Novel Mutations in CRLF1: Case Reports with Crisponi Syndrome.

Crisponi syndrome (CS) is a rare autosomal recessive syndrome, characterized by episodic facial muscle contraction with trismus, abundant salivation along with intermittent hyperthermia, feeding difficulties, characteristic facial dysmorphism, and camptodactyly. Here the authors report two South Indian neonates with confirmed diagnosis of Crisponi syndrome, caused by novel pathogenic variants in cytokine receptor-like factor 1 (CRLF1) gene. The classical clinical findings observed in the present cases were feeding difficulty, facial dysmorphism, tachypnea, contractures, camptodactyly, opisthotonus, hyperthermia, poor growth, and facial muscle contraction resembling probable tetanus. The patients with variants identified in the signal peptide domain had typical spasms from day one of life as compared to the variants in other domains who had later onset at neonatal period. The authors provide a review of the cases described, so far, from India highlighting that no common variants attribute to this rare syndrome. Recognizing this syndrome is crucial to differentiate it from infective conditions and for effective genetic counseling. Though tetanus is almost eradicated in developing countries, genetic causes should be suspected in new cases.

CRLF1 and CLCF1 in Development, Health and Disease.

Cytokines and their receptors have a vital function in regulating various processes such as immune function, inflammation, haematopoiesis, cell growth and differentiation. The interaction between a cytokine and its specific receptor triggers intracellular signalling cascades that lead to altered gene expression in the target cell and consequent changes in its proliferation, differentiation, or activation. In this review, we highlight the role of the soluble type I cytokine receptor CRLF1 (cytokine receptor-like factor-1) and the Interleukin (IL)-6 cytokine CLCF1 (cardiotrophin-like cytokine factor 1) during development in physiological and pathological conditions with particular emphasis on Crisponi/cold-induced sweating syndrome (CS/CISS) and discuss new insights, challenges and possibilities arising from recent studies.

Three new cases of Crisponi /cold induced sweating syndrome (CS/CISS1) in Turkish families.

Crisponi syndrome/Cold Induced Sweating Syndrome 1 (CS/CISS1) is a rare, autosomal recessive, multisystemic disease. Hyperthermia attacks, abnormal contractions in the muscles of the face and oropharynx, respiratory distress, camptodactyly, and swallowing difficulty are the main features of the condition in the neonatal period. Patients experience cold-induced sweating attacks and progressive kyphoscoliosis in childhood and adolescence. Mutations in the cytokine receptor like factor 1 (CRLF1) gene causes the CISS1 (Cold- induced sweating syndrome type 1) disease (over 95% of patients). CRLF1 is located in the ciliary neurotrophic factor receptor (CNTFR) pathway, which plays an important role in development and maintenance of neurons in the nervous system. In this study three patients from Turkey, clinically and molecularly diagnosed with CS/CISS1, are presented. Hyperthermia, swallowing difficulty, camptodactyly and pursing of the lips were present in all patients, and foot deformity in one patient. In the first patient a homozygous nonsense mutation NM_004750.5: c.531G > A; p.(Trp177Ter) in the 4th exon was detected. In the second patient a homozygous nonsense mutation NM_004750.5: c.776C > A; p.(Ser259Ter) in the 5th exon was detected. The third patient was homozygous for a missense mutation NM_004750.5: c.935G > T; p.(Arg312Leu) in the 6th exon. Early diagnosis is very important in this syndrome since most patients die in the neonatal period. Therefore, physicians should be suspicious for this disease in patients with dysmorphic features, hyperthermia attacks, camptodactyly, pursing of lips while crying, and swallowing difficulty.

Exome sequencing in Crisponi/cold-induced sweating syndrome-like individuals reveals unpredicted alternative diagnoses.

Crisponi/cold-induced sweating syndrome (CS/CISS) is a rare autosomal recessive disorder characterized by a complex phenotype (hyperthermia and feeding difficulties in the neonatal period, followed by scoliosis and paradoxical sweating induced by cold since early childhood) and a high neonatal lethality. CS/CISS is a genetically heterogeneous disorder caused by mutations in CRLF1 (CS/CISS1), CLCF1 (CS/CISS2) and KLHL7 (CS/CISS-like). Here, a whole exome sequencing approach in individuals with CS/CISS-like phenotype with unknown molecular defect revealed unpredicted alternative diagnoses. This approach identified putative pathogenic variations in NALCN, MAGEL2 and SCN2A. They were already found implicated in the pathogenesis of other syndromes, respectively the congenital contractures of the limbs and face, hypotonia, and developmental delay syndrome, the Schaaf-Yang syndrome, and the early infantile epileptic encephalopathy-11 syndrome. These results suggest a high neonatal phenotypic overlap among these disorders and will be very helpful for clinicians. Genetic analysis of these genes should be considered for those cases with a suspected CS/CISS during neonatal period who were tested as mutation negative in the known CS/CISS genes, because an expedited and corrected diagnosis can improve patient management and can provide a specific clinical follow-up.

Bi-allelic c.181_183delTGT in BTB domain of KLHL7 is associated with overlapping phenotypes of Crisponi/CISS1-like and Bohring-Opitz like syndrome.

Biallelic pathogenic variants in KLHL7 are known to result in Crisponi syndrome (CS)/cold-induced sweating syndrome type 1 (CISS1) like phenotype and Bohring-Opitz-like syndrome. In this report, a trio whole-exome sequencing (WES) was performed in proband with cold-induced sweating, microcephaly, facial dysmorphism, spasticity, failure to thrive, pigmentary abnormalities of the retina, hypoplasia of corpus callosum and periventricular nodular heterotopia. A novel homozygous in-frame deletion was identified in exon 2 of KLHL7, affecting the BTB domain of the protein. Our findings expand the clinical and molecular spectrum of KLHL7-related disorders.

Caution in interpretation of disease causality for heterozygous loss-of-function variants in the MYH8 gene associated with autosomal dominant disorder.

To date, the NM_002472.2(MYH8):c.2021G>A (p.Arg674Gln) missense variant in the MYH8 gene is the only known genetic change in individuals with autosomal dominant trismus-pseudocamptodactyly syndrome with unknown molecular mechanism. Next-generation sequencing (NGS), including targeted gene panels and whole-exome sequencing, is routinely performed in many clinical diagnostic laboratories as standard-of-care testing aimed at identifying disease-causing genomic variants. Whole-exome sequencing has revealed loss-of-function variants in the MYH8 gene. To properly classify the MYH8 loss-of-function variants, we either retrieved them from public databases or retrospectively collected them from individuals genetically tested by custom NGS panels or by whole-exome sequencing and confirmed using Sanger sequencing. We further evaluated the respective clinical presentations of these individuals with the MYH8 loss-of-function variants. Heterozygous loss-of-function variants in the MYH8 gene were detected in 16 individuals without trismus-pseudocamptodactyly syndrome. Four of these 16 individuals had a pathogenic or likely pathogenic variant detected in another gene that could explain their clinical presentation. Moreover, there are ∼100 MYH8 heterozygous protein-truncating and splice site variants in the ExAC database in different populations. Our results, combined with the population data, indicate that loss-of-function variants in the MYH8 gene do not cause autosomal dominant trismus-pseudocamptodactyly syndrome, and the clinical significance of these variants remains unknown at present. This result highlights the importance of considering the molecular mechanism of disease, variants published in the medical literature, and population genomic data for the correct interpretation of loss-of-function variants in genes associated with autosomal dominant diseases.

Corneal alterations in Crisponi/CISS1 syndrome: A slit-lamp biomicroscopy and in vivo confocal microscopy corneal report.

BACKGROUND: Mutations in the cytokine receptor-like factor 1 (CRLF1) gene are responsible for Crisponi/Cold-induced Sweat Syndrome, an extremely rare autosomal-recessive multisystem disorder. The protein encoded is a soluble cytokine receptor, involved in the ciliary neurotrophic factor receptor (CNTFR) pathway. The ciliary neurotrophic factor (CNTF) promotes corneal wound healing and patients with Crisponi/CISS1 syndrome suffer from recurrent keratitis. The aim of the study was to report and discuss the corneal alterations in Crisponi/CISS1 rare disease. MATERIALS AND METHODS: We evaluated the cornea of both eyes in four Crisponi/CISS1 patients to provide a detailed description of slit-lamp biomicroscopy findings. Corneal sensitivity, tears functionality and blinking video recording at rest were also assessed in all patients. Two patients were also evaluated with in vivo confocal microscopy, completed with a needle electromyography of their orbicularis muscles. RESULTS: None of the patients presented a tears dysfunction and video recording documented a prolonged lid excursion in all patients. Slit lamp examination revealed a chronic epithelial impairment in all cases. Needle electromyography of the orbicularis oculi showed a dystonic pattern. The confocal microscopy confirmed the biomicroscopic observed lesions and documented unusual findings of the corneal nerve plexus. CONCLUSIONS: This is the first report of microscopic cornea alterations explored with confocal imaging in Crisponi/CISS1 patients. The observed corneal findings suggest a possible direct correlation to the CNTFR pathway defect and the blinking imbalance could exacerbate the compromised epithelial wound healing. Topical administrations of lubricating eye drops are strongly recommended in these patients.

Mutations in CRLF1 cause familial achalasia.

We here report a family from Libya with three siblings suffering from early onset achalasia born to healthy parents. We analyzed roughly 5000 disease-associated genes by a next-generation sequencing (NGS) approach. In the analyzed sibling we identified two heterozygous variants in CRLF1 (cytokine receptor-like factor 1). Mutations in CRLF1 have been associated with autosomal recessive Crisponi or cold-induced sweating syndrome type 1 (CS/CISS1), which among other symptoms also manifests with early onset feeding difficulties. Segregation analysis revealed compound heterozygosity for all affected siblings, while the unaffected mother carried the c.713dupC (p.Pro239Alafs*91) and the unaffected father carried the c.178T>A (p.Cys60Ser) variant. The c.713dupC variant has already been reported in affected CS/CISS1 patients, the pathogenicity of the c.178T>A variant was unclear. As reported previously for pathogenic CRLF1 variants, cytokine receptor-like factor 1 protein secretion from cells transfected with the c.178T>A variant was severely impaired. From these results we conclude that one should consider a CRLF1-related disorder in early onset achalasia even if other CS/CISS1 related symptoms are missing.

A new case series of Crisponi syndrome in a Turkish family and review of the literature.

Crisponi syndrome/cold-induced sweating syndrome (CS/CISS) is a rare autosomal recessive disorder with a complex phenotype, reported in the neonatal period for CS and in the evolutive one for CISS. The syndrome usually manifests at birth. The aim of this study was to report on three new patients with CS and review the Turkish patients. We report here on three patients from two related families harboring a homozygous mutation in the cytokine receptor-like factor-1 (CRLF1) gene. DNA samples of the three patients and their parents were subjected to a mutational analysis of the CRLF1 gene at the Institute of Biomedical and Genetic Research - National Research Council, Cagliari (Italy). Direct sequencing of the nine coding exons and surrounding intronic regions of CRLF1 was performed using specific primers. All three patients were found to be homozygotes for the mutation c.708_709delinsT, which leads to a frameshift in the second fibronectin type III domain (p.Pro238Argfs*6). CS should be considered in the differential diagnosis of newborns with muscle contractions, feeding and swallowing difficulties, dysmorphic facial findings, camptodactyly, and hypertermia. Neonatologists must be aware of this syndrome that, although very rare worldwide, has a higher prevalence in Turkey.

First case of bilateral coronoid hyperplasia in monozygotic twin sisters-a new aetiological perspective?

BACKGROUND: Mandibular coronoid hyperplasia is a rare condition associated with gradual reduction in mouth opening. Its aetiology is unknown but increased temporalis activity, endocrine stimulus, trauma and familial causes have been proposed. CASE REPORT: In this article, we present a case of bilateral coronoid hyperplasia presenting with limited mouth opening in 16-year-old Caucasian twin sisters. DISCUSSION: This report gives a new perspective to the aetiology of coronoid hyperplasia since it describes its occurrence in monozygotic twins and hence provides a strong argument in support of a genetic aetiology.

Bi-allelic Mutations in KLHL7 Cause a Crisponi/CISS1-like Phenotype Associated with Early-Onset Retinitis Pigmentosa.

Crisponi syndrome (CS)/cold-induced sweating syndrome type 1 (CISS1) is a very rare autosomal-recessive disorder characterized by a complex phenotype with high neonatal lethality, associated with the following main clinical features: hyperthermia and feeding difficulties in the neonatal period, scoliosis, and paradoxical sweating induced by cold since early childhood. CS/CISS1 can be caused by mutations in cytokine receptor-like factor 1 (CRLF1). However, the physiopathological role of CRLF1 is still poorly understood. A subset of CS/CISS1 cases remain yet genetically unexplained after CRLF1 sequencing. In five of them, exome sequencing and targeted Sanger sequencing identified four homozygous disease-causing mutations in kelch-like family member 7 (KLHL7), affecting the Kelch domains of the protein. KLHL7 encodes a BTB-Kelch-related protein involved in the ubiquitination of target proteins for proteasome-mediated degradation. Mono-allelic substitutions in other domains of KLHL7 have been reported in three families affected by a late-onset form of autosomal-dominant retinitis pigmentosa. Retinitis pigmentosa was also present in two surviving children reported here carrying bi-allelic KLHL7 mutations. KLHL7 mutations are thus associated with a more severe phenotype in recessive than in dominant cases. Although these data further support the pathogenic role of KLHL7 mutations in a CS/CISS1-like phenotype, they do not explain all their clinical manifestations and highlight the high phenotypic heterogeneity associated with mutations in KLHL7.

Crisponi/CISS1 syndrome: A case series.

Crisponi/CISS1 syndrome (MIM#272430) is a rare autosomal recessive disease characterized by major feeding difficulties, camptodactyly, and anhidrosis in early childhood; and the subsequent development of paradoxical cold-induced sweating and scoliosis later in life. The syndrome is caused by biallelic mutations in CRLF1 or, much less commonly, CLCF1. Although genotype/phenotype correlation has been elusive, it has been suggested that the level of the mutant protein may correlate with the phenotypic severity. However, we show in this series of 12 patients from four families, all previously unpublished, that the homogeneity of the recently described c.983dupG (p.Ser328Argfs∗2) mutation in CRLF1 was associated with a highly variable degree of severity, and that the phenotype significantly overlaps with the recently described COG6-related anhidrosis syndrome (MIM#615328). Another fifth previously unpublished family is also described with a novel mutation in CRLF1, c.605delC (p.Ala202Valfs*32). In Saudi Arabia the prevalence of the syndrome is probably underestimated due to the difficulty in making the diagnosis considering the complex phenotype with typical neonatal and evolutive features.

Cardiotrophin-like cytokine factor 1 (CLCF1) and neuropoietin (NP) signalling and their roles in development, adulthood, cancer and degenerative disorders.

Mutations in cardiotrophin-like cytokine factor (CLCF1) and the related cytokine to which it binds, cytokine receptor-like factor 1 (CRLF1), are associated with Crisponi/cold induced sweating syndromes, and lead to early neonatal death in mice due to a suckling defect. These cytokines are members of the IL-6 superfamily, and form a range of composite cytokines that signal through gp130 bound either to the ciliary neurotrophic factor receptor (CNTFR) or a complex that involves the IL-27 p28 subunit. This review describes current knowledge of the signalling complexes formed by these cytokines, and explores their described and suggested roles in the neural, haematopoietic, skeletal, renal, immune and respiratory systems during development and adulthood, and in degenerative diseases and cancer.

A new Turkish infant with clinical features of CS/CISS1 syndrome and homozygous CRLF1 mutation.

Cold-induced sweating syndrome (CISS) is a rare autosomal recessive disorder characterized by profuse sweating at cold environmental temperatures, facial dysmorphism and skeletal features. The infantile presentation of CISS, referred to as Crisponi syndrome (CS), is characterized by facial muscular contractures in response to slight tactile stimuli or during crying, by life-threatening feeding difficulties caused by suck and swallow inabilities, and by intermittent hyperthermia. High febrile crises can lead to death within the first months of life. In preadolescence, surviving patients develop kyphoscoliosis and abnormal sweating. CISS is a genetically heterogeneous disorder caused by mutations in CRLF1 in more than 90 percent of patients (CISS1) and by mutations in CLCF1 in the remaining patients (CISS2). It is now well demonstrated that all patients with an infantile-onset CS will develop CISS, confirming that CS and CISS are not "allelic disorders" but the same clinical entity described at different ages of affected patients. Here we report on a Turkish patient with a phenotype consistent with CS/CISS1 and a nonsense homozygous mutation (c.829C>T, p.R277X) in the CRLF1 gene. This mutation has already been reported in another Turkish patient with CS/CISS1.

Expanding the mutational spectrum of CRLF1 in Crisponi/CISS1 syndrome.

Crisponi syndrome (CS) and cold-induced sweating syndrome type 1 (CISS1) share clinical characteristics, such as dysmorphic features, muscle contractions, scoliosis, and cold-induced sweating, with CS patients showing a severe clinical course in infancy involving hyperthermia associated with death in most cases in the first years of life. To date, 24 distinct CRLF1 mutations have been found either in homozygosity or in compound heterozygosity in CS/CISS1 patients, with the highest prevalence in Sardinia, Turkey, and Spain. By reporting 11 novel CRLF1 mutations, here we expand the mutational spectrum of CRLF1 in the CS/CISS1 syndrome to a total of 35 variants and present an overview of the different molecular and clinical features of all of them. To catalog all the 35 mutations, we created a CRLF1 mutations database, based on the Leiden Open (source) Variation Database (LOVD) system (https://grenada.lumc.nl/LOVD2/mendelian_genes/variants). Overall, the available functional and clinical data support the fact that both syndromes actually represent manifestations of the same autosomal-recessive disorder caused by mutations in the CRLF1 gene. Therefore, we propose to rename the two overlapping entities with the broader term of Crisponi/CISS1 syndrome.

Crisponi syndrome: a new mutation in CRLF1 gene associated with moderate outcome.

SUMMARY: Crisponi syndrome (CS) is a rare, autosomal recessive disorder, characterized by hyperthermia, extensive muscular contractions in the face after even minimal stimuli or crying, hypertonia, opisthotonus, camptodactyly, and typical facial features. Recently, it has been demonstrated that CRLF1 (cytokine receptor-like factor 1) gene mutation is associated with CS. Here we report a case of CS with a new mutation in the CRLF1 gene associated with moderate clinical phenotype.

Cold-induced sweating syndrome type 1, with a CRLF1 level mutation, previously associated with Crisponi syndrome.

INTRODUCTION: Cold-induced sweating syndrome type 1 (CISS1) is a rare autosomal recessive genodermatosis caused by mutations in the CRLF1 gene, characterized by profuse sweating when the ambient temperature is below 22°C and morphological alterations. CRLF1 mutations also cause Crisponi syndrome (CS), which presents neonatal muscle contractions, morphological disorders and alterations in the autonomous nervous system. CASE REPORT: A 30-year-old man sought treatment for profuse sweating. His medical record included neonatal admission for generalized hypertonicity. Clinical examination revealed morphological alterations. A genetic study was requested, detecting a c.713dupC mutation in homozygosity in the CRLF1 gene. CONCLUSIONS: We report the case of a male with clinical and genetic diagnosis of CISS1 who in childhood presented clinical characteristics of CS. The mutation detected in CRLF1 has not been described in patients with CISS1, but in one with CS. These data seem to support the theory that CS and CISS1 are variants of the same disorder.