Interchromosomal Effect in Sperm of Males with Translocations: Report of 6 Cases and Review of the Literature

Overview

Journal Int J Androl

Date 2005 Nov 23

PMID 16300670

Citations 24

Authors

N Douet-Guilbert

M-J L Bris

V Amice

C Marchetti

B Delobel

J Amice

M D Braekeleer

F Morel

Affiliations

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Abstract

Somatic chromosomal abnormalities are frequently found in infertile men, particularly in those with low sperm count and/or seeking intracytoplasmic sperm injection. These abnormalities mostly consist of numerical sex chromosome abnormalities and translocations (Robertsonian or reciprocal). In this study, we searched for the occurrence of non-disjunction of chromosomes not involved in translocations during meiosis, phenomenon called interchromosomal effect (ICE) and first described by Lejeune (1965). Ejaculate samples of two patients carrying a Robertsonian translocation and four a reciprocal translocation patients and four controls (men with a 46,XY karyotype and normal sperm parameters) were studied in dual FISH 7-9, dual FISH 13-21 and triple FISH X-Y-18. A statistically significant increase of disomy X, Y and XY (P = 0.009, P = 0.004, P < 0.001) was found in the Robertsonian der(13;14)(q10;q10) carrier but not in the der(14;21)(q10;q10) carrier compared with controls. Among reciprocal translocation carriers, a significant increase of disomy 21 (P = 0.033) was observed in a sole patient with a t(9;22)(q21;q11.2). The increase of meiotic non-disjunction for chromosome 21 and sex chromosomes is a recurrent event found in other studies. According to our results and published data, the ICE on some specific chromosomes is likely in men carrier of a translocation, although it cannot be excluded that the aneuploidy is related to the oligoasthenoteratozoospermia usually present in these men. Moreover, this phenomenon showed interindividual variations which cannot be predicted. The risk of aneuploidy in sperm of males used for ICSI need to be evaluated. It could be superadded to that of meiotic segregation of the translocation to give a more precise and personalized risk assessment of aneuploidy in the offspring of those men.

Citing Articles

FISH analysis of numerical chromosomal abnormalities in the sperm of robertsonian translocation der(13; 14)(q10;q10) carriers.

Zhu S, Zhu Y, Zhang F, Wu J, Chen Y, Sun Y Front Genet. 2022; 13:1010568.

PMID: 36238152 PMC: 9551382. DOI: 10.3389/fgene.2022.1010568.

Cytogenetic Screening in Couples with Recurrent Pregnancy Loss: A Single-Center Study and Review of Literature.

Frikha R, Turki F, Abdelmoula N, Rebai T J Hum Reprod Sci. 2021; 14(2):191-195.

PMID: 34316236 PMC: 8279057. DOI: 10.4103/jhrs.JHRS_74_19.

The Interchromosomal Effect: Different Meanings for Different Organisms.

Miller D Genetics. 2020; 216(3):621-631.

PMID: 33158985 PMC: 7648586. DOI: 10.1534/genetics.120.303656.

How much, if anything, do we know about sperm chromosomes of Robertsonian translocation carriers?.

Wiland E, Olszewska M, Wozniak T, Kurpisz M Cell Mol Life Sci. 2020; 77(23):4765-4785.

PMID: 32514588 PMC: 7658086. DOI: 10.1007/s00018-020-03560-5.

Chromosomal segregation in sperm of the Robertsonian translocation (21;22) carrier and its impact on IVF outcome.

Vujisic S, Korac P, Pavlica M, Vujnovic N, Dmitrovic R J Assist Reprod Genet. 2019; 37(1):231-238.

PMID: 31834537 PMC: 7000580. DOI: 10.1007/s10815-019-01648-x.