Novel 14q32.2 paternal deletion encompassing the whole DLK1 gene associated with Temple syndrome.
Clin Epigenetics
; 16(1): 62, 2024 May 07.
Article
in En
| MEDLINE
| ID: mdl-38715103
ABSTRACT
BACKGROUND:
Temple syndrome (TS14) is a rare imprinting disorder caused by maternal UPD14, imprinting defects or paternal microdeletions which lead to an increase in the maternal expressed genes and a silencing the paternally expressed genes in the 14q32 imprinted domain. Classical TS14 phenotypic features include pre- and postnatal short stature, small hands and feet, muscular hypotonia, motor delay, feeding difficulties, weight gain, premature puberty along and precocious puberty.METHODS:
An exon array comparative genomic hybridization was performed on a patient affected by psychomotor and language delay, muscular hypotonia, relative macrocephaly, and small hand and feet at two years old. At 6 years of age, the proband presented with precocious thelarche. Genes dosage and methylation within the 14q32 region were analyzed by MS-MLPA. Bisulfite PCR and pyrosequencing were employed to quantification methylation at the four known imprinted differentially methylated regions (DMR) within the 14q32 domain DLK1 DMR, IG-DMR, MEG3 DMR and MEG8 DMR.RESULTS:
The patient had inherited a 69 Kb deletion, encompassing the entire DLK1 gene, on the paternal allele. Relative hypermethylation of the two maternally methylated intervals, DLK1 and MEG8 DMRs, was observed along with normal methylation level at IG-DMR and MEG3 DMR, resulting in a phenotype consistent with TS14. Additional family members with the deletion showed modest methylation changes at both the DLK1 and MEG8 DMRs consistent with parental transmission.CONCLUSION:
We describe a girl with clinical presentation suggestive of Temple syndrome resulting from a small paternal 14q32 deletion that led to DLK1 whole-gene deletion, as well as hypermethylation of the maternally methylated DLK1-DMR.Key words
Full text:
1
Database:
MEDLINE
Main subject:
Chromosomes, Human, Pair 14
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Calcium-Binding Proteins
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Genomic Imprinting
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DNA Methylation
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Intercellular Signaling Peptides and Proteins
Limits:
Child
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Humans
Language:
En
Year:
2024
Type:
Article