Novel gross deletion at the GHRHR gene locus possibly mediated by Alu specific microhomology identified in a Sri Lankan patient with isolated growth hormone deficiency.

OBJECTIVE:Characterization of a deletion in the exon 1 and 5' regulatory region of the GHRHR gene in a proband with isolated growth hormone deficiency. METHODS:Multiple ligation dependent probe amplification (MLPA) assay was carried out to confirm the homozygous deletion which was suspected during screening of the GHRHR gene by single strand conformation polymorphism. A series of short range PCR amplifications were carried out to map the approximate location of the break points of the deletion. Sanger sequencing was carried out to locate the break points and to identify the length of the deletion. Long range PCR amplification was carried out to confirm the length of the deletion and to screen the parents of the proband for the deletion. RESULTS:A homozygous deletion was confirmed via MLPA assay. Zones of sequence similarity between upstream intergenic region and intron 1 of the GHRHR gene were identified. Break points of the deletion were identified within perfectly matching 32 bp repeat sequences ie: microhomologies in the specified zones. The novel deletion may have arisen via Alu specific microhomology mediated non-recurrent rearrangement in the maternal lineage of the proband. The deletion being reported in this study include, last 3118 bp from the upstream intergenic region and complete exon 1 and first 2620 bp from intron 1 and one of the 32 bp microhomologies. The total length of the deleted segment was 5875 bp. As the deleted region contained significant elements essential for gene expression, the identified deletion is being reported as likely pathogenic. The same deletion was identified in the mother in heterozygous state. CONCLUSION:We have characterized a novel deletion that seems to have arisen via Alu specific microhomology mediated non-recurrent rearrangement at GHRHR gene locus. HGVS nomenclature of the deletion is c.-3166_58-2057del. This novel structural variant was identified to be the cause of IGHD of the affected proband.

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