Abstract EN:

Human infertility affects 10-15% of couples worldwide and represents a major health issue. Although multifactorial, male infertility has a strong genetic basis which has so far not been fully deciphered. Recent studies of consanguineous families and of small cohorts of phenotypically homogeneous patients have however allowed the identification of new genes causing teratozoospermia, including globozoospermia and macrozoospermia. Globozoospermia is a rare and severe form of teratozoospermia characterized by the presence in the ejaculate of a large majority of round spermatozoa lacking the acrosome. Genetic defects of DPY19L2 represent the main cause of this teratozoospermia by preventing the anchoring of the acrosome to the nucleus. Patients with large-headed multiflagellar spermatozoa, named also macrozoospermia or macrocephalic sperm head syndrome, present with a primary infertility characterized by the presence in the ejaculate of 100% abnormal spermatozoa with an oversized irregular head, abnormal midpiece and acrosome, and multiple flagella. Homozygous mutations of aurora kinase C (AURKC) are responsible for most cases of macrozoospermia. Neverthless 20 to 30% of patients with macrozoopsermia and globozoospermia remain without known genetic causes sugesting that these phenotypes are genetically heterogeneous. The purpose of this study is to identify new genes responsible for globozoospermia and macrozoospermia to improve the management and genetic counseling of these patients, on the one hand, and to explore the three-dimensional (3D) organization of sperm genome in DPY19L2-deficient globozoospermic patients speculating a role for Dpy19l2 in genome organization of sperm nucleus, on the other hand. We screened for DPY19L2 deletion and mutations, as well as mutations in SPATA16 in a cohort of 10 Tunisian and European globozoospermic patients. Molecular analyses performed on 9 genetically independent individuals showed that four (40%) were homozygous for the DPY19L2 deletion, two were heterozygous for the deletion and a new non-synonymous mutation (p.R 686G) in exon 21, and no DPY19L2 or SPATA16 mutations were identified for 4 patients. Because Dpy19l2 protein has been shown to be localized in the inner nuclear membrane and was suggested to have a LINC-like function, we hypothesized that a functional defect of this protein may induce an altered chromatin packaging in DPY19L2-deficient globozoospermic human sperm nuclei. Study of chromatin organization in DPY19L2-deficient globozoospermic patients and healthy donors using three-dimensional fluorescence in situ hybridization (3D-FISH) showed that the absence of Dpy19l2 leads to a disturbance of the overall sperm nuclear architecture. Dpy19l2-deficient nuclei had a altered organization of the chromocenter resulting in an increased number of chromocenters, and an altered spatial organisation of telomeric regions and chromosome territories (CTs). Our findings strengthen the hypothesis that Dpy19l2 might be considered as a LINC-like protein having a crucial role in the organization of nuclear chromatin in sperm nucleus through its interaction with nuclear lamina. Our results might also explain defective embryonic development after intracytoplasmic sperm injection (ICSI) performed with DPY19L2-deficient globozoospermic sperm. Genetic screening for AURKC mutations in a cohort of 23 Tunisian and European macrozoospermic patients, showed that 18 patients had the most frequent recurrent mutation (c.144delC) and two patients had the second most frequent mutation (p.Y248X). Exome sequencing was performed for the remaining three macrozoospermic patiens without AURKC mutations. Bioinformatic analyses showed a new homozygous non-synonymous mutation in a candidate gene, TNKS1BP1, highly expressed in testis and implicated in control of cell cycle, mitosis and meiosis.