Natural history of Wolcott-Rallison syndrome: A systematic review and follow-up study.

BACKGROUND AND AIMS: To systematically review the literature for reports on Wolcott-Rallison syndrome, focusing on the spectrum and natural history, genotype-phenotype correlations, patient and native liver survival, and long-term outcomes. METHODS: PubMed, Livio, Google Scholar, Scopus and Web of Science databases were searched. Data on genotype, phenotype, therapy, cause of death and follow-up were extracted. Survival and correlation analyses were performed. RESULTS: Sixty-two studies with 159 patients met the inclusion criteria and additional 30 WRS individuals were collected by personal contact. The median age of presentation was 2.5 months (IQR 2) and of death was 36 months (IQR 50.75). The most frequent clinical feature was neonatal diabetes in all patients, followed by liver impairment in 73%, impaired growth in 72%, skeletal abnormalities in 59.8%, the nervous system in 37.6%, the kidney in 35.4%, insufficient haematopoiesis in 34.4%, hypothyroidism in 14.8% and exocrine pancreas insufficiency in 10.6%. Episodes of acute liver failure were frequently reported. Liver transplantation was performed in six, combined liver-pancreas in one and combined liver-pancreas-kidney transplantation in two individuals. Patient survival was significantly better in the transplant cohort (p = .0057). One-, five- and ten-year patient survival rates were 89.4%, 65.5% and 53.1%, respectively. Liver failure was reported as the leading cause of death in 17.9% of cases. Overall survival was better in individuals with missense mutations (p = .013). CONCLUSION: Wolcott-Rallison syndrome has variable clinical courses. Overall survival is better in individuals with missense mutations. Liver- or multi-organ transplantation is a feasible treatment option to improve survival.

Tauopathy-associated PERK alleles are functional hypomorphs that increase neuronal vulnerability to ER stress.

Tauopathies are neurodegenerative diseases characterized by tau protein pathology in the nervous system. EIF2AK3 (eukaryotic translation initiation factor 2 alpha kinase 3), also known as PERK (protein kinase R-like endoplasmic reticulum kinase), was identified by genome-wide association study as a genetic risk factor in several tauopathies. PERK is a key regulator of the Unfolded Protein Response (UPR), an intracellular signal transduction mechanism that protects cells from endoplasmic reticulum (ER) stress. PERK variants had previously been identified in Wolcott-Rallison Syndrome, a rare autosomal recessive metabolic disorder, and these variants completely abrogated the function of PERK's kinase domain or prevented PERK expression. In contrast, the PERK tauopathy risk variants were distinct from the Wolcott-Rallison variants and introduced missense alterations throughout the PERK protein. The function of PERK tauopathy variants and their effects on neurodegeneration are unknown. Here, we discovered that tauopathy-associated PERK alleles showed reduced signaling activity and increased PERK protein turnover compared to protective PERK alleles. We found that iPSC-derived neurons carrying PERK risk alleles were highly vulnerable to ER stress-induced injury with increased tau pathology. We found that chemical inhibition of PERK in human iPSC-derived neurons also increased neuronal cell death in response to ER stress. Our results indicate that tauopathy-associated PERK alleles are functional hypomorphs during the UPR. We propose that reduced PERK function leads to neurodegeneration by increasing neuronal vulnerability to ER stress-associated damage. In this view, therapies to enhance PERK signaling would benefit at-risk carriers of hypomorphic alleles.

A novel splice site indel alteration in the EIF2AK3 gene is responsible for the first cases of Wolcott-Rallison syndrome in Hungary.

BACKGROUND: Wolcott-Rallison Syndrome (WRS) is a rare autosomal recessive disease that is the most common cause of neonatal diabetes in consanguineous families. WRS is caused by various genetic alterations of the Eukaryotic Translation Initiation Factor 2-Alpha Kinase 3 (EIF2AK3) gene. METHODS: Genetic analysis of a consanguineous family where two children were diagnosed with WRS was performed by Sanger sequencing. The altered protein was investigated by in vitro cloning, expression and immunohistochemistry. RESULTS: The first cases in Hungary, - two patients in one family, where the parents were fourth-degree cousins - showed the typical clinical features of WRS: early onset diabetes mellitus with hyperglycemia, growth retardation, infection-induced multiple organ failure. The genetic background of the disease was a novel alteration in the EIF2AK3 gene involving the splice site of exon 11- intron 11-12 boundary: g.53051_53062delinsTG. According to cDNA sequencing this created a new splice site and resulted in a frameshift and the development of an early termination codon at amino acid position 633 (p.Pro627AspfsTer7). Based on in vitro cloning and expression studies, the truncated protein was functionally inactive. Immunohistochemistry revealed that the intact protein was absent in the islets of pancreas, furthermore insulin expressing cells were also dramatically diminished. Elevated GRP78 and reduced CHOP protein expression were observed in the liver. CONCLUSIONS: The novel genetic alteration causing the absence of the EIF2AK3 protein resulted in insufficient handling of severe endoplasmic reticulum stress, leading to liver failure and demise of the patients.

The homozygous variant c.797G>A/p.(Cys266Tyr) in PISD is associated with a Spondyloepimetaphyseal dysplasia with large epiphyses and disturbed mitochondrial function.

Spondyloepimetaphyseal dysplasias (SEMD) are a group of genetically heterogeneous skeletal disorders characterized by abnormal vertebral bodies and epimetaphyseal abnormalities. We investigated two families with a new SEMD type with one proband each. They showed mild facial dysmorphism, flat vertebral bodies (platyspondyly), large epiphyses, metaphyseal dysplasia, and hallux valgus as common clinical features. By trio-exome sequencing, the homozygous missense variant c.797G>A/p.(Cys266Tyr) in PISD was found in both affected individuals. Based on exome data analyses for homozygous regions, the two patients shared a single homozygous block on chromosome 22 including PISD, indicating their remote consanguinity. PISD encodes phosphatidylserine (PS) decarboxylase that is localized in the inner mitochondrial membrane and catalyzes the decarboxylation of PS to phosphatidylethanolamine (PE) in mammalian cells. PE occurs at high abundance in mitochondrial membranes. Patient-derived fibroblasts showed fragmented mitochondrial morphology. Treatment of patient cells with MG-132 or staurosporine to induce activation of the intrinsic apoptosis pathway revealed significantly decreased cell viability with increased caspase-3 and caspase-7 activation. Remarkably, ethanolamine (Etn) supplementation largely restored cell viability and enhanced apoptosis in MG-132-stressed patient cells. Our data demonstrate that the biallelic hypomorphic PISD variant p.(Cys266Tyr) is associated with a novel SEMD form, which may be treatable with Etn administration.

PERK leads a hub dictating pancreatic ß cell homoeostasis.

In humans, the pathogenesis of diabetes is characterised by two major pancreatic ß cell defects: a reduction in ß cell mass and the failure of ß cells to produce enough insulin. Over the past two decades, multiple studies involving cell cultures, animal models and human subjects have established the importance of the protein kinase RNA-like endoplasmic reticulum kinase (PERK) in the adaptive functional capacity of pancreatic ß cells during embryonic development and into adulthood. In this review, we will highlight major findings identifying PERK as a crucial player in ß cell physiology and in diabetes.

EIF2AK3 novel mutation in a child with early-onset diabetes mellitus, a case report.

BACKGROUND: Wolcott-Rallison syndrome (WRS) is caused by a biallelic mutation in the gene encoding eukaryotic translation initiation factor 2-alpha kinase 3 (EIF2AK3) on chromosome 2p11.2. This condition is characterized by permanent early-onset diabetes mellitus, epiphyseal dysplasia, and hepatic dysfunction. We report a patient with WRS born to a consanguineous marriage due to a novel biallelic frameshift mutation in the EIF2AK3 gene. CASE PRESENTATION: Our patient was a 2-year-and-6-month-old Yemeni girl born to consanguineous parents who was diagnosed with neonatal diabetes at 20 days of age. She presented with chronic diarrhea and liver dysfunction. The child was normocephalic and exhibited failure to thrive and hepatomegaly with no skeletal deformities. Further investigations revealed microcytic anemia, liver impairment and primary hypothyroidism. Genetic testing confirmed the diagnosis of WRS via identification of a novel biallelic frameshift mutation in the EIF2AK3 gene. During her hospital stay, she went into septic shock and developed multi-organ failure, including fulminant hepatic failure. She unfortunately died within 2 weeks of her hospital stay. CONCLUSIONS: Wolcott-Rallison syndrome is recognized as the most common cause of early-onset diabetes in infants born to consanguineous marriages. Screening for genetic mutations in EIF2AK3 is recommended for establishing early diagnosis, providing genetic counselling, and predicting the development of additional clinical features, most importantly hepatic failure. Hence, this screening is important for guiding optimal management and improving patient outcome.

Analysis of Causes for Congenital Ulnar Deviated Thumbs at the Distal Phalanx Level in 157 Thumbs.

PURPOSE: To investigate anatomic abnormalities causing a congenital ulnarly deviated thumb at the distal phalanx. METHODS: A total of 122 children with 157 congenital ulnarly deviated thumbs at the distal phalanges were reviewed, including those with isolated deformity or polydactyly. We analyzed the incidence and characteristics of the underlying anatomic abnormalities as well as the differential diagnoses. RESULTS: Three main causes of an ulnarly deviated thumb were observed. Abnormal hypertrophic epiphyses were found in 96 thumbs. An extra phalanx lying between the normal proximal and distal phalanges was found in 59 thumbs. A previously undescribed cause was found in 2 thumbs with Wassell IV polydactyly, in which an obliquely angled articular surface of the proximal phalanx manifested with ulnar deviation at the interphalangeal joint. Radiographic analysis showed that in cases with abnormal epiphyses, the epiphysis was in good apposition and good alignment with its relevant distal phalanx; the distance from the abnormal epiphysis to the phalanx was usually less than 1 mm. In contrast, in cases of extra phalanges, the distance from the epiphysis to the phalanx averaged more than 2 mm and there was poor apposition between the distal phalanx and the extra bone. CONCLUSIONS: Abnormal hypertrophic epiphysis and triphalangeal thumb are the 2 main causes of a congenital ulnarly deviated thumb. A distance of more than 2 mm between the abnormal bone and the distal phalanx suggests a triphalangeal thumb. TYPE OF STUDY/LEVEL OF EVIDENCE: Therapeutic IV.

[A case report of EIF2AK3-related Wolcott-Rallison syndrome and literature review].

The patient was a female infant aged 1 month and 29 days. She was admitted to the hospital due to convulsions for 6 days and increased blood glucose level for 5 days. She had unstable blood glucose levels. The level of glycosylated hemoglobin was too high to measure. Urine glucose was positive (+ - ++++). The levels of fasting C-peptide and insulin were 0.19 ng/mL and 11.68 µIU/mL respectively. High-throughput sequencing of the genetic endocrine disease gene Panel (412 detected genes, including 49 known diabetes-related genes) showed that the EIF2AK3 gene in the infant had two novel compound heterozygous mutations, c.2731_2732delAG and c.2980G>A, both of which were located in the kinase domain. The infant was diagnosed with Wolcott-Rallison syndrome (WRS). As a rare autosomal recessive disease, WRS is characterized by neonatal diabetes, multiple epiphyseal dysphasia and liver disease. Neonatal diabetes is a prerequisite for the diagnosis of WRS. The EIF2AK3 gene is the pathogenic gene of WRS.

World's smallest combined en bloc liver-pancreas transplantation.

We present a case of a 2-year-old child who underwent a combined en bloc liver and pancreas transplant following complications of WRS. WRS is characterized clinically through infantile insulin-dependent diabetes mellitus, neutropenia, recurrent infections, propensity for liver failure following viral infections, bone dysplasia, and developmental delay. Usually, death occurs from fulminant liver and concomitant kidney failure. Few cases with WRS are reported in the literature, mostly from consanguineous parents. To the best of our knowledge, combined en bloc liver and pancreas transplant has not been performed in small children.

Wolcott-Rallison Syndrome With Different Clinical Presentations and Genetic Patterns in 2 Infants.

Wolcott-Rallison syndrome is a rare disease presenting with insulin-dependent diabetes mellitus (DM) before 6 months old, skeletal dysplasia after 6 months old, and liver failure. Other manifestations are renal failure, microcephaly, epilepsy, central hypothyroidism, neutropenia, and dental and dermal problems. The cases were 2 patients from 2 different states of Iran (Khoozestan and Fars) who had developed DM before 6 months old. The first one was a 7-month-old infant who was healthy; in the genetic study (screening), autosomal recessive pattern and novel deletion in EIF2AK3 were reported; her sister had died at 5.5 years old due to diabetic ketoacidosis (DKA) that was associated with liver and renal failure. The second patient had developed DKA at 45 days old, which was associated with mild acute tubular necrosis and abnormal coagulation tests at onset clinical presentation, which were then resolved. He was treated with insulin, and at follow-up, the laboratory data are normal; in the genetic study, EIF2AK3 nonsense homozygous mutation was diagnosed. Genetic study of patients with insulin-dependent DM before 6 months old, especially those with DKA and associated with or without other disorders; attention to novel deletion of in EIF2AK3 gene; screening for skeletal dysplasia after 1 year old; and renal, liver, pancreatic, and thyroid function tests are recommended.

Recent advances in liver transplantation for metabolic disease.

The indications and outcomes of liver transplantation for metabolic disease have been reviewed recently and this short review concentrates on recent developments and advances. Recently recognized metabolic causes of acute liver failure are reviewed and their implications for transplantation discussed. Newly described indications for liver transplantation in systemic metabolic diseases are described and an update is given on the role of auxiliary and domino liver transplantation.

Relative hypoaldosteronism in a patient with Wolcott-Rallison syndrome.

BACKGROUND: Wolcott-Rallison syndrome is an autosomal recessive, multisystem disorder with onset of diabetes in the neonatal period or early infancy. CASE REPORT: A 9-year-old girl with diabetes and growth failure from 2 months of age presented with ketoacidosis and multiple organ failure. Evaluation for short stature revealed epiphyseal dysplasia. A homozygous mutation in the EIF2AK3 gene confirmed the clinical diagnosis of Wolcott-Rallison syndrome. She was euthyroid. Biochemical evaluation for potential adrenal dysfunction because of persistently elevated serum potassium (range 5.9-6.3 meq/l) and low serum sodium levels (range 128-130 meq/l) 2 weeks after resolution of ketoacidosis yielded normal findings with respect to basal corticotropin (31 pg/ml) and cortisol (18.7 µg/dl) levels. Estimated GFR-Schwartz (36.9 ml/min/1.73 m(2) ) was consistent with stage 3 chronic renal failure. The transtubular potassium gradient was 1.39 (normal value in hyperkalemic states: > 4.1). The plasma aldosterone (upright: 241.3 pmol/l) was within normal ranges, and plasma renin [39 pg/ml (range 5.41-34.53 pg/ml)] was slightly elevated. The patient was diagnosed as having relative hypoaldosteronism and was started on a sodium-rich diet and low potassium. Failure to respond to the dietary intervention prompted a trial of oral fludrocortisone with subsequent normalization of electrolyte levels. CONCLUSIONS: This is the first case report of Wolcott-Rallison syndrome complicated with relative hypoaldosteronism. Further research is needed to probe the causal inference of relative hypoaldosteronism with chronic renal failure in patients with Wolcott-Rallison syndrome.

THE 3rd W522X MUTATION IN EIF2AK3 GENE FROM TURKEY: A NEW PATIENT WITH WOLCOTT-RALLISON SYNDROME.

Wolcott-Rallison Syndrome (WRS), also known as Multiple Epiphyseal Dysplasia with Early-onset Diabetes Mellitus is a rare autosomal recessive multisystemic disorder. Its characteristic clinical features are permanent neonatal or early infancy insulin-dependent diabetes and later onset skeletal dysplasia. Other frequent clinical manifestations are hepatic and renal dysfunction, mental retardation, cardiac abnormalities, exocrine pancreatic dysfunction, primary hypothyroidism and neutropenia. This report presents an 8-year-old WRS case who is found to have W522X mutation in EIF2AK3 gene which was only found in two other unrelated Turkish families. W522X mutation in EIF2AK3 gene seems to be confined to Turkey and may be a common mutation in WRS patients from this country. In this paper, we evaluate the clinical features of the patients having W522X mutation and we compare this group with other patients reported to date. Except the characteristic features as diabetes mellitus and epiphyseal dysplasia, all the WRS patients, including patients with W522X mutation, show extensive phenotypic variability that correlates poorly to genotype which suggests that there is no correlation between a specific mutation and the clinical manifestation.

Liver, pancreas and kidney transplantation for the treatment of Wolcott-Rallison syndrome.

We present the case of a child who underwent a combined liver, pancreas and double kidney transplant following complications of Wolcott-Rallison syndrome (WRS) a rare genetic disorder that causes infantile insulin-dependent diabetes mellitus (IDDM) and often death in childhood from fulminant liver and concomitant kidney failure. WRS is characterized clinically through infantile IDDM, propensity for liver failure following viral infections, bone dysplasia and growth failure and developmental delay. Fewer than 60 cases with WRS are reported in the literature, mostly from consanguineous parents. Future episodes of liver failure, the main contributor to the increased mortality in WRS, may be prevented through timely liver transplantation. To the best of our knowledge, transplantation has not been utilized to manage complications of WRS prior to this report.

Microscopic and ultrastructural features in Wolcott-Rallison syndrome, a permanent neonatal diabetes mellitus: about two autopsy cases.

BACKGROUND: Wolcott-Rallison syndrome (WRS) is a rare autosomal recessive disorder characterized by the association of permanent neonatal or early-infancy insulin-dependent diabetes, multiple bone dysplasia, hepatic dysfunction, and growth retardation. All clinical manifestations result from gene mutations encoding pancreatic endoplasmic reticulum eIF2 α kinase (PERK), an endoplasmic reticulum transmembrane protein that plays a role in the unfolded protein response. Histological and ultrastructural lesions of bone and pancreas have been described in animal models and WRS patients. However, histological and ultrastructural findings of other organs, especially of the liver, are lacking. METHODS: Autopsy specimens from two pediatric patients with WRS were analyzed. An immunohistochemical study was performed on the pancreas. An ultrastructural study was realized from samples of liver, pancreas, kidney, and myocardium. Our findings were compared with those of the literature and correlated with the molecular data. RESULTS: Hepatocytes and pancreatic exocrine cells exhibited very peculiar features of necrosis suggestive of secondary changes because of endoplasmic reticulum overload. Steatosis occurred in renal tubular cells, hepatocytes, and myocardial fibers. Abnormal mitochondria were noted in renal and myocardial fibers. Pancreas islets were characterized by a marked reduction in the number of insulin-secreting ß cells. CONCLUSIONS: The histological and ultrastructural features that occur in WRS are directly or indirectly linked to endoplasmic reticulum (ER) dysfunction and can explain the peculiar phenotype of this syndrome.

Treatment of Longitudinal Epiphyseal Bracket by Excision and Polymethylmethacrylate Insertion at the Preossified Disease Stage.

Longitudinal epiphyseal bracket is a rare ossification anomaly involving the tubular bones of the hand or foot that have a proximal epiphysis, which becomes deformed as a result of the bracket. Untreated, the deformity becomes worse with age, because longitudinal growth cannot occur. The present report discusses the use of polymethylmethacrylate at the preossified disease stage in 2 patients with first metatarsal involvement. A medical record and radiographic review was performed for 2 children (3 feet), aged 1 year and 2 years and 5 months, who were treated with insertion of polymethylmethacrylate after excision of the aberrant epiphyseal bracket. Two different radiographic parameters (i.e., the intraosseous angulation and the metadiaphyseal length index) were used to measure the effect of treatment on the subsequent longitudinal growth of the metatarsals. An excellent clinical result after a long follow-up period was observed in 2 feet, and a good result was documented in 1 foot, which developed hallux valgus angulation. The use of polymethylmethacrylate as an interposition material after excision of the aberrant metatarsal epiphyseal bracket appeared to be an effective method of treatment during the preossified first stage of the disease, despite the general recommendation to use a cement spacer during the third ossified stage. Normal longitudinal growth of the metatarsals was noted without complications or risk of deformity recurrence.

Acroscyphodysplasia as a phenotypic variation of pseudohypoparathyroidism and acrodysostosis type 2.

Acroscyphodysplasia (OMIM250215) is a distinctive form of metaphyseal dysplasia characterized by the distal femoral and proximal tibial epiphyses embedded in cup-shaped, large metaphyses known as metaphyseal scypho ("scypho" = cup) deformity. It is also associated with severe growth retardation and brachydactyly. The underlying molecular mechanism of acroscyphodysplasia has not yet been elucidated, although scypho-deformity of the knee has been reported in three patients with acrodysostosis due to a mutation in the PDE4D gene. We report on the clinical, radiological, and molecular findings of five female patients with acroscyphodysplasia; two were diagnosed as pseudohypoparathyroidism (PHP) or Albright hereditary osteodystropy, and the other three as acrodysostosis. They all had radiological findings consistent with severe metaphyseal scypho-deformity and brachydactyly. Heterozygous mutations were identified in the PHP patients consisting of one novel (p.Q19X) and one recurrent (p.R231C) mutation of the GNAS gene, as well as, in the acrodysostosis patients consisting of two novel mutations (p.T224I and p.I333T) of the PDE4D gene. We conclude that metaphyseal acroscyphodysplasia is a phenotypic variation of PHP or acrodysostosis caused by either a GNAS or PDE4D mutation, respectively.

EIF2AK3 mutations in South Indian children with permanent neonatal diabetes mellitus associated with Wolcott-Rallison syndrome.

OBJECTIVE: This study describes the clinical and genetic evaluation of permanent neonatal diabetes due to Wolcott-Rallison syndrome (WRS) in south Indian consanguineous families. We aimed to evaluate the genetic basis of the disease in eight children with WRS from five South Indian families. PATIENTS AND METHODS: We studied eight children who presented with permanent neonatal diabetes from five South Indian families. Follow up clinical evaluation revealed features (like liver disease, skeletal dysplasia, and thyroid dysfunction) suggestive of WRS. All the coding exons along with splice sites of KCNJ11, ABCC8, INS, GCK and EIF2AK3 genes were sequenced in all the probands. RESULTS: Two novel homozygous mutations (Trp658Ser, c.3150+1G>T) and one known homozygous mutation (Arg1065*, c.3193C>T) in EIF2AK3 gene were identified in children with WRS. Mutation Arg1065*was identified in four children. CONCLUSIONS: Our results in these families show that the mutations in homozygous state are likely to be causative. We suggest the screening for EIF2AK3 gene mutations as WRS is now recognized as the most frequent cause of neonatal diabetes in children with consanguineous parents. As the mode of inheritance is recessive, screening for genetic mutations becomes important to aid in risk prediction and clinical management.

Primary hypothyroidism and nipple hypoplasia in a girl with Wolcott-Rallison syndrome.

UNLABELLED: Wolcott-Rallison syndrome (WRS), caused by mutation in the EIF2AK3 gene encoding the PERK enzyme, is the most common cause of permanent neonatal diabetes mellitus (PNDM) in consanguineous families and isolated populations. Besides PNDM, it also includes skeletal abnormalities, liver and renal dysfunction, and other inconsistently present features. We present two siblings, who are WRS patients, and are Albanians from Kosovo born to unrelated parents. The older sister presented with PNDM, exocrine pancreatic insufficiency, short stature, microcephaly, normocytic anemia, delay in speech development, skeletal abnormalities, primary hypothyroidism, and hypoplastic nipples. Sequencing of the EIF2AK3 gene identified a homozygous mutation R902X in exon 13. The younger brother was diagnosed with PNDM and died from hepatic failure suggesting that he has been suffering from WRS as well. Including one previously reported patient from Kosovo carrying the same homozygous mutation, there are three WRS patients from this very small, ethnically homogenous region suggesting founder effect in this population. CONCLUSION: We postulate that thyroid hypoplasia with primary subclinical hypothyroidism already reported in two WRS patients and nipple hypoplasia could also be the phenotypic reflection of the mutation of pleiotropic EIF2AK3 gene in secretory cells.

Primary hypothyroidism: an unusual manifestation of Wolcott-Rallison syndrome.

Wolcott-Rallison syndrome has been reported to be associated with early-onset diabetes, epiphyseal dysplasia, hepatic and renal dysfunction, mental retardation, severe growth retardation, neutropenia, exocrine pancreatic dysfunction, and central hypothyroidism. We report on primary hypothyroidism, which has not been previously described, of a patient with Wolcott-Rallison syndrome due to novel mutation (W521X), who showed improved growth after thyroid hormone treatment.