Diagnosis of Laron syndrome using monoplex-polymerase chain reaction technology with a whole-genome amplification template: A case report

Adina Neumann; Miguel Ángel Alcántara-Ortigoza; Ariadna González-Del Ángel; Felipe Camargo-Diaz; Esther López-Bayghen

doi:10.12998/wjcc.v7.i23.4029

Diagnosis of Laron syndrome using monoplex-polymerase chain reaction technology with a whole-genome amplification template: A case report

World J Clin Cases. 2019 Dec 6;7(23):4029-4035. doi: 10.12998/wjcc.v7.i23.4029.

Authors

Adina Neumann¹, Miguel Ángel Alcántara-Ortigoza², Ariadna González-Del Ángel², Felipe Camargo-Diaz¹, Esther López-Bayghen³

Affiliations

¹ Laboratorio de Investigación y Diagnóstico Molecular, Instituto de Infertilidad y Genética México SC, INGENES, México City 05320, México.
² Instituto Nacional de Pediatría, Torre de Investigación, Mexico City 04530, México.
³ Departamento de Toxicología, Centro de Investigación y de Estudios Avanzados del Instituto Politécnico Nacional (CINVESTAV-IPN), México City 07360, México. ebayghen@cinvestav.mx.

Abstract

Background: Laron syndrome (LS) is an autosomal recessive hereditary condition affecting only 1/1000000 births. The cause is associated with mutations in the growth hormone (GH) receptor (GHR), leading to GH insensitivity. LS patients typically present with severe growth retardation, obesity, and abnormal sexual maturation. Currently, LS diagnosis is performed post-delivery. Therefore, we assessed the efficiency of Pre-implantation Genetic Testing (PGT) coupled with monoplex-polymerase chain reaction (PCR) technology for detecting this monogenic disease in embryos from a couple confirmed as LS heterozygous carriers.

Case summary: The couple LS-carriers were confirmed by the presence of a first child born with LS. The couple underwent a standard in vitro fertilization (IVF) protocol. DNA was collected from trophectoderm cells from day 5 embryos. Whole genome amplification (WGA) was performed using a Sureplex DNA Amplification System and analyzed by PCR, targeting the deletion of the exons 5 and 6 in the GHR gene as well as PGT by Next-generation Sequencing (Illumina). Eleven embryos were collected and analyzed. 27.3% were the wild type for GHR, 45.5% were heterozygotes, and 18.2% homozygous mutants. One embryo yielded no results. Three 2-embryos transfers were performed; 2 normal homozygous and four heterozygous carriers were selected for transfer. The first two transfers were unsuccessful, whereas the final transfer with two heterozygous embryos resulted in clinical pregnancy. The genomic composition of the fetus was verified, applying the same techniques using amniocytes, extracted after 21 wk of the ongoing pregnancy. The fetus was confirmed as GHR deletion in exon 5-6, carrier. A non-affected baby was born.

Conclusion: Here, we present a case demonstrating that using WGA as a template in addition to PCR targeting specific gene regions, exons 5 and 6 on the GHR gene, could identify LS carrier embryos. This provides evidence that WGA and PCR serve as an excellent tool to detect this specific monogenic disease in IVF embryos, thus allowing selection of candidate embryos for transfer successfully when a specific inherited genetic mutation/disease is suspected.

Keywords: Case report; Embryo diagnosis; Growth hormone insensitivity; Growth hormone receptor mutations; Intragenic deletions; Laron syndrome; Molecular diagnosis.

Publication types

Case Reports