Diamond-Blackfan anemia associated with Treacher-Collins syndrome

Diamond-Blackfan anemia with mandibulofacial dystostosis is heterogeneous, including the novel DBA genes TSR2 and RPS28

Patients with physical findings suggestive of Treacher Collins syndrome (TCS) or mandibulofacial dysostosis (MFD) and macrocytic anemia diagnostic of Diamond-Blackfan anemia (DBA) have been reported. Disease-causing genes have been identified for TCS and other MFDs. Mutations in several ribosomal protein genes and the transcription factor GATA1 result in DBA. However, no disease-causing mutation had been identified in the reported patients with the combination of TCS/MFD and DBA phenotype, and we hypothesized that pathogenic mutations in a single gene could be identified using whole exome analysis. We studied probands from six unrelated families. Combining exome analysis and Sanger sequencing, we identified likely pathogenic mutations in 5/6 families. Two mutations in unrelated families were seen in RPS26, the known DBA10 gene. One variant was predicted to affect mRNA splicing, and the other to lead to protein truncation. In another family a likely pathogenic X-linked mutation affecting a highly conserved residue was found in TSR2, which encodes a direct binding partner of RPS26. De novo mutations affecting the RPS28 start codon were found in two unrelated probands, identifying RPS28 as a novel disease gene. We conclude that the phenotype combining features of TCS with DBA is genetically heterogeneous. Each of the pathogenic variants identified is predicted to impede ribosome biogenesis, which in turn could result in altered cell growth and proliferation, causing abnormal embryologic development, defective erythropoiesis and reduced growth. The phenotype combining TCS/MFD and DBA is highly variable, overlaps with DBA and lies within the phenotypic spectrum of ribosomopathies. © 2014 Wiley Periodicals, Inc.

Do ribosomopathies explain some cases of common variable immunodeficiency?

The considerable clinical heterogeneity of patients with common variable immunodeficiency disorders (CVID) shares some similarity with bone-marrow failure disorders such as Diamond-Blackfan anaemia (DBA) and Shwachman-Diamond syndrome (SDS), now recognized as defects in ribosome biogenesis or ribosomopathies. The recognition of a patient with DBA who subsequently developed CVID lends support to our previous finding of a heterozygous mutation in the SBDS gene of SBDS in another CVID patient, suggesting that ribosome biogenesis defects are responsible for a subset of CVID. Genetic defects in the ribosomal translational machinery responsible for various bone marrow failure syndromes are recognized readily when they manifest in children, but diagnosing these in adults presenting with complex phenotypes and hypogammaglobulinaemia can be a challenge. In this perspective paper, we discuss our clinical experience in CVID patients with ribosomopathies, and review the immunological abnormalities in other conditions associated with ribosomal dysfunction. With genetic testing available for various bone marrow failure syndromes, our hypothesis that ribosomal abnormalities may be present in patients with CVID could be proved in future studies by testing for mutations in specific ribosomal genes. New knowledge might then be translated into novel therapeutic strategies for patients in this group of immunodeficiency disorders.

Curvilinear mandibular distraction in a patient with mandibulofacial dysostosis associated with Diamond-Blackfan anemia

Diamond-Blackfan anemia (DBA) is a congenital erythroid aplasia or hypoplasia presenting in infancy as a macrocytic anemia. It has been linked to a gene defect resulting in the absence of specific ribosomal proteins that enable erythroid maturation. Treacher Collins syndrome is also associated with defective ribosomal biogenesis. Fifty percent of patients with DBA also present with additional physical abnormalities including growth delay, craniofacial abnormalities, upper limp abnormalities, cardiac defects, urogenital malformations, and cleft palate. Upper airway obstruction may be a complication from craniofacial disorders and may be responsible for life-threatening sleep apnea that may result in pneumonia or respiratory failure. This report is of a patient with DBA who presented at birth with respiratory distress secondary to tongue-based obstruction of the airway due to mandibulofacial dysostosis leading to need for intubation. In an effort to avoid a tracheostomy, the patient underwent bilateral internal mandibular osteodistraction on day 4 of life with a latency period of 0 days and a distraction at a rate of 2 mm/d for 10 days until a class 3 dental occlusion existed with 5 mm of overcorrection. In addition, the patient was born with choanal atresia that was repaired at day 30 of life. After completion of the mandibular distraction, the patient has avoided tracheostomy and is now 6 months of age. Recent polysomnogram has demonstrated no significant apnea or hypopnea.

Diamond Blackfan anemia: a disorder of red blood cell development

Diamond Blackfan anemia (DBA) is an inherited hypoplastic anemia that typically presents in the first year of life. The genes identified to date that are mutated in DBA encode ribosomal proteins, and in these cases ribosomal protein haploinsufficiency gives rise to the disease. The developmental timing of DBA presentation suggests that the changes in red blood cell production that occur around the time of birth trigger a pathophysiological mechanism, likely linked to defective ribosome synthesis, which precipitates the hematopoietic phenotype. Variable presentation of other clinical phenotypes in DBA patients indicates that other developmental pathways may also be affected by ribosomal protein haploinsufficiency and that the involvement of these pathways is influenced by modifier genes. Understanding the molecular basis for the developmental timing of DBA presentation promises to shed light on a number of baffling features of this disease. This chapter also attempts to demonstrate how the marriage of laboratory and clinical science may enhance each and permit insights into human disease that neither alone can accomplish.

Cleft palate, bilateral external auditory canal atresia, and other midline defects associated with Diamond-Blackfan anemia: case report

Diamond-Blackfan anemia (DBA) is associated with congenital anomalies especially of the midline. When present, facial anomalies are reminiscent of Treacher-Collins syndrome, and both DBA and Treacher-Collins syndrome are disorders of ribosomal biogenesis. Herein, we describe a female infant with multiple midline defects associated with DBA and reaffirm the absence of RPS-19 mutations in DBA patients with facial anomalies.

Diamond blackfan anemia: New paradigms for a "not so pure" inherited red cell aplasia

Diamond Blackfan anemia (DBA) is a genetically and clinically heterogeneous disorder characterized by erythroid failure, congenital anomalies, and a predisposition to cancer. Faulty ribosome biogenesis is hypothesized to be the underlying defect, leading to erythroid failure due to accelerated apoptosis in affected erythroid progenitors/precursors. Since first observed in DBA, pro-apoptotic hematopoiesis has been recognized as a common mechanism for hematopoietic failure in virtually all of the inherited bone marrow failure syndromes. Inherited as an autosomal dominant trait, one of what appears to be multiple DBA genes, coding for ribosomal protein RPS19, has been cloned. The discovery of additional genes will no doubt clarify the molecular pathophysiology of this disorder. Even within families, individuals may vary dramatically as to the degree of anemia, treatment response, and the presence of congenital anomalies. The study of DBA has been facilitated by the creation of international patient registries that provide more reliable information regarding clinical presentation, genetics, and outcome, as well as descriptions of congenital malformations and cancer predisposition, than can be culled from the literature. Analysis of registry data has led to improvements in clinical care and provides patients and research specimens for clinical and laboratory investigations.

The Diamond Blackfan Anemia Registry: tool for investigating the epidemiology and biology of Diamond-Blackfan anemia

Diamond-Blackfan anemia (DBA) is a heterogeneous genetic disorder characterized by red cell aplasia and congenital anomalies. One of what appears to be multiple DBA genes has been cloned. Affected individuals in the same family may vary dramatically as to the degree of anemia, response to corticosteroids, and the presence of congenital anomalies. The epidemiology of DBA has been gleaned largely from literature reviews. This approach is limited because of the two-fold disadvantage of the reporting bias inherent in the literature and the lack of an active patient database. The Diamond Blackfan Anemia Registry of North America (DBAR) is designed to overcome these disadvantages to study the epidemiology and biology of DBA. The DBAR is a comprehensive database of patients with DBA who are enrolled after informed consent is obtained. Identification of patients is made through outreach to pediatric and adult hematologists and the Diamond Blackfan Anemia Foundation. The patients and/or their families complete a detailed questionnaire. A review of medical records and telephone interviews are performed to complete and clarify the information provided. To date, 354 patients have been enrolled in the DBAR. Using this database, important epidemiologic, clinical, and laboratory observations have been made with regard to the clinical presentation, the inheritance of DBA, the genetics of congenital malformations, the therapeutic outcome, including the efficacy of hematopoietic stem cell transplantation, and the recognition of DBA as a cancer predisposition syndrome. In particular, the database is an essential substrate for DBA gene discovery.

Bilateral microtia and cleft palate in cousins with Diamond-Blackfan anemia

We report on maternal first cousins with bilateral microtia, micrognathia, cleft palate and hematologic findings of Diamond-Blackfan anemia (DBA). The similarity of findings shared between our cases and a female reported by Hasan and Inoue [1993] suggests that this is a distinctive syndrome, rather than a chance association. DBA is a heterogeneous disorder, caused in about 25% of cases by heterozygous mutations in the RPS19 gene (DBA1). Mutation analysis in our cases did not show an RPS19 mutation, and 2 alleles were present in each. Segregation analysis for DBA1 on chromosome 19 and DBA2 on 8p23 was not consistent with linkage. We conclude that this syndrome of microtia, cleft palate and DBA is not allelic to known DBA loci.