Identification of a novel splice variant in SEC23B gene in a patient with concomitant presence of congenital dyserythropoietic anemia II and Gilbert's syndrome.

BACKGROUND: Congenital dyserythropoietic anemia Ⅱ (CDA Ⅱ) is a rare inherited disorder of defective erythropoiesis caused by SEC23B gene mutation. CDA Ⅱ is often misdiagnosed as a more common type of clinically related anemia, or it remains undiagnosed due to phenotypic variability caused by the coexistence of inherited liver diseases, including Gilbert's syndrome (GS) and hereditary hemochromatosis. METHODS: We describe the case of a boy with genetically undetermined severe hemolytic anemia, hepatosplenomegaly, and gallstones whose diagnosis was achieved by targeted next generation sequencing. RESULTS: Molecular analysis revealed a maternally inherited novel intronic variant and a paternally inherited missense variant, c.[994-3C > T];[1831C > T] in the SEC23B gene, confirming diagnosis of CDA Ⅱ. cDNA analysis verified that the splice acceptor site variant results in two mutant transcripts, one with an exon 9 skip and one in which exons 9 and 10 are deleted. SEC23B mRNA levels in the patient were lower than those in healthy controls. The patient was also homozygous for the UGT1A1*6 allele, consistent with GS. CONCLUSION: Identification of the novel splice variant in this study further expands the spectrum of known SEC23B gene mutations. Molecular genetic approaches can lead to accurate diagnosis and management of CDA Ⅱ patients, particularly for those with GS coexisting.

LPIN2 -related Majeed syndrome: report of two Indian patients with novel variants in LPIN2 and review of literature.

LPIN2 -related Majeed syndrome (MIM# 609628) is a rare non-inflammasome autoinflammatory disease, caused due to biallelic variants in LPIN2 (MIM* 605519). To date, only 31 individuals from 18 families have been reported with this rare condition. Exome sequencing was done in two affected individuals from two unrelated families. Additionally, phenotypic, and genotypic information from the literature was reviewed. Two novel homozygous missense variants, c.2207G>A p. (Arg736His) and c.1157C>G p. (Ser386Ter) in LPIN2 , were identified in family 1 and family 2 respectively. Chronic recurrent osteomyelitis involving the lower extremities was the most common clinical presentation. LPIN2 -related Majeed syndrome should be considered as a differential diagnosis in an individual with clinical or radiological evidence of recurrent sterile osteomyelitis and chronic anaemia.

Congenital dyserythropoietic anemia type II in a newborn with a novel compound heterozygous mutation in the SEC23B: a case report and review of the literature.

Congenital dyserythropoietic anemia type II (CDA II) refers to a group of extremely rare heterozygous disorders characterized by ineffective erythropoiesis and morphological abnormalities of erythrocytes and bone marrow erythroblasts. Six types of CDA with differing heterogenous genetic mutations have been identified to date. Due to the genetic and clinical heterogeneity of CDA, accurate diagnosis can be very challenging, especially with the clinical overlap observed between CDA and other dyserythropoietic diseases. A 1-month-old infant girl, born to a non-consanguineous family, presented with severe normocytic anemia that required transfusions every 2 to 3 weeks since birth, as well as jaundice. Whole exome sequencing revealed a novel compound heterozygosity in the SEC23B gene, thus establishing the diagnosis of CDA II. Analysis by multiple bioinformatics tools predicted that the mutant proteins were deleterious. Here, we report a novel variation in SEC23B that extends the mutation spectrum of SEC23B in the diagnosis of CDA II.

Development of High-Resolution Melting Curve Analysis for rapid detection of SEC23B gene mutation causing Congenital Dyserythropoietic Anemia type II in Indian population.

BACKGROUND: Congenital dyserythropoietic anemias (CDAs) are a very rare and heterogeneous group of disorders characterized by ineffective erythropoiesis. CDA II is caused by mutations in the SEC23B gene. The most common mutation reported in India is c.1385 A > G, p.Y462C. There is no simple and cost-effective confirmatory diagnostic test available for CDA, and therefore, many patients remain undiagnosed. High-resolution melting curve (HRM) analysis is a polymerase chain reaction (PCR) based technique applied to identify genetic differences and scan nucleic acid sequences. HRM can be used to rapidly screen the common mutation causing CDA II in the Indian population. Thus, we studied the use of High-Resolution Melting Curve Analysis to detect common mutation causing CDA II in the Indian population. METHOD: 11 patients having SEC23B (Y462C) mutation causing CDA II are considered for this study. HRM was used to check the presence of Y462C mutation. To verify the accuracy of the HRM analysis, we compared HRM results with the results of Sanger sequencing. This helped us to confirm the diagnosis. RESULTS: We have described the clinical, hematological, and genetic data of eleven patients suffering from CDAII. According to HRM and Sanger sequencing, a homozygous SEC23B (Y462C) mutation was present in all patients, whereas a heterozygous Y462C mutation was present in their parents. CONCLUSION: Our data showed that High-Resolution Melting (HRM) analysis could be used to rapidly screen common SEC23B mutation that causes CDA II in the Indian population.

Congenital dyserythropoietic anemia type IV in the genetic era: A rare neonatal case report of rapid identification with a review of the literature.

Congenital dyserythropoietic anemia type IV (CDAIV) is a rare inherited hematological disorder, presenting with severe anemia due to altered erythropoiesis and hemolysis, with variable needs for recurrent transfusions. We present a case of a transfusion-dependent male newborn who presented at birth with severe hemolytic anemia, and required an intrauterine transfusion. Genetic testing rapidly identified a Kruppel-like factor 1 (KLF1) pathogenic variant (c.973G>A, p.E325K), known to be causative for CDAIV. This case highlights the advantages of next-generation sequencing testing for congenital hemolytic anemia: diagnostic speed, guidance on natural history, and optimized clinical management and anticipatory guidance for parents and clinicians. Additionally, we reviewed the literature for all CDAIV cases.

Congenital dyserythropoietic anaemia type II in a teenager presenting with severe anaemia.

Congenital dyserythropoietic anaemia (CDA) type II is a rare disease characterised by inefficient erythropoiesis and mononuclear cytopenia. Patients generally present with extravascular haemolytic anaemia, jaundice and splenomegaly. A female patient in her mid-teens presented with severe anaemia and abdominal distention. Medical history was significant for the diagnosis of ß-thalassaemia intermedia made in her infancy. However, subsequent investigations showed normal reticulocyte counts that were disproportionate to the severity of her anaemia and a negative ß-thalassemia mutation analysis, leading to concerns about a specific lineage disorder. A bone marrow trephine showed features typical of CDA type II-erythroid hyperplasia with multiple binucleate erythrocytes. CDA type II has often been mistaken for other congenital or acquired forms of anaemia; this case report intends to raise awareness among clinicians to consider CDA type II as a rare but possible cause of severe anaemia in a teenager with a previous presumptive diagnosis of ß-thalassaemia .

Pyruvate kinase deficiency mimicking congenital dyserythropoietic anemia type I.

BACKGROUND: Pyruvate kinase (PK) deficiency is the most common enzyme abnormality in the glycolytic pathway. Here, we describe two siblings with PK deficiency that mimicked congenital dyserythropoietic anemia (CDA) type I. CASE: The siblings were referred to our hospital for evaluation of anemia when they were newborns. Their PK enzyme activities were normal. Their bone marrow aspirations and electron microscopies showed CDA-like findings. A CDA panel with next-generation sequencing showed no mutation. Though their PK enzyme levels were normal, a molecular study of the PKLR gene showed a homozygous variant c.1623G > C (p.Lys541Asn) in exon 12 of our patients. CONCLUSIONS: Although the diagnosis of pyruvate kinase deficiency is difficult, it can be confused with many other diagnoses. Bone marrow findings of these cases are similar to congenital dyserythropoietic anemia. In patients with normal pyruvate kinase enzyme levels, the diagnosis cannot be excluded and genetic analysis is required.

SEC23B missense mutation-associated congenital dyserythropoietic anaemia type II in a child: a rare mimic of chronic haemolytic anaemia.

We report a case of congenital dyserythropoietic anaemia (CDA) type II in a female child, which is an extremely rare cause of hereditary anaemia. The patient, still in her early childhood, presented to us with transfusion-dependent anaemia, unexplained jaundice, passage of cola-coloured urine and hepatosplenomegaly. Further investigations revealed evidence of iron overload, ineffective erythropoiesis and inadequate bone marrow response. Bone marrow aspiration study demonstrated dyserythropoiesis and findings typical of CDA type II. Targeted exome genome sequencing was done and identified heterozygous missense mutation of the SEC23B gene. CDA, being clinically similar to other more prevalent causes of anaemia, should be kept in mind especially when the common causes have already been ruled out.

Compound heterozygosity for two novel mutations of the SEC23B gene in congenital dyserythropoietic anemia type II.

Congenital dyserythropoietic anemia type II (CDA II), a rare genetic disorder, results from SEC23B gene mutations according to previous studies. Here, we present a case of CDA II involving two novel pathogenic mutations of SEC23B that have not previously been reported. The patient suffered from jaundice, tea-colored urine, and weakness. Laboratory data indicated moderately decreased hemoglobin, iron overload, and abnormal erythroblast morphology. Therefore, a diagnosis of CDA II was considered. Peripheral blood samples were used to perform whole exome sequencing, and the results showed compound heterozygosity of the SEC23B gene with the following mutations: c.1162T>A (p.F388I) and c.1603delC (p.R535del). The mutant proteins were predicted to be deleterious and resulted in decreased structural stability. PyMOL software was used to analyze the structural change caused by the p.F388I missense mutation, and the results indicated a deficiency in π-π interactions. In conclusion, our report extends the mutation spectrum of SEC23B in the diagnosis of CDA II.

Congenital dyserythropoietic anemia type I: First report from the Congenital Dyserythropoietic Anemia Registry of North America (CDAR).

Congenital dyserythropoietic anemias (CDAs) are characterized by ineffective erythropoiesis and distinctive erythroblast abnormalities; the diagnosis is often missed or delayed due to significant phenotypic heterogeneity. We established the CDA Registry of North America (CDAR) to study the natural history of CDA and create a biorepository to investigate the pathobiology of this heterogeneous disease. Seven of 47 patients enrolled so far in CDAR have CDA-I due to biallelic CDAN1 mutations. They all presented with perinatal anemia and required transfusions during infancy. Anemia spontaneously improved during infancy in three patients; two became transfusion-independent rapidly after starting interferon-α2; and two remain transfusion-dependent at last follow-up at ages 5 and 30 y.o. One of the transfusion-dependent patients underwent splenectomy at 11 y.o due to misdiagnosis and returned to medical attention at 27 y.o with severe hemolytic anemia and pulmonary hypertension. All patients developed iron overload even without transfusions; four were treated with chelation. Genetic testing allowed for more rapid and accurate diagnosis; the median age of confirmed diagnosis in our cohort was 3 y.o compared to 17.3 y.o historically. In conclusion, CDAR provides an organized research network for multidisciplinary clinical and research collaboration to conduct natural history and biologic studies in CDA.

Recapitulation of erythropoiesis in congenital dyserythropoietic anaemia type I (CDA-I) identifies defects in differentiation and nucleolar abnormalities.

The investigation of inherited disorders of erythropoiesis has elucidated many of the principles underlying the production of normal red blood cells and how this is perturbed in human disease. Congenital Dyserythropoietic Anaemia type 1 (CDA-I) is a rare form of anaemia caused by mutations in two genes of unknown function: CDAN1 and CDIN1 (previously called C15orf41), whilst in some cases, the underlying genetic abnormality is completely unknown. Consequently, the pathways affected in CDA-I remain to be discovered. To enable detailed analysis of this rare disorder we have validated a culture system which recapitulates all of the cardinal haematological features of CDA-I, including the formation of the pathognomonic 'spongy' heterochromatin seen by electron microscopy. Using a variety of cell and molecular biological approaches we discovered that erythroid cells in this condition show a delay during terminal erythroid differentiation, associated with increased proliferation and widespread changes in chromatin accessibility. We also show that the proteins encoded by CDAN1 and CDIN1 are enriched in nucleoli which are structurally and functionally abnormal in CDA-I. Together these findings provide important pointers to the pathways affected in CDA-I which for the first time can now be pursued in the tractable culture system utilised here.

Anemia diseritropoyética congénita tipo I: una mirada actualizada de sus bases moleculares, diagnóstico y tratamiento / Congenital dyserythropoietic anemia type I: an updated review about its molecular bases, diagnosis and treatment

Introducción: Las anemias diseritropoyéticas congénitas constituyen un grupo de trastornos hereditarios caracterizados por anemia refractaria, eritropoyesis ineficaz y alteraciones morfológicas de los eritroblastos. La anemia diseritropoyética congénita tipo I es la más frecuente, no obstante, constituye una rara enfermedad con particularidades morfológicas y moleculares. Objetivo: Analizar los aspectos más novedosos en cuanto a la patogenia molecular, el diagnóstico genético y el tratamiento de la anemia diseritropoyética congénita tipo I. Métodos: Se realizó una revisión de la literatura, en inglés y español. Se utilizaron motores de búsqueda como Google académico y Pubmed que permitió el acceso a artículos actualizados del tema. Se hizo un análisis y resumen de la bibliografía revisada. Análisis y síntesis de la información: La anemia diseritropoyética congénita tipo I es una enfermedad hereditaria autosómica recesiva. Se caracteriza por anemia de grado variable, reticulocitopenia, alteraciones morfológicas de la serie roja en la lámina periférica y un número elevado de eritroblastos binucleados conectados por puentes internucleares en el aspirado de médula ósea. Se han identificado múltiples alteraciones moleculares que involucran fundamentalmente a los genes CDAN1 y C15orf41. Las proteínas codificadas por estos genes participan en proceso vitales como el ciclo celular, la reparación del ADN y la transcripción de ARN. Conclusiones: El estudio de las bases moleculares de la anemia diseritropoyética congénita tipo I ha cambiado la perspectiva en el diagnóstico de esta enfermedad. Los protocolos de tratamiento son similares a otras anemias hemolíticas hereditarias aunque se destaca el uso del Interferón-α(AU)

Introduction: Congenital dyserythropoietic anemias belong to a group of hereditary disorders characterized by refractory anemia, ineffective erythropoiesis and morphological alterations of erythroblasts. Congenital dyserythropoietic anemia type I is the most frequent; however, it is a rare disease with morphological and molecular characteristics. Objective: To analyze the most updated aspects regarding molecular pathogenesis, genetic diagnosis and treatment of congenital dyserythropoietic anemia type I. Methods: A review of the literature in English and Spanish was carried out. Search engines such as Google Scholar and Pubmed were used, which allowed access to updated articles on the subject. An analysis and summary of the revised bibliography was carried out. Information analysis and synthesis: Congenital dyserythropoietic anemia type I is an autosomal recessive hereditary disease. It is characterized by anemia of variable degree, reticulocytopenia, morphological alterations of the red series in the peripheral lamina, and high number of binucleated erythroblasts connected by internuclear bridges in the bone marrow aspirate. Multiple molecular alterations have been identified, mainly involving the CDAN1 and C15orf41 genes. The proteins encoded by these genes participate in vital processes, such as the cell cycle, DNA repair, and RNA transcription. Conclusions: The study of the molecular bases of congenital dyserythropoietic anemia type I has changed the perspective concerning the diagnosis of this disease. Treatment protocols are similar to other hereditary hemolytic anemias, although the use of Interferon-α stands out(AU)