Entry - #615631 - ANEMIA, CONGENITAL DYSERYTHROPOIETIC, TYPE Ib; CDAN1B - OMIM

 
ICD+
# 615631

ANEMIA, CONGENITAL DYSERYTHROPOIETIC, TYPE Ib; CDAN1B


Alternative titles; symbols

CDA, TYPE Ib


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
15q14 Dyserythropoietic anemia, congenital, type Ib 615631 AR 3 CDIN1 615626
Clinical Synopsis
 
Phenotypic Series
 

INHERITANCE
- Autosomal recessive
GROWTH
Height
- Short stature (in some patients)
Other
- Poor growth
ABDOMEN
Liver
- Hepatomegaly
Spleen
- Splenomegaly
SKELETAL
Hands
- Phalangeal abnormalities (in some patients)
- Hypoplasia of terminal phalanges (in some patients)
Feet
- Phalangeal abnormalities (in some patients)
- Hypoplasia of terminal phalanges (in some patients)
- Metatarsal duplication (in some patients)
- Syndactyly (in some patients)
SKIN, NAILS, & HAIR
Skin
- Pallor
- Jaundice
Nails
- Nail hypoplasia (in some patients)
HEMATOLOGY
- Dyserythropoietic anemia
- Peripheral blood smear shows polychromasia
- Poikilocytosis
- Anisocytosis
- Macrocytosis
- Increased reticulocytes
- Erythroid hyperplasia seen on bone marrow biopsy
- Megaloblastic erythropoiesis
- Multinuclear erythroblasts
- Internuclear chromatin bridges
- Heterochromatin clumps with spongy, 'Swiss cheese' appearance
LABORATORY ABNORMALITIES
- Decreased hemoglobin
- Increased fetal hemoglobin
- Increased serum bilirubin
MISCELLANEOUS
- Onset in childhood
- Anemia is transfusion-dependent
- Anemia does not respond to alpha-interferon treatment
MOLECULAR BASIS
- Caused by mutation in the CDAN1-interacting nuclease 1 gene (CDIN1, 615626.0001)
▲ Close

TEXT

A number sign (#) is used with this entry because congenital dyserythropoietic anemia type Ib (CDAN1B) is caused by homozygous mutation in the C15ORF41 gene (CDIN1; 615626) on chromosome 15q14.

Description

Congenital dyserythropoietic anemia type I is an autosomal recessive hematologic disorder characterized by congenital macrocytic anemia secondary to ineffective erythropoiesis. The bone marrow shows erythroid hyperplasia, with nuclear abnormalities in most erythroblasts. Up to 3% of erythroblasts have interchromatin bridges, and erythroblast nuclei are abnormally electron dense with spongy ('Swiss cheese-like') heterochromatin on electron microscopy. Some reported patients have distal digital abnormalities (summary by Ahmed et al., 2006).

For a general phenotypic description and a discussion of genetic heterogeneity of CDA, see CDAN1A (224120).

Clinical Features

Sabry et al. (1997) reported 3 sibs, born of related Kuwaiti parents, with congenital dyserythropoietic anemia apparent from early childhood. All had a history of jaundice, skin pallor, hepatosplenomegaly, and blood transfusion. Laboratory studies showed increased bilirubin and reticulocytes. Bone marrow biopsies showed erythroid hyperplasia, internuclear chromatin bridges, and multinuclear erythrocyte precursors. The findings were consistent with type I congenital dyserythropoietic anemia. The patients also had skeletal anomalies that varied in severity, including short stature, hypoplastic nails, phalangeal hypoplasia of both the hands and feet, deformed or duplicated metatarsals, and cutaneous syndactyly of the toes. One patient had ptosis and reduced bone age.

Ahmed et al. (2006) reported 2 Pakistani sisters, born of consanguineous parents (family C), with clinical and hematologic findings of type I congenital dyserythropoietic anemia. A substantial proportion of erythroblasts showed 'Swiss-cheese' appearance of heterochromatin on electron microscopy. Linkage and sequence analysis excluded mutations in the CDAN1 gene (607465).

Babbs et al. (2013) restudied the 3 sibs reported by Sabry et al. (1997). Hematologic features included megaloblastic erythropoiesis with severe dyserythropoietic changes, bi- and multinuclear erythroblasts, and internuclear chromatin bridges. All patients were severely affected, requiring transfusion support during childhood.


Inheritance

The transmission pattern of CDAN1B in the families reported by Babbs et al. (2013) was consistent with autosomal recessive inheritance.


Molecular Genetics

In affected members of 3 unrelated consanguineous families with congenital dyserythropoietic anemia type Ib, Babbs et al. (2013) identified 2 different homozygous missense mutations in the C15ORF41 gene (L178Q, 615626.0001 and Y94C, 615626.0002). The mutation in the first family was found by whole-genome sequencing, whereas the mutation in the other 2 families was found by direct sequencing of the C15ORF41 gene in 9 probands with the disorder. Functional studies of the mutations were not performed. Two of the families had previously been reported by Sabry et al. (1997) and Ahmed et al. (2006), respectively.

Exclusion Studies

By linkage analysis and direct sequencing, Ahmed et al. (2006) excluded mutations in the CDAN1 gene (607465) in the Kuwaiti sibs with CDA type I reported by Sabry et al. (1997). By the same methods, Ahmed et al. (2006) excluded the CDAN1 gene in 2 Pakistani sisters with CDA type I.


REFERENCES

  1. Ahmed, M. R., Chehal, A., Zahed, L., Taher, A., Haidar, J., Shamseddine, A., O'Hea, A.-M., Bienz, N., Dgany, O., Avidan, N., Beckmann, J. S., Tamary, H., Higgs, D., Vyas, P., Wood, W. G., Wickramasinghe, S. N. Linkage and mutational analysis of the CDAN1 gene reveals genetic heterogeneity in congenital dyserythropoietic anemia type I. (Letter) Blood 107: 4968-4969, 2006. [PubMed: 16754775, related citations] [Full Text]

  2. Ahmed, M. R., Zaki, M., Sabry, M. A., Higgs, D., Vyas, P., Wood, W., Wickramasinghe, S. N. Evidence of genetic heterogeneity in congenital dyserythropoietic anaemia type I. (Letter) Brit. J. Haemat. 133: 444-445, 2006. [PubMed: 16643456, related citations] [Full Text]

  3. Babbs, C., Roberts, N. A., Sanchez-Pulido, L., McGowan, S. J., Ahmed, M. R., Brown, J. M., Sabry, M. A., WGS500 Consortium, Bentley, D. R., McVean, G. A., Donnelly, P., Gileadi, O., Ponting, C. P., Higgs, D. R., Buckle, V. J. Homozygous mutations in a predicted endonuclease are a novel cause of congenital dyserythropoietic anemia type I. Haematologica 98: 1383-1387, 2013. [PubMed: 23716552, images, related citations] [Full Text]

  4. Sabry, M. A., Zaki, M., al Awadi, S. A., al Saleh, Q., Mattar, M. S. Non-haematological traits associated with congenital dyserythropoietic anaemia type 1: a new entity emerging. Clin. Dysmorph. 6: 205-212, 1997. [PubMed: 9220189, related citations] [Full Text]


Creation Date:
Cassandra L. Kniffin : 2/6/2014
Edit History:
carol : 03/15/2022
carol : 05/25/2017
carol : 05/24/2017
carol : 02/11/2014
mcolton : 2/10/2014
ckniffin : 2/10/2014

# 615631

ANEMIA, CONGENITAL DYSERYTHROPOIETIC, TYPE Ib; CDAN1B


Alternative titles; symbols

CDA, TYPE Ib


ORPHA: 85, 98869;   DO: 0111397;  


Phenotype-Gene Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key 		Gene/Locus Gene/Locus
MIM number
15q14 Dyserythropoietic anemia, congenital, type Ib 615631 Autosomal recessive 3 CDIN1 615626

TEXT

A number sign (#) is used with this entry because congenital dyserythropoietic anemia type Ib (CDAN1B) is caused by homozygous mutation in the C15ORF41 gene (CDIN1; 615626) on chromosome 15q14.

Description

Congenital dyserythropoietic anemia type I is an autosomal recessive hematologic disorder characterized by congenital macrocytic anemia secondary to ineffective erythropoiesis. The bone marrow shows erythroid hyperplasia, with nuclear abnormalities in most erythroblasts. Up to 3% of erythroblasts have interchromatin bridges, and erythroblast nuclei are abnormally electron dense with spongy ('Swiss cheese-like') heterochromatin on electron microscopy. Some reported patients have distal digital abnormalities (summary by Ahmed et al., 2006).

For a general phenotypic description and a discussion of genetic heterogeneity of CDA, see CDAN1A (224120).

Clinical Features

Sabry et al. (1997) reported 3 sibs, born of related Kuwaiti parents, with congenital dyserythropoietic anemia apparent from early childhood. All had a history of jaundice, skin pallor, hepatosplenomegaly, and blood transfusion. Laboratory studies showed increased bilirubin and reticulocytes. Bone marrow biopsies showed erythroid hyperplasia, internuclear chromatin bridges, and multinuclear erythrocyte precursors. The findings were consistent with type I congenital dyserythropoietic anemia. The patients also had skeletal anomalies that varied in severity, including short stature, hypoplastic nails, phalangeal hypoplasia of both the hands and feet, deformed or duplicated metatarsals, and cutaneous syndactyly of the toes. One patient had ptosis and reduced bone age.

Ahmed et al. (2006) reported 2 Pakistani sisters, born of consanguineous parents (family C), with clinical and hematologic findings of type I congenital dyserythropoietic anemia. A substantial proportion of erythroblasts showed 'Swiss-cheese' appearance of heterochromatin on electron microscopy. Linkage and sequence analysis excluded mutations in the CDAN1 gene (607465).

Babbs et al. (2013) restudied the 3 sibs reported by Sabry et al. (1997). Hematologic features included megaloblastic erythropoiesis with severe dyserythropoietic changes, bi- and multinuclear erythroblasts, and internuclear chromatin bridges. All patients were severely affected, requiring transfusion support during childhood.


Inheritance

The transmission pattern of CDAN1B in the families reported by Babbs et al. (2013) was consistent with autosomal recessive inheritance.


Molecular Genetics

In affected members of 3 unrelated consanguineous families with congenital dyserythropoietic anemia type Ib, Babbs et al. (2013) identified 2 different homozygous missense mutations in the C15ORF41 gene (L178Q, 615626.0001 and Y94C, 615626.0002). The mutation in the first family was found by whole-genome sequencing, whereas the mutation in the other 2 families was found by direct sequencing of the C15ORF41 gene in 9 probands with the disorder. Functional studies of the mutations were not performed. Two of the families had previously been reported by Sabry et al. (1997) and Ahmed et al. (2006), respectively.

Exclusion Studies

By linkage analysis and direct sequencing, Ahmed et al. (2006) excluded mutations in the CDAN1 gene (607465) in the Kuwaiti sibs with CDA type I reported by Sabry et al. (1997). By the same methods, Ahmed et al. (2006) excluded the CDAN1 gene in 2 Pakistani sisters with CDA type I.


REFERENCES

  1. Ahmed, M. R., Chehal, A., Zahed, L., Taher, A., Haidar, J., Shamseddine, A., O'Hea, A.-M., Bienz, N., Dgany, O., Avidan, N., Beckmann, J. S., Tamary, H., Higgs, D., Vyas, P., Wood, W. G., Wickramasinghe, S. N. Linkage and mutational analysis of the CDAN1 gene reveals genetic heterogeneity in congenital dyserythropoietic anemia type I. (Letter) Blood 107: 4968-4969, 2006. [PubMed: 16754775] [Full Text: https://doi.org/10.1182/blood-2006-01-0081]

  2. Ahmed, M. R., Zaki, M., Sabry, M. A., Higgs, D., Vyas, P., Wood, W., Wickramasinghe, S. N. Evidence of genetic heterogeneity in congenital dyserythropoietic anaemia type I. (Letter) Brit. J. Haemat. 133: 444-445, 2006. [PubMed: 16643456] [Full Text: https://doi.org/10.1111/j.1365-2141.2006.06089.x]

  3. Babbs, C., Roberts, N. A., Sanchez-Pulido, L., McGowan, S. J., Ahmed, M. R., Brown, J. M., Sabry, M. A., WGS500 Consortium, Bentley, D. R., McVean, G. A., Donnelly, P., Gileadi, O., Ponting, C. P., Higgs, D. R., Buckle, V. J. Homozygous mutations in a predicted endonuclease are a novel cause of congenital dyserythropoietic anemia type I. Haematologica 98: 1383-1387, 2013. [PubMed: 23716552] [Full Text: https://doi.org/10.3324/haematol.2013.089490]

  4. Sabry, M. A., Zaki, M., al Awadi, S. A., al Saleh, Q., Mattar, M. S. Non-haematological traits associated with congenital dyserythropoietic anaemia type 1: a new entity emerging. Clin. Dysmorph. 6: 205-212, 1997. [PubMed: 9220189] [Full Text: https://doi.org/10.1097/00019605-199707000-00002]


Creation Date:
Cassandra L. Kniffin : 2/6/2014

Edit History:
carol : 03/15/2022
carol : 05/25/2017
carol : 05/24/2017
carol : 02/11/2014
mcolton : 2/10/2014
ckniffin : 2/10/2014



NOTE: OMIM is intended for use primarily by physicians and other professionals concerned with genetic disorders, by genetics researchers, and by advanced students in science and medicine. While the OMIM database is open to the public, users seeking information about a personal medical or genetic condition are urged to consult with a qualified physician for diagnosis and for answers to personal questions.
OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2024 Johns Hopkins University.

NOTE: OMIM is intended for use primarily by physicians and other professionals concerned with genetic disorders, by genetics researchers, and by advanced students in science and medicine. While the OMIM database is open to the public, users seeking information about a personal medical or genetic condition are urged to consult with a qualified physician for diagnosis and for answers to personal questions.
OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2024 Johns Hopkins University.
Printed: June 1, 2024