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|Classification and external resources|
|Classification and external resources|
Shwachman–Diamond syndrome (SDS) or Shwachman–Bodian–Diamond syndrome is a rare congenital disorder characterized by exocrine pancreatic insufficiency, bone marrow dysfunction, skeletal abnormalities, and short stature. After cystic fibrosis (CF), it is the second most common cause of exocrine pancreatic insufficiency in children.
This syndrome shows a wide range of abnormalities and symptoms. The main characteristics of the syndrome are exocrine pancreatic dysfunction, haematologic abnormalities and growth retardation. Only the first two of these are included in the clinical diagnostic criteria.
Shwachman–Diamond syndrome is characterized by an autosomal recessive mode of inheritance. The gene that is mutated in this syndrome (SBDS) lies on the long arm of chromosome 7 at cytogenetic position 7q11. It is composed of five exons and has an associated mRNA transcript that is 1.6 kilobase pairs in length. The SBDS gene resides in a block of genomic sequence that is locally duplicated on the chromosome. The second copy contains a non-functional version of the SBDS gene that is 97% identical to the original gene, but has accumulated inactivating mutations over time. It is considered to be a pseudogene. In a study of 158 SDS families, 75% of disease-associated mutations appeared to be the result of gene conversion, while 89% of patients harbored at least one such mutation. Gene conversion occurs when the intact SBDS gene and its pseudogene copy aberrantly recombine at meiosis, leading to an incorporation of pseudogene-like sequences into the 'good copy' of the SBDS gene, thereby inactivating it. Two gene conversion mutations predominate; one is a splice site mutation affecting the 5' splice site of intron two, while the second is an exon two nonsense mutation.
The SBDS gene is expressed in all tissues and encodes a protein of 250 amino acid residues. The function of this protein is not known and it has no primary sequence similarity to any other protein or structural domain that would indicate a possible function. The atomic structure of an archeal ortholog of the human protein has been determined by x-ray crystallography and indicates a novel 3 dimensional fold in the most N-terminal of the three structural domains and many of the known human disease associated mutations and truncations occur within this structural domain. There is however, a great deal of indirect evidence to suggest that the SBDS protein may be involved in an aspect of cellular RNA metabolism or ribosome assembly or function. The wide occurrence of the gene in all Archaea and Eukaryotes supports a role for this protein in a very fundamental and evolutionarily conserved aspect of cellular biology. A specific function for SBDS in RNA metabolism or ribosome assembly or function is supported by its localization to the nucleolus, the nuclear subdomain where these processes occur. At present, it is not obvious how disruption of a basic cellular process causes the tissue- and organ-specific manifestations seen in SDS. However, unusual and combinations of tissues and organs are also affected in Diamond–Blackfan anemia, X-linked dyskeratosis congenita, and cartilage-hair hypoplasia—three diseases that may also be linked to defective ribosome function.
Initially, the clinical presentation of SDS may appear similar to cystic fibrosis. However, CF can be excluded with a normal chloride in sweat test but faecal elastase as a marker of pancreatic function will be reduced. The variation, intermittent nature, and potential for long-term improvement of some clinical features make this syndrome difficult to diagnose. SDS may present with either malabsorption, or hematological problems. Rarely, SDS may present with skeletal defects, including severe rib cage abnormalities that lead to difficulty in breathing. Diagnosis is generally based on evidence of exocrine pancreatic dysfunction and neutropenia. Skeletal abnormalities and short stature are characteristics that can be used to support the diagnosis. The gene responsible for the disease has been identified and genetic testing is now available. Though useful in diagnostics, a genetic test does not surmount the need for careful clinical assessment and monitoring of all patients.
Pancreatic exocrine insufficiency may be treated through pancreatic enzyme supplementation, while severe skeletal abnormalities may require surgical intervention. Neutropenia may be treated with granulocyte-colony stimulating factor (GCSF) to boost peripheral neutrophil counts. However, there is ongoing and unresolved concern that this drug could contribute to the development of leukemia. Signs of progressive marrow failure may warrant bone marrow transplantation (BMT). This has been used successfully to treat hematological aspects of disease. However, SDS patients have an elevated occurrence of BMT-related adverse events, including graft-versus-host disease (GVHD) and toxicity relating to the pre-transplant conditioning regimen. In the long run, study of the gene that is mutated in SDS should improve understanding of the molecular basis of disease. This, in turn, may lead to novel therapeutic strategies, including gene therapy and other gene- or protein-based approaches.
It is thought to have an estimated incidence of 1 in 75,000 people.
The disease was first described as a coherent clinical entity in May 1964 by Bodian, Sheldon, and Lightwood. It was subsequently described by Shwachman, Diamond, Oski, and Khaw in November of the same year. In 2001, linkage analysis in SDS families indicated that affected gene mapped to a large region of human chromosome seven. In 2002, this interval was refined to a region on the long arm of the chromosomenext to the centromere.
Shwachman–Diamond syndrome, less commonly known as Shwachman–Bodian–Diamond syndrome, is named for Harry Shwachman (1910 -September 12, 1986), an American physician, Martin Bodian (1912 - May 12, 1994), a British ophthalmologist who worked in New York City, and Louis Klein Diamond (May 11, 1902 - June 14, 1999), an American pediatrician.