recently, have been reported in cases of hypotrichosis. However, it remains to be clarified whether these phenotypes are caused by LSS enzymatic deficiencies in each tissue, and disruption of LSS enzymatic activity in vivo has not yet been validated. We identified two patients with novel biallelic LSS mutations who exhibited congenital hypotrichosis and midline anomalies but did not have cataracts. We showed that the blockade of the LSS enzyme reaction occurred in the patients by measuring the (S)-2,3-epoxysqualene/lanosterol ratio in the forehead sebum, which would be a good biomarker for the diagnosis of LSS deficiency. Epidermis-specific Lss knockout mice showed neonatal lethality due to dehydration, indicating that LSS could be involved in skin barrier integrity. Tamoxifen-induced knockout of Lss in the epidermis caused hypotrichosis in adult mice. Lens-specific Lss knockout mice had cataracts. These results confirmed that LSS deficiency causes hypotrichosis and cataracts due to loss-of-function mutations in LSS in each tissue. These mouse models will lead to the elucidation of the pathophysiological mechanisms associated with disrupted LSS and to the development of therapeutic treatments for LSS deficiency.

Correlating Adaptive Optics Images to Clinical Findings in Juvenile Macular Dystrophy with Hypotrichosis in Siblings with Homozygous CDH3 Pathogenic Variation.

OBJECTIVE: We report on two German siblings diagnosed with congenital hypotrichosis and juvenile macular dystrophy, an extremely rare syndrome affecting both hair growth and visual functions. METHODS: A detailed ophthalmological examination was carried out including fundus examination, visual acuity assessment, visual field determination, color vision testing, and electrophysiology (electroretinography [ERG]). Additionally, fundus photography and autofluorescence imaging (FAF) was performed, along with optical coherence tomography (OCT) and adaptive optics (AO) fundus imaging. Targeted Sanger sequencing and next-generation gene panel sequencing were carried out. RESULTS: Macular dystrophy was evident in the fundus of both patients, as was a central scotoma in the static visual field. The kinetic visual field was normal. The ERG recordings were also normal, but the amplitudes of the multifocal ERG were reduced in the central 4-5° of the retina. The FAF images revealed a large central hypofluorescent area surrounded by a hyperfluorescent ring. The OCT images showed atrophy in the outer layers and tubulations. The AO images depicted a loss of central photoreceptors, as well as severe central atrophy in patient 1. A cone mosaic was observable in the peripheral AO fundus images of both patients. The disrupted cone mosaic on the AO images correlated with the hypofluorescent areas on autofluorescence. DNA testing identified the homozygous, likely pathogenic variant c.1508G>A/p.(Arg503His) (chr16:68719191) in the CDH3 gene. CONCLUSIONS: The two siblings revealed hypotrichosis and macular dystrophy in both eyes. The identification of a homozygous CDH3 mutation in each patient confirms the syndromic entity of hypotrichosis with juvenile macular degeneration.

Hypotrichosis with juvenile macular dystrophy: Combination of whole-genome sequencing and genome-wide homozygosity mapping identifies a large deletion in CDH3 initially undetected by whole-exome sequencing-A lesson from next-generation sequencing.

BACKGROUND: Hypotrichosis with juvenile macular dystrophy (HJMD) is an autosomal recessive disorder characterized by abnormal growth of scalp hair and juvenile macular degeneration leading to blindness. We have explored the genetic basis of HJMD in a large consanguineous family with 12 affected patients, 1-76 years of age, with characteristic phenotypes. METHODS: We first applied genome-wide homozygosity mapping to 10 affected individuals for linkage analysis to identify the genomic region of the defective gene. All affected individuals shared a 7.2 Mb region of homozygosity on chromosome 16q21-22.3, which harbored 298 genes, including CDH3, previously associated with HJMD. However, whole-exome sequencing (WES) failed to identify the causative mutation in CDH3. RESULTS: Further investigation revealed a missense variant in a gene closely linked to CDH3 (1.4 Mb distance: FHOD1: c.1306A>G, p.Arg436Gly). This variant was homozygous in all affected individuals and heterozygous in 18 out of 19 obligate carriers. While this variant was found by bioinformatics predictions to be likely pathogenic, a knock-in mouse for this variant, made by the CRISPR/Cas, showed no disease phenotype. However, using whole-genome sequencing (WGS), we were able to identify a novel Alu recombination-mediated deletion in CDH3:c.del161-811_246 + 1,044. CONCLUSION: WGS was able to identify a deep intronic deletion mutation, not detected by WES.

Congenital hypotrichosis in a Simmental cross heifer.

BACKGROUND: Congenital hypotrichosis is defined as a less than normal amount of hair, obvious at birth or in the first weeks of life. Causes are nongenetic or genetic. OBJECTIVES: To describe the clinical presentation and histological features of a novel form of hypotrichosis in a heifer. ANIMAL: A 15-month-old Simmental cross-bred heifer was presented with a history of progressive hair loss, which started at four months of age and progressed to severe generalized hypotrichosis. METHODS AND MATERIALS: Anamnestic data, detailed clinical examination, haematological investigation, selected biochemistry profile, RT-PCR and ELISA for bovine viral diarrhoea virus did not suggest a cause for the hypotrichosis; skin samples were examined histologically. RESULTS: Histopathology of the skin showed a 50% reduction in the number of hair follicles and dysplastic hair follicles; these findings led to a diagnosis of congenital hypotrichosis. The distribution of the hair and some of the histopathological characteristics were potentially consistent with viable hypotrichosis. A marked reduction in follicle density, hypertrophy of sebaceous glands, hypoplasia of arrector pili muscles and moderate acanthosis with hyperkeratosis, which have not been described previously in viable hypotrichosis or other forms of congenital hypotrichosis, were also observed. CONCLUSION AND CLINICAL SIGNIFICANCE: This case may represent a novel form of congenital hypotrichosis.

Proteomic manifestations of genetic defects in autosomal recessive congenital ichthyosis.

Numerous genetic conditions give rise to a scaly skin phenotype as a result of impaired barrier function. Present work investigates the degree to which the departure from normal of ichthyosis corneocytes on the skin surface depends upon the basic defect as judged by proteomic profiling. Analyzing autosomal recessive congenital ichthyosis arising from defects in the genes PNPLA1, SDR9C7 and TGM1 revealed that profiles of PNPLA1 samples displayed the greatest degree of departure from normal control epidermis, with SDR9C7 samples nearly as divergent, and TGM1 the least divergent. Although the profiles were distinctive, each displaying a set of altered protein levels, they exhibited alterations in 20 proteins in common, of which 15 were expressed consistently at higher and 5 at lower levels. Departure from the normal profile was examined at three different anatomic sites (forearm, forehead, leg). Reflecting that the normal protein profile differed at these sites, comparing profiles from afflicted subjects revealed that the degree of alteration in profile was site-dependent. These results suggest proteomic profiling can provide a quantitative measure of departure from the normal state of epidermis. Further development may help characterize consequences of the genetic defects, including perturbation of signaling pathways, and supplement visual evaluation of treatment. SIGNIFICANCE: ARCI are rare cornification disorders caused by mutations in at least 14 different genes leading to perturbed metabolism and organization of constituent biomolecules of cornified envelopes. The phenotypic manifestations of the disorder vary among individuals with the same as well as different genetic defects and even at different anatomic sites within the same individual. The present study investigates the proteomic disturbances at three anatomic sites in patients carrying mutations in three different genes. Our findings provide a basis for elucidating genotype to proteome relationships for ARCI, further investigation of which may help to delineate the underlying pathways as well as to identify new drug targets.

Marie Unna hereditary hypotrichosis accompanied by multiple familial trichoepithelioma in a Chinese family.

Marie Unna hereditary hypotrichosis (MUHH) and multiple familial trichoepithelioma (MFT) are both autosomal dominant disorders. Recently, certain genes (HR and EPS8L3) have been found to be responsible for MUHH, while CYLD has been demonstrated to be the main pathogenic gene in MFT patients. However, there exist a number of CYLD mutation-negative MFT cases, for which the causative gene has been unknown. Here, we identified a large, five-generation Han Chinese family with several patients presenting with MUHH and MFT. Sanger sequencing of three genes in 13 family members was performed. We found that the c.1A>G mutation in an inhibitory upstream open-reading frame of HR (U2HR) was present in all MUHH patients, while no pathogenic variants were found in the 3'- or 5'-untranslated regions, exons or flanking intronic sequences of EPS8L3 or CYLD in any family members. Subsequently, whole-genome sequencing was performed for five affected and one unaffected family member. We found no CYLD variants but identified an FABP12 variant (rs536105592 G>A) in the patients with both MUHH and MFT. These results suggest that the U2HR mutation was responsible for MUHH and the FABP12 variant may be coincidental in the accompanying MFT in this unique pedigree. This report deepens our understanding of the genetic basis of hair follicle diseases.

Hypotrichosis with cone-rod dystrophy in a patient with cadherin 3 (CDH3) mutation.

PURPOSE: To investigate a very rare case of hypotrichosis with cone-rod dystrophy caused by a P-cadherin CDH3 mutation. METHODS: A 16-year-old Syrian girl was examined at age 9 and 14 years with an ophthalmological examination, fundus imaging, OCT and electrophysiological recordings (ERG and PERG). A disease-targeted gene panel sequencing was performed. RESULTS: Fundus images showed pigmentations at the posterior eye pole to the mid periphery, as well as vessel tortuosity. OCT images revealed a loss of the outer retinal segments and IS/OS in the central macula. The scotopic and photopic ERGs showed moderately reduced amplitudes at age 9 years that became severely reduced at age of 14 years. The PERG was undetectable at age 9 years. In color vision testing, protan-deutan confusion errors occurred. Gene panel analysis revealed one homozygous mutation in CDH3 (c.1508G>A; p.Arg503His). CONCLUSION: This case shows that a CDH3 mutation besides macula dystrophy can cause widespread cone-rod dystrophy with hypotrichosis without any other pathology besides hypoplastic nails. This points to a common pathway of hair growth and photoreceptor development that can be disturbed by a CDH3 mutation (c.1508G>A; p.Arg503His) located in the EC4 repeat region of the gene.

The disrupted balance between hair follicles and sebaceous glands in Hoxc13-ablated rabbits.

Pure hair and nail ectodermal dysplasia 9 (ECTD-9) is an autosomal recessive genetic disease caused by mutation of HOXC13 and is characterized by hypotrichosis and nail dystrophy in humans. Unlike patients with ECTD-9, Hoxc13-mutated mice and pigs do not faithfully recapitulate the phenotype of hypotrichosis, so there is a limited understanding of the molecular mechanism of Hoxc13-mediated hypotrichosis in animal models and clinically. Here, the homozygous Hoxc13-/- rabbits showed complete loss of hair on the head and dorsum, whereas hypotrichosis in the limbs and tail were determined in the Hoxc13-/- rabbits. In addition, reduced hair follicles (HFs) while the enlarged and increased number of sebaceous glands (SGs) were also found in the Hoxc13-/- rabbits, showing that the disrupted balance between HFs and SGs may respond to hypotrichosis of ECTD-9 in an animal model and clinically. Therefore, our findings demonstrate that Hoxc13-/- rabbits can be used as a model for human ECTD-9, especially to understand the pathologic mechanism of hypotrichosis. Moreover, the disrupted balance between HFs and SGs, especially in the Hoxc13-/- rabbits, can be used as an ideal animal model for dermatology ailments, such as acne and hypotrichosis, in preclinical studies.-Deng, J., Chen, M., Liu, Z., Song, Y., Sui, T., Lai, L., Li, Z. The disrupted balance between hair follicles and sebaceous glands in Hoxc13-ablated rabbits.

A disease-causing novel missense mutation in the ST14 gene underlies autosomal recessive ichthyosis with hypotrichosis syndrome in a consanguineous family.

Autosomal recessive ichthyosis with hypotrichosis (ARIH; MIM 602400) syndrome is characterized by diffused congenital ichthyosis and generalized non-scarring hypotrichosis. The underlying genetic cause of ARIH syndrome has been associated with sequence variants of the gene ST14, encoding type II transmembrane serine protease matriptase, which maps to chromosome 11q24.3. The current report aimed to investigate the clinical features and genetic cause of ARIH syndrome in a large consanguineous family of Pakistani origin. The technique of homozygosity mapping with highly polymorphic microsatellite markers was employed to establish linkage within the family. Sanger sequencing of exons and intron-exon boundaries of ST14 was performed to identify the potential pathogenic sequence variants, followed by structural analysis of the mutated protein. Linkage was established to chromosome 11q24.3, comprising the gene ST14. Sequence analysis led to the identification of a novel homozygous missense variant (c.1315G>A, p.Gly439Ser) in the ST14 gene that co-segregated with the disease phenotype in all affected members. Homology modelling and molecular docking analysis of ST14 with wild-type TMEFF1 protein was performed which revealed that glycine at position 439 is crucial for maintaining normal structural confirmation and interaction with the EGF domain of TMEFF1 protein. Taken together, the data strongly advocate this ST14 variant as the underlying genetic cause of ARIH syndrome in this first reported affected family from Pakistan. Moreover, the present study adds to the spectrum of mutations in the ST14 gene, implicating them in the pathogenesis of ARIH syndrome.

Congenital Hypotrichosis and Congenital Atrichia.

A wide range of conditions can present with congenital hypotrichoses/atrichia. Awareness of these conditions can help in the proper and timely diagnosis and counseling of affected families, and in some cases avoid unnecessary investigations. The rapid growth in genetic analysis of diseases has also led to an increased knowledge of the genetic and molecular basis of many of these conditions. This contribution briefly reviews updates on some of the most common conditions associated with congenital hypotrichosis/atrichia.

New CDH3 mutation in the first Spanish case of hypotrichosis with juvenile macular dystrophy, a case report.

BACKGROUND: CDH3 on 16q22.1 is responsible for two rare autosomal recessive disorders with hypotrichosis and progressive macular dystrophy: Hypotrichosis with Juvenile Macular Dystrophy and Ectodermal Dysplasia, Ectrodactyly and Macular Dystrophy. We present a new case of Hypotrichosis with Juvenile Macular Dystrophy. CASE PRESENTATION: A Spanish male born in 1998 from non-consanguineous healthy parents with a suspected diagnosis of Keratosis Follicularis Spinulosa Decalvans and Retinitis Pigmentosa Inversa referred to our Genetics Department (IIS-Fundación Jiménez Díaz). Molecular study of ABCA4 was performed, and a heterozygous missense p.Val2050Leu variant in ABCA4 was found. Clinical revision reclassified this patient as Hypotrichosis with Juvenile Macular Dystrophy. Therefore, further CDH3 sequencing was performed showing a novel maternal missense change p.Val205Met (probably pathogenic by in silico analysis), and a previously reported paternal frameshift c.830del;p.Gly277Alafs*20, thus supporting the clinical diagnosis.. CONCLUSIONS: This is not only the first Spanish case with this clinical and molecular diagnosis, but a new mutation has been described in CDH3. Moreover, this work reflects the importance of joint assessment of clinical signs and evaluation of pedigree for a correct genetic study approach and diagnostic.

Hypotrichosis with juvenile macular dystrophy: Portuguese case.

Hypotrichosis with juvenile macular dystrophy is a rare congenital disease mainly found in the Druze population of Northern Israel. This disorder is caused by the CDH3 mutation encoding P-cadherin, which is expressed in retinal pigment epithelium and hair follicles. An 11-year-old girl who was born to related Portuguese parents, had hypotrichosis since birth and macular dystrophy diagnosed at age 5. Fundus examination and fluorescein angiography revealed located macular pigmentary abnormalities. No molecular analysis was done. A fundus examination should be considered mandatory in the assessment of congenital hypotrichosis.