Your search keyword '"A, Bashamboo"' showing total 554 results

1. Evidence for NR2F2/COUP-TFII involvement in human testis development

Author

Wankanit, Somboon, Zidoune, Housna, Bignon-Topalovic, Joëlle, Schlick, Laurène, Houzelstein, Denis, Fusée, Leila, Boukri, Asma, Nouri, Nassim, McElreavey, Ken, Bashamboo, Anu, and Elzaiat, Maëva

Published

2024

2. A conserved NR5A1-responsive enhancer regulates SRY in testis-determination

Author

Houzelstein, Denis, Eozenou, Caroline, Lagos, Carlos F., Elzaiat, Maëva, Bignon-Topalovic, Joelle, Gonzalez, Inma, Laville, Vincent, Schlick, Laurène, Wankanit, Somboon, Madon, Prochi, Kirtane, Jyotsna, Athalye, Arundhati, Buonocore, Federica, Bigou, Stéphanie, Conway, Gerard S., Bohl, Delphine, Achermann, John C., Bashamboo, Anu, and McElreavey, Ken

Published

2024

3. Evidence for NR2F2/COUP-TFII involvement in human testis development

Author

Somboon Wankanit, Housna Zidoune, Joëlle Bignon-Topalovic, Laurène Schlick, Denis Houzelstein, Leila Fusée, Asma Boukri, Nassim Nouri, Ken McElreavey, Anu Bashamboo, and Maëva Elzaiat

Subjects

NR2F2, COUP-TFII, Sex determination, 46,XY disorders/differences of sex development/differentiation (DSD), Under-virilization, Medicine, Science

Abstract

Abstract NR2F2 encodes COUP-TFII, an orphan nuclear receptor required for the development of the steroidogenic lineages of the murine fetal testes and ovaries. Pathogenic variants in human NR2F2 are associated with testis formation in 46,XX individuals, however, the function of COUP-TFII in the human testis is unknown. We report a de novo heterozygous variant in NR2F2 (c.737G > A, p.Arg246His) in a 46,XY under-masculinized boy with primary hypogonadism. The variant, located within the ligand-binding domain, is predicted to be highly damaging. In vitro studies indicated that the mutation does not impact the stability or subcellular localization of the protein. NR5A1, a related nuclear receptor that is a key factor in gonad formation and function, is known to physically interact with COUP-TFII to regulate gene expression. The mutant protein did not affect the physical interaction with NR5A1. However, in-vitro assays demonstrated that the mutant protein significantly loses the inhibitory effect on NR5A1-mediated activation of both the LHB and INSL3 promoters. The data support a role for COUP-TFII in human testis formation. Although mutually antagonistic sets of genes are known to regulate testis and ovarian pathways, we extend the list of genes, that together with NR5A1 and WT1, are associated with both 46,XX and 46,XY DSD.

Published

2024

4. A conserved NR5A1-responsive enhancer regulates SRY in testis-determination

Author

Denis Houzelstein, Caroline Eozenou, Carlos F. Lagos, Maëva Elzaiat, Joelle Bignon-Topalovic, Inma Gonzalez, Vincent Laville, Laurène Schlick, Somboon Wankanit, Prochi Madon, Jyotsna Kirtane, Arundhati Athalye, Federica Buonocore, Stéphanie Bigou, Gerard S. Conway, Delphine Bohl, John C. Achermann, Anu Bashamboo, and Ken McElreavey

Subjects

Science

Abstract

Abstract The Y-linked SRY gene initiates mammalian testis-determination. However, how the expression of SRY is regulated remains elusive. Here, we demonstrate that a conserved steroidogenic factor-1 (SF-1)/NR5A1 binding enhancer is required for appropriate SRY expression to initiate testis-determination in humans. Comparative sequence analysis of SRY 5’ regions in mammals identified an evolutionary conserved SF-1/NR5A1-binding motif within a 250 bp region of open chromatin located 5 kilobases upstream of the SRY transcription start site. Genomic analysis of 46,XY individuals with disrupted testis-determination, including a large multigenerational family, identified unique single-base substitutions of highly conserved residues within the SF-1/NR5A1-binding element. In silico modelling and in vitro assays demonstrate the enhancer properties of the NR5A1 motif. Deletion of this hemizygous element by genome-editing, in a novel in vitro cellular model recapitulating human Sertoli cell formation, resulted in a significant reduction in expression of SRY. Therefore, human NR5A1 acts as a regulatory switch between testis and ovary development by upregulating SRY expression, a role that may predate the eutherian radiation. We show that disruption of an enhancer can phenocopy variants in the coding regions of SRY that cause human testis dysgenesis. Since disease causing variants in enhancers are currently rare, the regulation of gene expression in testis-determination offers a paradigm to define enhancer activity in a key developmental process.

Published

2024

5. Additional evidence for the role of chromosomal imbalances and SOX8, ZNRF3 and HHAT gene variants in early human testis development

Author

Rjiba, Khouloud, Mougou-Zerelli, Soumaya, Hamida, Imen hadj, Saad, Ghada, Khadija, Bochra, Jelloul, Afef, Slimani, Wafa, Hasni, Yosra, Dimassi, Sarra, khelifa, Hela Ben, Sallem, Amira, Kammoun, Molka, Abdallah, Hamza Hadj, Gribaa, Moez, Bignon-Topalovic, Joelle, Chelly, Sami, Khairi, Hédi, Bibi, Mohamed, Kacem, Maha, Saad, Ali, Bashamboo, Anu, and McElreavey, Kenneth

Published

2023

6. Variants in SART3 cause a spliceosomopathy characterised by failure of testis development and neuronal defects

Author

Katie L. Ayers, Stefanie Eggers, Ben N. Rollo, Katherine R. Smith, Nadia M. Davidson, Nicole A. Siddall, Liang Zhao, Josephine Bowles, Karin Weiss, Ginevra Zanni, Lydie Burglen, Shay Ben-Shachar, Jenny Rosensaft, Annick Raas-Rothschild, Anne Jørgensen, Ralf B. Schittenhelm, Cheng Huang, Gorjana Robevska, Jocelyn van den Bergen, Franca Casagranda, Justyna Cyza, Svenja Pachernegg, David K. Wright, Melanie Bahlo, Alicia Oshlack, Terrence J. O’Brien, Patrick Kwan, Peter Koopman, Gary R. Hime, Nadine Girard, Chen Hoffmann, Yuval Shilon, Amnon Zung, Enrico Bertini, Mathieu Milh, Bochra Ben Rhouma, Neila Belguith, Anu Bashamboo, Kenneth McElreavey, Ehud Banne, Naomi Weintrob, Bruria BenZeev, and Andrew H. Sinclair

Subjects

Science

Abstract

Abstract Squamous cell carcinoma antigen recognized by T cells 3 (SART3) is an RNA-binding protein with numerous biological functions including recycling small nuclear RNAs to the spliceosome. Here, we identify recessive variants in SART3 in nine individuals presenting with intellectual disability, global developmental delay and a subset of brain anomalies, together with gonadal dysgenesis in 46,XY individuals. Knockdown of the Drosophila orthologue of SART3 reveals a conserved role in testicular and neuronal development. Human induced pluripotent stem cells carrying patient variants in SART3 show disruption to multiple signalling pathways, upregulation of spliceosome components and demonstrate aberrant gonadal and neuronal differentiation in vitro. Collectively, these findings suggest that bi-allelic SART3 variants underlie a spliceosomopathy which we tentatively propose be termed INDYGON syndrome (Intellectual disability, Neurodevelopmental defects and Developmental delay with 46,XY GONadal dysgenesis). Our findings will enable additional diagnoses and improved outcomes for individuals born with this condition.

Published

2023

7. Additional evidence for the role of chromosomal imbalances and SOX8, ZNRF3 and HHAT gene variants in early human testis development

Author

Khouloud Rjiba, Soumaya Mougou-Zerelli, Imen hadj Hamida, Ghada Saad, Bochra Khadija, Afef Jelloul, Wafa Slimani, Yosra Hasni, Sarra Dimassi, Hela Ben khelifa, Amira Sallem, Molka Kammoun, Hamza Hadj Abdallah, Moez Gribaa, Joelle Bignon-Topalovic, Sami Chelly, Hédi Khairi, Mohamed Bibi, Maha Kacem, Ali Saad, Anu Bashamboo, and Kenneth McElreavey

Subjects

Disorders of sex development (DSD), 46,XY DSD, Cytogenetic abnormalities, Whole exome sequencing(WES), Gynecology and obstetrics, RG1-991, Reproduction, QH471-489

Abstract

Abstract Background Forty-six ,XY Differences/Disorders of Sex Development (DSD) are characterized by a broad phenotypic spectrum ranging from typical female to male with undervirilized external genitalia, or more rarely testicular regression with a typical male phenotype. Despite progress in the genetic diagnosis of DSD, most 46,XY DSD cases remain idiopathic. Methods To determine the genetic causes of 46,XY DSD, we studied 165 patients of Tunisian ancestry, who presented a wide range of DSD phenotypes. Karyotyping, candidate gene sequencing, and whole-exome sequencing (WES) were performed. Results Cytogenetic abnormalities, including a high frequency of sex chromosomal anomalies (85.4%), explained the phenotype in 30.9% (51/165) of the cohort. Sanger sequencing of candidate genes identified a novel pathogenic variant in the SRY gene in a patient with 46,XY gonadal dysgenesis. An exome screen of a sub-group of 44 patients with 46,XY DSD revealed pathogenic or likely pathogenic variants in 38.6% (17/44) of patients. Conclusion Rare or novel pathogenic variants were identified in the AR, SRD5A2, ZNRF3, SOX8, SOX9 and HHAT genes. Overall our data indicate a genetic diagnosis rate of 41.2% (68/165) in the group of 46,XY DSD.

Published

2023

8. Genetics of 46,XY gonadal dysgenesis

Author

Elzaiat, Maëva, McElreavey, Ken, and Bashamboo, Anu

Published

2022

9. Exome sequencing in 16 patients with pituitary stalk interruption syndrome: A monocentric study

Author

Raja Brauner, Joelle Bignon-Topalovic, Anu Bashamboo, and Ken McElreavey

Subjects

Medicine, Science

Published

2023

10. Mutations involving the SRY-related gene SOX8 are associated with a spectrum of human reproductive anomalies

Author

Portnoi, Marie-France, Dumargne, Marie-Charlotte, Rojo, Sandra, Witchel, Selma F, Duncan, Andrew J, Eozenou, Caroline, Bignon-Topalovic, Joelle, Yatsenko, Svetlana A, Rajkovic, Aleksandar, Reyes-Mugica, Miguel, Almstrup, Kristian, Fusee, Leila, Srivastava, Yogesh, Chantot-Bastaraud, Sandra, Hyon, Capucine, Louis-Sylvestre, Christine, Validire, Pierre, de Malleray Pichard, Caroline, Ravel, Celia, Christin-Maitre, Sophie, Brauner, Raja, Rossetti, Raffaella, Persani, Luca, Charreau, Eduardo H, Dain, Liliana, Chiauzzi, Violeta A, Mazen, Inas, Rouba, Hassan, Schluth-Bolard, Caroline, MacGowan, Stuart, McLean, WH Irwin, Patin, Etienne, Meyts, Ewa Rajpert-De, Jauch, Ralf, Achermann, John C, Siffroi, Jean-Pierre, McElreavey, Ken, and Bashamboo, Anu

Subjects

Rare Diseases, Contraception/Reproduction, Infertility, Clinical Research, Genetics, Aetiology, 2.1 Biological and endogenous factors, Reproductive health and childbirth, 46, XX Disorders of Sex Development, Adolescent, Child, Disorder of Sex Development, 46, XY, Female, Humans, Male, Mutation, Missense, Oligospermia, Primary Ovarian Insufficiency, SOXE Transcription Factors, Biological Sciences, Medical and Health Sciences, Genetics & Heredity

Abstract

SOX8 is an HMG-box transcription factor closely related to SRY and SOX9. Deletion of the gene encoding Sox8 in mice causes reproductive dysfunction but the role of SOX8 in humans is unknown. Here, we show that SOX8 is expressed in the somatic cells of the early developing gonad in the human and influences human sex determination. We identified two individuals with 46, XY disorders/differences in sex development (DSD) and chromosomal rearrangements encompassing the SOX8 locus and a third individual with 46, XY DSD and a missense mutation in the HMG-box of SOX8. In vitro functional assays indicate that this mutation alters the biological activity of the protein. As an emerging body of evidence suggests that DSDs and infertility can have common etiologies, we also analysed SOX8 in a cohort of infertile men (n = 274) and two independent cohorts of women with primary ovarian insufficiency (POI; n = 153 and n = 104). SOX8 mutations were found at increased frequency in oligozoospermic men (3.5%; P

Published

2018

11. Testis formation in XX individuals resulting from novel pathogenic variants in Wilms’ tumor 1 ( WT1 ) gene

Author

Eozenou, Caroline, Gonen, Nitzan, Touzon, Maria Sol, Jorgensen, Anne, Yatsenko, Svetlana A., Fusee, Leila, Kamel, Alaa K., Gellen, Balazs, Guercio, Gabriela, Singh, Priti, Witchel, Selma, Berman, Andrea J., Mainpal, Rana, Totonchi, Mehdi, Meybodi, Anahita Mohseni, Askari, Masomeh, Merel-Chali, Tiphanie, Bignon-Topalovic, Joelle, Migale, Roberta, Costanzo, Mariana, Marino, Roxana, Ramirez, Pablo, Garrido, Natalia Perez, Berensztein, Esperanza, Mekkawy, Mona K., Schimenti, John C., Bertalan, Rita, Mazen, Inas, McElreavey, Ken, Belgorosky, Alicia, Lovell-Badge, Robin, Rajkovic, Aleksandar, and Bashamboo, Anu

Published

2020

12. Author Correction: Variants in SART3 cause a spliceosomopathy characterised by failure of testis development and neuronal defects

Author

Katie L. Ayers, Stefanie Eggers, Ben N. Rollo, Katherine R. Smith, Nadia M. Davidson, Nicole A. Siddall, Liang Zhao, Josephine Bowles, Karin Weiss, Ginevra Zanni, Lydie Burglen, Shay Ben-Shachar, Jenny Rosensaft, Annick Raas-Rothschild, Anne Jørgensen, Ralf B. Schittenhelm, Cheng Huang, Gorjana Robevska, Jocelyn van den Bergen, Franca Casagranda, Justyna Cyza, Svenja Pachernegg, David K. Wright, Melanie Bahlo, Alicia Oshlack, Terrence J. O’Brien, Patrick Kwan, Peter Koopman, Gary R. Hime, Nadine Girard, Chen Hoffmann, Yuval Shilon, Amnon Zung, Enrico Bertini, Mathieu Milh, Bochra Ben Rhouma, Neila Belguith, Anu Bashamboo, Kenneth McElreavey, Ehud Banne, Naomi Weintrob, Bruria BenZeev, and Andrew H. Sinclair

Subjects

Science

Published

2023

13. The evolving role of whole-exome sequencing in the management of disorders of sex development

Author

Yardena Tenenbaum-Rakover, Osnat Admoni, Ghadir Elias-Assad, Shira London, Marie Noufi-Barhoum, Hanna Ludar, Tal Almagor, Yoav Zehavi, Charles Sultan, Rita Bertalan, Anu Bashamboo, and Kenneth McElreavey

Subjects

disorders of sex development, whole-exome sequencing, bone morphogenetic protein 4, insulin-like 3 hormone receptor, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Objective: Disorders of sex development (DSD) are defined as congenital co nditions in which the development of chromosomal, gonadal and anatomical sex is atypical. Despite wide laboratory and imaging investigations, the etiology of DSD is unknown in over 50% of patients. Methods: We evaluated the etiology of DSD by whole-exome sequencing (WES) at a mean age of 10 years in nine patients for whom extensive evaluation, including hormonal, imaging and candidate gene approaches, had not identified an eti ology. Results: The eight 46,XY patients presented with micropenis, cryptorchidism and hypospadias at birth and the 46,XX patient presented with labia majora fusion. In seven patients (78%), pathogenic variants were identified for RXFP2, HSD17B3, WT1, BMP4, POR, CHD7 and SIN3A. In two atients, no causative variants were found. Mutations in three genes were reported previously with different phenotypes: an 11- year-old boy with a novel de novo variant in BMP4; such variants are mainly associated with microphthalmia and in few cases with external genitalia anomalies in males, supporting the role of BMP4 in the development of male external genitalia; a 12-year-old boy with a known pathogenic variant in RXFP2, encoding insulin-like 3 hormone receptor, and previously reported in adult men with cryptorchidism; an 8-year-old boy with syndromic DSD had a de novo deletion in SIN3A. Conclusions: Our findings of molecular etiologies for DSD in 78% of our patie nts indicate a major role for WES in early DSD diagnosis and management – and highlights the importance of rapid molecular diagnosis in early infancy for sex of rearing decisions.

Published

2021

14. Novel Genomic Variants, Atypical Phenotypes and Evidence of a Digenic/Oligogenic Contribution to Disorders/Differences of Sex Development in a Large North African Cohort

Author

Housna Zidoune, Asmahane Ladjouze, Djalila Chellat-Rezgoune, Asma Boukri, Scheher Aman Dib, Nassim Nouri, Meryem Tebibel, Karima Sifi, Noureddine Abadi, Dalila Satta, Yasmina Benelmadani, Joelle Bignon-Topalovic, Maeva El-Zaiat-Munsch, Anu Bashamboo, and Ken McElreavey

Subjects

disorders/differences in sex development (DSD), gonadal dysgenesis, genetic etiology, digenic/oligogenic, testis, ovary, Genetics, QH426-470

Abstract

In a majority of individuals with disorders/differences of sex development (DSD) a genetic etiology is often elusive. However, new genes causing DSD are routinely reported and using the unbiased genomic approaches, such as whole exome sequencing (WES) should result in an increased diagnostic yield. Here, we performed WES on a large cohort of 125 individuals all of Algerian origin, who presented with a wide range of DSD phenotypes. The study excluded individuals with congenital adrenal hypoplasia (CAH) or chromosomal DSD. Parental consanguinity was reported in 36% of individuals. The genetic etiology was established in 49.6% (62/125) individuals of the total cohort, which includes 42.2% (35/83) of 46, XY non-syndromic DSD and 69.2% (27/39) of 46, XY syndromic DSD. No pathogenic variants were identified in the 46, XX DSD cases (0/3). Variants in the AR, HSD17B3, NR5A1 and SRD5A2 genes were the most common causes of DSD. Other variants were identified in genes associated with congenital hypogonadotropic hypogonadism (CHH), including the CHD7 and PROKR2. Previously unreported pathogenic/likely pathogenic variants (n = 30) involving 25 different genes were identified in 22.4% of the cohort. Remarkably 11.5% of the 46, XY DSD group carried variants classified as pathogenic/likely pathogenic variant in more than one gene known to cause DSD. The data indicates that variants in PLXNA3, a candidate CHH gene, is unlikely to be involved in CHH. The data also suggest that NR2F2 variants may cause 46, XY DSD.

Published

2022

15. Disorders of Sex Development in a Large Ukrainian Cohort: Clinical Diversity and Genetic Findings

Author

Evgenia Globa, Natalia Zelinska, Yulia Shcherbak, Joelle Bignon-Topalovic, Anu Bashamboo, and Ken MсElreavey

Subjects

46,XY and 46,XX disorders of sex development, genes, karyotype, phenotype, whole exome sequencing (WES), Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

BackgroundThe clinical profile and genetics of individuals with Disorders/Differences of Sex Development (DSD) has not been reported in Ukraine.Materials and MethodsWe established the Ukrainian DSD Register and identified 682 DSD patients. This cohort includes, 357 patients (52.3% [303 patients with Turner syndrome)] with sex chromosome DSD, 119 (17.5%) with 46,XY DSD and 206 (30.2%) with 46,XX DSD. Patients with sex chromosome DSD and congenital adrenal hyperplasia (CAH, n=185) were excluded from further studies. Fluorescence in situ hybridization (FISH) was performed for eight 46,XX boys. 79 patients underwent Whole Exome Sequencing (WES).ResultsThe majority of patients with 46,XY and 46,XX DSD (n=140), were raised as female (56.3% and 61.9% respectively). WES (n=79) identified pathogenic (P) or likely pathogenic (LP) variants in 43% of the cohort. P/LP variants were identified in the androgen receptor (AR) and NR5A1 genes (20.2%). Variants in other DSD genes including AMHR2, HSD17B3, MYRF, ANOS1, FGFR11, WT1, DHX37, SRD5A1, GATA4, TBCE, CACNA1A and GLI2 were identified in 22.8% of cases. 83.3% of all P/LP variants are novel. 35.3% of patients with a genetic diagnosis had an atypical clinical presentation. A known pathogenic variant in WDR11, which was reported to cause congenital hypogonadotropic hypogonadism (CHH), was identified in individuals with primary hypogonadism.ConclusionsWES is a powerful tool to identify novel causal variants in patients with DSD, including a significant minority that have an atypical clinical presentation. Our data suggest that heterozygous variants in the WDR11 gene are unlikely to cause of CHH.

Published

2022

16. Evidence forNR2F2/COUP-TFII involvement in human testis development

Author

Wankanit, Somboon, primary, Zidoune, Housna, additional, Bignon-Topalovic, Joëlle, additional, Schlick, Laurène, additional, Houzelstein, Denis, additional, Fusée, Leila, additional, Boukri, Asma, additional, Nouri, Nassim, additional, McElreavey, Ken, additional, Bashamboo, Anu, additional, and Elzaiat, Maëva, additional

Published

2024

17. A recurrent p.Arg92Trp variant in steroidogenic factor-1 (NR5A1) can act as a molecular switch in human sex development.

Author

Bashamboo, Anu, Donohoue, Patricia, Vilain, Eric, Rojo, Sandra, Calvel, Pierre, Seneviratne, Sumudu, Buonocore, Federica, Barseghyan, Hayk, Bingham, Nathan, Rosenfeld, Jill, Mulukutla, Surya, Jain, Mahim, Burrage, Lindsay, Dhar, Shweta, Balasubramanyam, Ashok, Lee, Brendan, Dumargne, Marie-Charlotte, Eozenou, Caroline, Suntharalingham, Jenifer, de Silva, Ksh, Lin, Lin, Bignon-Topalovic, Joelle, Poulat, Francis, Lagos, Carlos, McElreavey, Ken, and Achermann, John

Subjects

Adult, Androgen-Insensitivity Syndrome, Cell Lineage, Child, DNA-Binding Proteins, Disorder of Sex Development, 46, XY, Female, Gonads, Humans, Karyotype, Male, Mutation, Missense, Ovary, Pedigree, Primary Ovarian Insufficiency, Sex Determination Processes, Sexual Development, Steroidogenic Factor 1, Testis

Abstract

Cell lineages of the early human gonad commit to one of the two mutually antagonistic organogenetic fates, the testis or the ovary. Some individuals with a 46,XX karyotype develop testes or ovotestes (testicular or ovotesticular disorder of sex development; TDSD/OTDSD), due to the presence of the testis-determining gene, SRY Other rare complex syndromic forms of TDSD/OTDSD are associated with mutations in pro-ovarian genes that repress testis development (e.g. WNT4); however, the genetic cause of the more common non-syndromic forms is unknown. Steroidogenic factor-1 (known as NR5A1) is a key regulator of reproductive development and function. Loss-of-function changes in NR5A1 in 46,XY individuals are associated with a spectrum of phenotypes in humans ranging from a lack of testis formation to male infertility. Mutations in NR5A1 in 46,XX women are associated with primary ovarian insufficiency, which includes a lack of ovary formation, primary and secondary amenorrhoea as well as early menopause. Here, we show that a specific recurrent heterozygous missense mutation (p.Arg92Trp) in the accessory DNA-binding region of NR5A1 is associated with variable degree of testis development in 46,XX children and adults from four unrelated families. Remarkably, in one family a sibling raised as a girl and carrying this NR5A1 mutation was found to have a 46,XY karyotype with partial testicular dysgenesis. These unique findings highlight how a specific variant in a developmental transcription factor can switch organ fate from the ovary to testis in mammals and represents the first missense mutation causing isolated, non-syndromic 46,XX testicular/ovotesticular DSD in humans.

Published

2016

18. Exome sequencing in 16 patients with pituitary stalk interruption syndrome: A monocentric study

Author

Brauner, Raja, primary, Bignon-Topalovic, Joelle, additional, Bashamboo, Anu, additional, and McElreavey, Ken, additional

Published

2023

19. Pathogenic variants in the DEAH-box RNA helicase DHX37 are a frequent cause of 46,XY gonadal dysgenesis and 46,XY testicular regression syndrome

Author

McElreavey, Ken, Jorgensen, Anne, Eozenou, Caroline, Merel, Tiphanie, Bignon-Topalovic, Joelle, Tan, Daisylyn Senna, Houzelstein, Denis, Buonocore, Federica, Warr, Nick, Kay, Raissa G. G., Peycelon, Matthieu, Siffroi, Jean-Pierre, Mazen, Inas, Achermann, John C., Shcherbak, Yuliya, Leger, Juliane, Sallai, Agnes, Carel, Jean-Claude, Martinerie, Laetitia, Le Ru, Romain, Conway, Gerard S., Mignot, Brigitte, Van Maldergem, Lionel, Bertalan, Rita, Globa, Evgenia, Brauner, Raja, Jauch, Ralf, Nef, Serge, Greenfield, Andy, and Bashamboo, Anu

Published

2020

20. Oligogenic Inheritance Underlying Incomplete Penetrance of PROKR2 Mutations in Hypogonadotropic Hypogonadism

Author

Rahma Mkaouar, Lamia Cherif Ben Abdallah, Chokri Naouali, Saida Lahbib, Zinet Turki, Sahar Elouej, Yosra Bouyacoub, Maali Somai, Kenneth Mcelreavey, Anu Bashamboo, Sonia Abdelhak, and Olfa Messaoud

Subjects

hypogonadotropic hypogonadism, Kallmann syndrome, oligogenism, pathogenic combination, digenic score, Genetics, QH426-470

Abstract

The role of the prokineticin 2 pathway in human reproduction, olfactory bulb morphogenesis, and gonadotropin-releasing hormone secretion is well established. Recent studies have highlighted the implication of di/oligogenic inheritance in this disorder. In the present study, we aimed to identify the genetic mechanisms that could explain incomplete penetrance in hypogonadotropic hypogonadism (HH). This study involved two unrelated Tunisian patients with HH, which was triggered by identifying a homozygous p.(Pro290Ser) mutation in the PROKR2 gene in a girl (HH1) with Kallmann syndrome (KS). The functional effect of this variant has previously been well demonstrated. Unexpectedly, her unaffected father (HH1P) and brother (HH1F) also carried this genetic variation at a homozygous state. In the second family, we identified a heterozygous p.(Lys205del) mutation in PROKR2, both in a male patient with normosmic idiopathic IHH (HH12) and his asymptomatic mother. Whole-exome sequencing in the three HH1 family members allowed the identification of additional variants in the prioritized genes. We then carried out digenic combination predictions using the oligogenic resource for variant analysis (ORVAL) software. For HH1, we found the highest number of disease-causing variant pairs. Notably, a CCDC141 variant (c.2803C > T) was involved in 18 pathogenic digenic combinations. The CCDC141 variant acts in an autosomal recessive inheritance mode, based on the digenic effect prediction data. For the second patient (HH12), prediction by ORVAL allowed the identification of an interesting pathogenic digenic combination between DUSP6 and SEMA7A genes, predicted as “dual molecular diagnosis.” The SEMA7A variant p.(Glu436Lys) is novel and predicted as a VUS by Varsome. Sanger validation revealed the absence of this variant in the healthy mother. We hypothesize that disease expression in HH12 could be induced by the digenic transmission of the SEMA7A and DUSP6 variants or a monogenic inheritance involving only the SEMA7A VUS if further functional assays allow its reclassification into pathogenic. Our findings confirm that homozygous loss-of-function genetic variations are insufficient to cause KS, and that oligogenism is most likely the main transmission mode involved in Congenital Hypogonadotropic Hypogonadism.

Published

2021

21. Variants in SART3 cause a spliceosomopathy characterised by failure of testis development and neuronal defects

Author

Ayers, Katie, Eggers, Stefanie, Rollo, Ben, Smith, Katherine, Davidson, Nadia, Siddall, Nicole, Zhao, Liang, Bowles, Josephine, Weiss, Karin, Zanni, Ginevra, Burglen, Lydie, Ben-Shachar, Shay, Rosensaft, Jenny, Raas-Rothschild, Annick, Jørgensen, Anne, Schittenhelm, Ralf, Huang, Cheng, Robevska, Gorjana, van den Bergen, Jocelyn, Casagranda, Franca, Cyza, Justyna, Pachernegg, Svenja, Wright, David, Bahlo, Melanie, Oshlack, Alicia, O'Brien, Terrence, Kwan, Patrick, Koopman, Peter, Hime, Gary, Girard, Nadine, Hoffmann, Chen, Shilon, Yuval, Zung, Amnon, Bertini, Enrico, Milh, Mathieu, Ben Rhouma, Bochra, Belguith, Neila, Bashamboo, Anu, Mcelreavey, Ken, Banne, Ehud, Weintrob, Naomi, Benzeev, Bruria, Sinclair, Andrew, Murdoch Children's Research Institute (MCRI), University of Melbourne, Victorian Clinical Genetics Services, Monash University [Melbourne], The Walter and Eliza Hall Institute of Medical Research (WEHI), University of Queensland [Brisbane], Technion - Israel Institute of Technology [Haifa], Bambino Gesù Children’s Hospital [Rome, Italy], CHU Trousseau [APHP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU), Génétique des Troubles du Neurodéveloppement = Developmental Brain Disorders Laboratory (Equipe Inserm U1163), Imagine - Institut des maladies génétiques (IHU) (Imagine - U1163), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris Cité (UPCité)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris Cité (UPCité), Tel Aviv Sourasky Medical Center [Te Aviv], The Hebrew University Hadassah Medical School, Chaim Sheba Medical Center, Tel Aviv University (TAU), Rigshospitalet [Copenhagen], Copenhagen University Hospital, Monash University [Clayton], Peter Mac Callum Cancer Centre, Service de pédiatrie et neurologie pédiatrique, Université de la Méditerranée - Aix-Marseille 2-Assistance Publique - Hôpitaux de Marseille (APHM)- Hôpital de la Timone [CHU - APHM] (TIMONE), Kaplan Medical Center [Rehovot, Israel], Université de Gabès, Université de Sfax - University of Sfax, Hôpital Charles Nicolle [Tunis], Génétique du Développement humain - Human developmental genetics, Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Wolfson Medical Center, This study was supported by a National Health and Medical Research Council (NHMRC) programme grant (1074258) awarded to AS, NHMRC project grant (1156942) (K.A.), a Medical Research Future Fund Stem Cells Mission grant (MRF1201781) (K.A., B.N.R. and P.Kw), an Australian Research Council Future Fellowship (FT100100764) to M.B., A NHMRC Investigator Grant (1174040) to D.W., Agence Nationale de la Recherche funding ANR-10-LABX-73 REVIVE, ANR-17-CE14-0038-01 and ANR 20 CE14 0007 to K.M., ANR-19-CE140022 and ANR-19-CE14-0012 to A.B., G.Z. and E.B. are members of the European Reference Network for Rare Neurological Diseases - Project ID No 739510., ANR-10-LABX-0073,REVIVE,Stem Cells in Regenerative Biology and Medicine(2010), ANR-20-CE14-0007,Goldilocks,Analyse intégrée du rôle du facteur de transcription SF-1 / NR5A1 et de ses gènes cibles dépendants du dosage dans la fonction gonadique et les troubles du développement sexuel (DSD)(2020), ANR-19-CE14-0022,SexDiff,Régulation de la détermination du sexe et de la différenciation ovarienne : implications dans les troubles du développement sexuel(2019), and ANR-19-CE14-0012,RNA-SEX,Fonction de l'ARN hélicase dans la détermination du sexe chez les vertébrés et les troubles du développement du sexe chez l'homme (DSD)(2019)

Subjects

MESH: Humans, MESH: RNA-Binding Proteins, MESH: Testis, [SDV]Life Sciences [q-bio], MESH: Gonadal Dysgenesis, MESH: Antigens, Neoplasm, MESH: Induced Pluripotent Stem Cells, MESH: Male, MESH: Intellectual Disability

Abstract

International audience; Squamous cell carcinoma antigen recognized by T cells 3 ( SART3 ) is an RNA-binding protein with numerous biological functions including recycling small nuclear RNAs to the spliceosome. Here, we identify recessive variants in SART3 in nine individuals presenting with intellectual disability, global developmental delay and a subset of brain anomalies, together with gonadal dysgenesis in 46,XY individuals. Knockdown of the Drosophila orthologue of SART3 reveals a conserved role in testicular and neuronal development. Human induced pluripotent stem cells carrying patient variants in SART3 show disruption to multiple signalling pathways, upregulation of spliceosome components and demonstrate aberrant gonadal and neuronal differentiation in vitro. Collectively, these findings suggest that bi-allelic SART3 variants underlie a spliceosomopathy which we tentatively propose be termed INDYGON syndrome ( I ntellectual disability, N eurodevelopmental defects and D evelopmental delay with 46,X Y GON adal dysgenesis). Our findings will enable additional diagnoses and improved outcomes for individuals born with this condition.

Published

2023

22. ZNRF3 functions in mammalian sex determination by inhibiting canonical WNT signaling

Author

Harris, Abigail, Siggers, Pam, Corrochano, Silvia, Warr, Nick, Sagar, Danielle, Grimes, Daniel T., Suzuki, Makoto, Burdine, Rebecca D., Cong, Feng, Koo, Bon-Kyoung, Clevers, Hans, Stévant, Isabelle, Nef, Serge, Wells, Sara, Brauner, Raja, Rhouma, Bochra Ben, Belguith, Neïla, Eozenou, Caroline, Bignon-Topalovic, Joelle, Bashamboo, Anu, McElreavey, Ken, and Greenfield, Andy

Published

2018

23. Peripheral Precocious Puberty of Ovarian Origin in a Series of 18 Girls: Exome Study Finds Variants in Genes Responsible for Hypogonadotropic Hypogonadism

Author

Raja Brauner, Joelle Bignon-Topalovic, Anu Bashamboo, and Ken McElreavey

Subjects

genetic variant, hypogonadotropic hypogonadism, ovarian cyst, precocious puberty, prenatal ovarian cyst, Pediatrics, RJ1-570

Abstract

Background: Peripheral precocious puberty of ovarian origin is a very rare condition compared to central form. It may be associated with an isolated ovarian cyst (OC). The causes of OC in otherwise healthy prepubertal girls is currently unknown.Methods: Exome sequencing was performed on a cohort of 18 unrelated girls presenting with prenatal and/or prepubertal OC at pelvic ultrasonography. The presenting symptom was prenatal OC in 5, breast development in 7 (with vaginal bleeding in 3) and isolated vaginal bleeding in 6. All had OC ≥ 10 mm. The girls had no other anomalies. Four patients had a familial history of ovarian anomalies and/or infertility.Results: In 9 girls (50%), candidate or known pathogenic variants were identified in genes associated with syndromic and non-syndromic forms of hypogonadotropic hypogonadism including PNPLA6, SEMA3A, TACR3, PROK2, KDM6A, KMT2D, OFD1, GNRH1, GNRHR, GLI3, INSR, CHD7, CDON, RNF216, PROKR2, GLI3, LEPR. Basal plasma concentrations of gonadotropins were undetectable and did not increase after gonadotropin-releasing hormone test in 3 of them whilst 5 had prepubertal values. The plasma estradiol concentrations were prepubertal in 6 girls, high (576 pmol/L) in one and not evaluated in 2 of them.Conclusions: In the first study reporting exome sequencing in prepubertal OC, half of the patients with OC carry either previously reported pathogenic variants or potentially pathogenic variants in genes known to be associated with isolated or syndromic forms of congenital hypogonadotropic hypogonadism. Functional studies and studies of other cohorts are recommended to establish the causality of these variants.

Published

2021

24. Whole Exome Sequencing allows the identification of two novel groups of Xeroderma pigmentosum in Tunisia, XP-D and XP-E: Impact on molecular diagnosis

Author

Ben Rekaya, Mariem, Naouali, Chokri, Messaoud, Olfa, Jones, Meriem, Bouyacoub, Yosra, Nagara, Majdi, Pippucci, Tommaso, Jmel, Haifa, Chargui, Mariem, Jerbi, Manel, Alibi, Mohamed, Dallali, Hamza, Bashamboo, Anu, McElreavey, Kenneth, Romeo, Giovanni, Barakat, Abdelhamid, Zghal, Mohamed, Yacoub-Youssef, Houda, and Abdelhak, Sonia

Published

2018

25. Distal renal tubular acidosis in a Libyan patient: Evidence for digenic inheritance

Author

Nagara, Majdi, Papagregoriou, Gregory, Ben Abdallah, Rim, Landoulsi, Zied, Bouyacoub, Yosra, Elouej, Sahar, Kefi, Rym, Pippucci, Tommaso, Voskarides, Konstantinos, Bashamboo, Anu, McElreavey, Kenneth, Hachicha, Mongia, Romeo, Giovanni, Seri, Marco, Deltas, Constantinos, and Abdelhak, Sonia

Published

2018

26. Identification of a missense variant in CLDN2 in obstructive azoospermia

Author

Askari, Masomeh, Karamzadeh, Razieh, Ansari-Pour, Naser, Karimi-Jafari, Mohammad Hossein, Almadani, Navid, Sadighi Gilani, Mohammad Ali, Gourabi, Hamid, Vosough Taghi Dizaj, Ahmad, Mohseni Meybodi, Anahita, Sadeghi, Mehdi, Bashamboo, Anu, McElreavey, Ken, and Totonchi, Mehdi

Published

2019

27. Pituitary stalk interruption syndrome is characterized by genetic heterogeneity.

Author

Raja Brauner, Joelle Bignon-Topalovic, Anu Bashamboo, and Ken McElreavey

Subjects

Medicine, Science

Abstract

Pituitary stalk interruption syndrome is a rare disorder characterized by an absent or ectopic posterior pituitary, interrupted pituitary stalk and anterior pituitary hypoplasia, as well as in some cases, a range of heterogeneous somatic anomalies. A genetic cause is identified in only around 5% of all cases. Here, we define the genetic variants associated with PSIS followed by the same pediatric endocrinologist. Exome sequencing was performed in 52 (33 boys and 19 girls), including 2 familial cases single center pediatric cases, among them associated 36 (69.2%) had associated symptoms or syndromes. We identified rare and novel variants in genes (37 families with 39 individuals) known to be involved in one or more of the following-midline development and/or pituitary development or function (BMP4, CDON, GLI2, GLI3, HESX1, KIAA0556, LHX9, NKX2-1, PROP1, PTCH1, SHH, TBX19, TGIF1), syndromic and non-syndromic forms of hypogonadotropic hypogonadism (CCDC141, CHD7, FANCA, FANCC, FANCD2, FANCE, FANCG, IL17RD, KISS1R, NSMF, PMM2, SEMA3E, WDR11), syndromic forms of short stature (FGFR3, NBAS, PRMT7, RAF1, SLX4, SMARCA2, SOX11), cerebellum atrophy with optic anomalies (DNMT1, NBAS), axonal migration (ROBO1, SLIT2), and agenesis of the corpus callosum (ARID1B, CC2D2A, CEP120, CSPP1, DHCR7, INPP5E, VPS13B, ZNF423). Pituitary stalk interruption syndrome is characterized by a complex genetic heterogeneity, that reflects a complex phenotypic heterogeneity. Seizures, intellectual disability, micropenis or cryptorchidism, seen at presentation are usually considered as secondary to the pituitary deficiencies. However, this study shows that they are due to specific gene mutations. PSIS should therefore be considered as part of the phenotypic spectrum of other known genetic syndromes rather than as specific clinical entity.

Published

2020

28. Steroidogenic Factor 1 (SF-1; NR5A1)

Author

McElreavey, Ken, primary and Bashamboo, Anu, additional

Published

2019

29. Cytogenetic and molecular diagnosis of Fanconi anemia revealed two hidden phenotypes: Disorder of sex development and cerebro‐oculo‐facio‐skeletal syndrome

Author

Abir Ben Haj Ali, Ahlem Amouri, Marwa Sayeb, Saloua Makni, Wajih Hammami, Chokri Naouali, Hamza Dallali, Lilia Romdhane, Anu Bashamboo, Kenneth McElreavey, Sonia Abdelhak, and Olfa Messaoud

Subjects

autozygosity mapping, Comorbidity, genetic counseling, incidental findings, whole exome sequencing, Genetics, QH426-470

Abstract

Abstract Background Several studies have shown a high rate of consanguinity and endogamy in North African populations. As a result, the frequency of autosomal recessive diseases is relatively high in the region with the co‐occurrence of two or more diseases. Methods We report here on a consanguineous Libyan family whose child was initially diagnosed as presenting Fanconi anemia (FA) with uncommon skeletal deformities. The chromosome breakage test has been performed using mitomycin C (MMC) while molecular analysis was performed by a combined approach of linkage analysis and whole exome sequencing. Results Cytogenetic analyses showed that the karyotype of the female patient is 46,XY suggesting the diagnosis of a disorder of sex development (DSD). By looking at the genetic etiology of FA and DSD, we have identified p.[Arg798*];[Arg798*] mutation in FANCJ (OMIM #605882) gene responsible for FA and p.[Arg108*];[Arg1497Trp] in EFCAB6 (Gene #64800) gene responsible for DSD. In addition, we have incidentally discovered a novel mutation p.[Gly1372Arg];[Gly1372Arg] in the ERCC6 (CSB) (OMIM #609413) gene responsible for COFS that might explain the atypical severe skeletal deformities. Conclusion The co‐occurrence of clinical and overlapping genetic heterogeneous entities should be taken into consideration for better molecular and genetic counseling.

Published

2019

30. In vitro cellular reprogramming to model gonad development and its disorders

Author

Gonen, Nitzan, primary, Eozenou, Caroline, additional, Mitter, Richard, additional, Elzaiat, Maëva, additional, Stévant, Isabelle, additional, Aviram, Rona, additional, Bernardo, Andreia Sofia, additional, Chervova, Almira, additional, Wankanit, Somboon, additional, Frachon, Emmanuel, additional, Commère, Pierre-Henri, additional, Brailly-Tabard, Sylvie, additional, Valon, Léo, additional, Barrio Cano, Laura, additional, Levayer, Romain, additional, Mazen, Inas, additional, Gobaa, Samy, additional, Smith, James C., additional, McElreavey, Kenneth, additional, Lovell-Badge, Robin, additional, and Bashamboo, Anu, additional

Published

2023

31. A Homozygous Missense Variant in Hedgehog Acyltransferase (HHAT) Gene Associated with 46,XY Gonadal Dysgenesis

Author

Inas, Mazen, Alaa, Kamel, Kenneth, McElreavey, Anu, Bashamboo, Aya, Elaidy, Mohamed S, Abdel-Hamid, National Research Centre - NRC (EGYPT), Génétique du Développement humain - Human developmental genetics, and Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité)

Subjects

Exome sequencing, MESH: Mutation, Missense, MESH: Humans, MESH: Mutation, [SDV]Life Sciences [q-bio], XY DSD, Missense variant, MESH: Hedgehog Proteins, MESH: Gonadal Dysgenesis, 46,XY, MESH: Acyltransferases, MESH: Phenotype, Hedgehog acyltransferase, MESH: Female, Egyptian patient, MESH: Homozygote

Abstract

International audience; Introduction: Disorders of gonadal development represent a clinically and genetically heterogeneous group of DSD, and the etiology in many cases remains unknown, indicating that our knowledge of factors controlling sex determination is still limited. Methods: We describe a 46,XY DSD patient from Egypt. The patient was reared as female, born to consanguineous parents, and was referred to us at the age of 5 years because of ambiguous genitalia. On examination, the girl was microcephalic (head circumference –3 SD), but her height and weight were normal for her age and sex. Results: Exome sequencing identified a homozygous variant in the hedgehog acyltransferase (HHAT) gene, which encodes an enzyme that is required for multimerization and signaling potency of the hedgehog secreted proteins. The variant is a novel homozygous missense change c.1329C>A (p.N443K), located within transmembrane domain 9, which segregated with the phenotype in the family. Discussion/Conclusion: Our results expand the phenotypic spectrum associated with HHAT variants to include 46,XY gonadal dysgenesis and reinforce the role of exome sequencing in unraveling new genes that play a pivotal role in sexual development.

Published

2023

32. Genetic Disorders of Sex Differentiation

Author

McElreavey, Ken, Bashamboo, Anu, New, Maria I., editor, and Simpson, Joe Leigh, editor

Published

2011

33. Expanding DSD phenotypes associated with variants in the DEAH-box RNA helicase DHX37

Author

Zidoune H, Martinerie L, Tan DS, Askari M, Rezgoune D, Ladjouze A, Boukri A, Benelmadani Y, Sifi K, Abadi N, Satta D, Rastari M, Seresht-Ahmadi M, Bignon-Topalovic J, Mazen I, Leger J, Simon D, Brauner R, Totonchi M, Jauch R, Bashamboo A, and McElreavey K

Subjects

General Economics, Econometrics and Finance

Published

2022

34. PMON275 GONAD-on-CHIP to study early gonad development and DSD

Author

Bashamboo, Anu, primary, Gonen, Nitzan, additional, Eozenou, Caroline, additional, Mitter, Richard, additional, Bernardo, Andreia Sofia, additional, Chervova, Almira Chervova, additional, Frachon, Emmanuel, additional, Commère, Pierre-Henri, additional, Brailly-Tabard, Sylvie, additional, Mazen, Inas, additional, Gobaa, Samy, additional, Smith, James, additional, McElreavey, Kenneth, additional, and Lovell-Badge, Robin, additional

Published

2022

35. Expanding DSD phenotypes associated with variants in the DEAH-box RNA helicase DHX37

Author

H, Zidoune, primary, L, Martinerie, additional, DS, Tan, additional, M, Askari, additional, D, Rezgoune, additional, A, Ladjouze, additional, A, Boukri, additional, Y, Benelmadani, additional, K, Sifi, additional, N, Abadi, additional, D, Satta, additional, M, Rastari, additional, M, Seresht-Ahmadi, additional, J, Bignon-Topalovic, additional, I, Mazen, additional, J, Leger, additional, D, Simon, additional, R, Brauner, additional, M, Totonchi, additional, R, Jauch, additional, A, Bashamboo, additional, and K, McElreavey, additional

Published

2022

36. Testis formation in XX individuals resulting from novel pathogenic variants in Wilms’ tumor 1 ( WT1 ) gene

Author

Masomeh Askari, Svetlana A. Yatsenko, Robin Lovell-Badge, Tiphanie Merel-Chali, Balázs Gellén, Nitzan Gonen, Leila Fusee, Rana Mainpal, Mariana Costanzo, Inas Mazen, Anu Bashamboo, Anahita Mohseni Meybodi, Esperanza Berensztein, Joelle Bignon-Topalovic, Caroline Eozenou, Natalia Perez Garrido, Alicia Belgorosky, Andrea J. Berman, Roberta Migale, Ken McElreavey, Rita Bertalan, Alaa K. Kamel, Mona K. Mekkawy, Maria Sol Touzon, Priti Singh, Pablo Ramirez, Gabriela Guercio, Aleksandar Rajkovic, Mehdi Totonchi, Selma F. Witchel, Roxana Marino, John C. Schimenti, Anne Jørgensen, Génétique du développement humain, Institut Pasteur [Paris], The Francis Crick Institute [London], The Mina & Everard Goodman Faculty of Life Sciences [Ramat Gan, Israël], Université Bar-Ilan [Israel], Hospital Nacional de Pediatría Prof. Dr Juan P. Garrahan [Buenos Aires], Copenhagen University Hospital, University of Pittsburgh (PITT), Pennsylvania Commonwealth System of Higher Education (PCSHE), National Research Centre - NRC (EGYPT), University of Szeged [Szeged], Cornell University [New York], Children's Hospital of Pittsburgh of UPMC [Etats-Unis], Royan Institute for Reproductive Biomedicine [Tehran, Iran], Semmelweis University [Budapest], University of California, Génétique du Développement humain - Human developmental genetics, Institut Pasteur [Paris]-Centre National de la Recherche Scientifique (CNRS), This work is supported by the European Cooperation in Science and Technology (COST) Action DSDnet BM1303 (to A. Bashamboo and K.M.). N.G and R.L.-B. are funded by the Francis Crick Institute. The Francis Crick Institute receives its core funding from Cancer Research UK Grant FC001107, UK Medical Research Council Grant FC001107, Wellcome Grant FC001107, and by UK Medical Research Council Grant U117512772. M.S.T. and A. Belgorosky are supported by PIDC-20160028 Fondo Nacional de Ciencia y Tecnologia, Argentina, Grant PICT-2013-0181y PICT2016-0214, Agencia Nacional para Ciencia y Tecnologia, Argentina, and Consejo Nacional de Investigaciones Cientificas y Tecnologicas, Argentina. A.R. is funded by NIH Grants R01HD070647 and R21HD074278. A.J. is funded by a research grant from the Svend Andersen Foundation and the Danish Government’s support to Department of Growth and Reproduction for the International Center for Research and Research Training in Endocrine Disruption of Male Reproduction and Child Health (EDMaRC) programme. A.J.B. is supported by NIH Grant GM116889 and American Cancer Society Research Scholar Grant RSG-17-1.97-01-RMC, We are grateful to the Biological Research Facility, Genetic Modification Service, and Experimental Histopathology Facilities of the Francis Crick Institute. We acknowledge Dr. László Tiszlavicz (Pathological Department, University of Szeged, Hungary) for the histological examination of Patients 5a and 5b and Dr. Alejandro Suárez-Bonnet (Experimental Histopathology at Francis Crick Institute) for pathology report on mouse embryonic kidneys., Institut Pasteur [Paris] (IP), Bar-Ilan University [Israël], University of California (UC), Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS), and ANR-17-CE14-0038,MGonDev,Etude des mécanismes du développement des gonades chez l'homme(2017)

Subjects

0301 basic medicine, Wt1 gene, Gonad, organogenesis, sex determination, 030209 endocrinology & metabolism, Biology, 03 medical and health sciences, 0302 clinical medicine, β-CATENIN, medicine, Gene, Exome sequencing, Zinc finger, Genetics, Multidisciplinary, urogenital system, Wilms' tumor, medicine.disease, XX TDSD/OTDSD, WT1, 030104 developmental biology, medicine.anatomical_structure, Testis determining factor, [SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics, Etiology

Abstract

International audience; Sex determination in mammals is governed by antagonistic interactions of two genetic pathways, imbalance in which may lead to disorders/differences of sex development (DSD) in human. Among 46,XX individuals with testicular DSD (TDSD) or ovotesticular DSD (OTDSD), testicular tissue is present in the gonad. Although the testis-determining gene SRY is present in many cases, the etiology is unknown in most SRY-negative patients. We performed exome sequencing on 78 individuals with 46,XX TDSD/OTDSD of unknown genetic etiology and identified seven (8.97%) with heterozygous variants affecting the fourth zinc finger (ZF4) of Wilms' tumor 1 (WT1) (p.Ser478Thrfs*17, p.Pro481Leufs*15, p.Lys491Glu, p.Arg495Gln [x3], p.Arg495Gly). The variants were de novo in six families (P = 4.4 × 10-6), and the incidence of WT1 variants in 46,XX DSD is enriched compared to control populations (P < 1.8 × 10-4). The introduction of ZF4 mutants into a human granulosa cell line resulted in up-regulation of endogenous Sertoli cell transcripts and Wt1 Arg495Gly/Arg495Gly XX mice display masculinization of the fetal gonads. The phenotype could be explained by the ability of the mutated proteins to physically interact with and sequester a key pro-ovary factor β-CATENIN, which may lead to up-regulation of testis-specific pathway. Our data show that unlike previous association of WT1 and 46,XY DSD, ZF4 variants of WT1 are a relatively common cause of 46,XX TDSD/OTDSD. This expands the spectrum of phenotypes associated with WT1 variants and shows that the WT1 protein affecting ZF4 can function as a protestis factor in an XX chromosomal context.

Published

2020

37. Consanguinity and Disorders of Sex Development

Author

Bashamboo, Anu and McElreavey, Ken

Published

2014

38. The evolving role of whole-exome sequencing in the management of disorders of sex development

Author

Ghadir Elias-Assad, Osnat Admoni, Shira London, Tal Almagor, Ken McElreavey, Marie Noufi-Barhoum, Rita Bertalan, Anu Bashamboo, Yoav Zehavi, Yardena Tenenbaum-Rakover, Hanna Ludar, Charles Sultan, Ha’Emek Medical Center [Afula, Israel], Pediatric Endocrine Institute [Afula, Israel], Rappaport faculty of Medicine, Technion - Israel Institute of Technology [Haifa], Azrieli Faculty of Medicine [Israel], Centre Hospitalier Régional Universitaire [Montpellier] (CHRU Montpellier), Génétique du Développement humain - Human developmental genetics, and Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0301 basic medicine, Candidate gene, disorders of sex development, insulin-like 3 hormone receptor, [SDV]Life Sciences [q-bio], Endocrinology, Diabetes and Metabolism, bone morphogenetic protein 4, 030209 endocrinology & metabolism, Bioinformatics, Microphthalmia, Diseases of the endocrine glands. Clinical endocrinology, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Internal Medicine, medicine, Disorders of sex development, whole-exome sequencing, Exome sequencing, business.industry, Research, Micropenis, Labia majora, medicine.disease, RC648-665, 030104 developmental biology, medicine.anatomical_structure, Hypospadias, Etiology, business

Abstract

Objective Disorders of sex development (DSD) are defined as congenital conditions in which the development of chromosomal, gonadal and anatomical sex is atypical. Despite wide laboratory and imaging investigations, the etiology of DSD is unknown in over 50% of patients. Methods We evaluated the etiology of DSD by whole-exome sequencing (WES) at a mean age of 10 years in nine patients for whom extensive evaluation, including hormonal, imaging and candidate gene approaches, had not identified an etiology. Results The eight 46,XY patients presented with micropenis, cryptorchidism and hypospadias at birth and the 46,XX patient presented with labia majora fusion. In seven patients (78%), pathogenic variants were identified for RXFP2, HSD17B3, WT1, BMP4, POR, CHD7 and SIN3A. In two atients, no causative variants were found. Mutations in three genes were reported previously with different phenotypes: an 11-year-old boy with a novel de novo variant in BMP4; such variants are mainly associated with microphthalmia and in few cases with external genitalia anomalies in males, supporting the role of BMP4 in the development of male external genitalia; a 12-year-old boy with a known pathogenic variant in RXFP2, encoding insulin-like 3 hormone receptor, and previously reported in adult men with cryptorchidism; an 8-year-old boy with syndromic DSD had a de novo deletion in SIN3A. Conclusions Our findings of molecular etiologies for DSD in 78% of our patients indicate a major role for WES in early DSD diagnosis and management – and highlights the importance of rapid molecular diagnosis in early infancy for sex of rearing decisions.

Published

2021

39. A Homozygous Missense Variant in Hedgehog Acyltransferase (HHAT) Gene Associated with 46,XY Gonadal Dysgenesis.

Author

Mazen, Inas, Kamel, Alaa, McElreavey, Kenneth, Bashamboo, Anu, Elaidy, Aya, and Abdel-Hamid, Mohamed S.

Subjects

MISSENSE mutation, GONADAL dysgenesis, ACYLTRANSFERASES, SEX determination, TRANSMEMBRANE domains

Abstract

Introduction: Disorders of gonadal development represent a clinically and genetically heterogeneous group of DSD, and the etiology in many cases remains unknown, indicating that our knowledge of factors controlling sex determination is still limited. Methods: We describe a 46,XY DSD patient from Egypt. The patient was reared as female, born to consanguineous parents, and was referred to us at the age of 5 years because of ambiguous genitalia. On examination, the girl was microcephalic (head circumference –3 SD), but her height and weight were normal for her age and sex. Results: Exome sequencing identified a homozygous variant in the hedgehog acyltransferase (HHAT) gene, which encodes an enzyme that is required for multimerization and signaling potency of the hedgehog secreted proteins. The variant is a novel homozygous missense change c.1329C>A (p.N443K), located within transmembrane domain 9, which segregated with the phenotype in the family. Discussion/Conclusion: Our results expand the phenotypic spectrum associated with HHAT variants to include 46,XY gonadal dysgenesis and reinforce the role of exome sequencing in unraveling new genes that play a pivotal role in sexual development. [ABSTRACT FROM AUTHOR]

Published

2023

40. Novel Genomic Variants, Atypical Phenotypes and Evidence of a Digenic/Oligogenic Contribution to Disorders/Differences of Sex Development in a Large North African Cohort

Author

Zidoune, Housna, Ladjouze, Asmahane, Chellat-Rezgoune, Djalila, Boukri, Asma, Dib, Scheher Aman, Nouri, Nassim, Tebibel, Meryem, Sifi, Karima, Abadi, Noureddine, Satta, Dalila, Benelmadani, Yasmina, Bignon-Topalovic, Joelle, El-Zaiat-Munsch, Maëva, Bashamboo, Anu, Mcelreavey, Ken, Génétique du Développement humain - Human developmental genetics, Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Université frères Mentouri Constantine I (UMC), Université Salah Boubnider Constantine 3, Centre Hospitalier Universitaire Bab El Oued [Alger, Algérie] (CHU Bab El Oued), Centre Hospitalier Universitaire de Constantine (CHU de Constantine), Nissia Djebel Ouahch Clinic [Constantine, Algeria], CHU Béni messous (CHU BM), This work is funded in part by a research grant from the European Society of Pediatric Endocrinology, and by the Agence Nationale de la Recherche (ANR), ANR-10-LABX-73 REVIVE, ANR-17-CE14-0038-01, ANR-19-CE14-0022, ANR-20-CE14-0007, and ANR-19-CE14-0012. The presented work resulted from collaboration made possible through the ESPE sponsored programme 'ESPE Visiting Professorship'., ANR-10-LABX-0073,REVIVE,Stem Cells in Regenerative Biology and Medicine(2010), ANR-17-CE14-0038,MGonDev,Etude des mécanismes du développement des gonades chez l'homme(2017), ANR-19-CE14-0022,SexDiff,Régulation de la détermination du sexe et de la différenciation ovarienne : implications dans les troubles du développement sexuel(2019), ANR-20-CE14-0007,Goldilocks,Analyse intégrée du rôle du facteur de transcription SF-1 / NR5A1 et de ses gènes cibles dépendants du dosage dans la fonction gonadique et les troubles du développement sexuel (DSD)(2020), and ANR-19-CE14-0012,RNA-SEX,Fonction de l'ARN hélicase dans la détermination du sexe chez les vertébrés et les troubles du développement du sexe chez l'homme (DSD)(2019)

Subjects

genetic etiology, disorders/differences in sex development (DSD), gonadal dysgenesis, [SDV]Life Sciences [q-bio], Genetics, genitalia, Molecular Medicine, ovary, testis, digenic/oligogenic, Genetics (clinical)

Abstract

In a majority of individuals with disorders/differences of sex development (DSD) a genetic etiology is often elusive. However, new genes causing DSD are routinely reported and using the unbiased genomic approaches, such as whole exome sequencing (WES) should result in an increased diagnostic yield. Here, we performed WES on a large cohort of 125 individuals all of Algerian origin, who presented with a wide range of DSD phenotypes. The study excluded individuals with congenital adrenal hypoplasia (CAH) or chromosomal DSD. Parental consanguinity was reported in 36% of individuals. The genetic etiology was established in 49.6% (62/125) individuals of the total cohort, which includes 42.2% (35/83) of 46, XY non-syndromic DSD and 69.2% (27/39) of 46, XY syndromic DSD. No pathogenic variants were identified in the 46, XX DSD cases (0/3). Variants in the AR, HSD17B3, NR5A1 and SRD5A2 genes were the most common causes of DSD. Other variants were identified in genes associated with congenital hypogonadotropic hypogonadism (CHH), including the CHD7 and PROKR2. Previously unreported pathogenic/likely pathogenic variants (n = 30) involving 25 different genes were identified in 22.4% of the cohort. Remarkably 11.5% of the 46, XY DSD group carried variants classified as pathogenic/likely pathogenic variant in more than one gene known to cause DSD. The data indicates that variants in PLXNA3, a candidate CHH gene, is unlikely to be involved in CHH. The data also suggest that NR2F2 variants may cause 46, XY DSD.

Published

2022

41. DHX37 and 46, XY DSD : A new Ribosomopathy?

Author

Kenneth McElreavey, Eric Pailhoux, Anu Bashamboo, Génétique du Développement humain - Human developmental genetics, Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Biologie de la Reproduction, Environnement, Epigénétique & Développement (BREED), École nationale vétérinaire - Alfort (ENVA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Université Paris-Saclay-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), A.B. and K.M. are funded by the Agence Nationale de la Recherche (ANR), ANR-10-LABX-73 REVIVE, ANR-17-CE14-0038-01. E.P., A.B., and K.M. are funded by ANR-19-CE14-0012-01., ANR-10-LABX-0073,REVIVE,Stem Cells in Regenerative Biology and Medicine(2010), ANR-17-CE14-0038,MGonDev,Etude des mécanismes du développement des gonades chez l'homme(2017), and ANR-19-CE14-0012,RNA-SEX,Fonction de l'ARN hélicase dans la détermination du sexe chez les vertébrés et les troubles du développement du sexe chez l'homme (DSD)(2019)

Subjects

Gonadal Dysgenesis, 46,XY, Embryology, Heterozygote, DHX37, RNA helicase, Endocrinology, Diabetes and Metabolism, Mutation, Missense, Ribosomopathy, [SDV.BDLR]Life Sciences [q-bio]/Reproductive Biology, Disorders/differences of sex development, Ribosome biogenesis, Humans, RNA Helicases, Developmental Biology

Abstract

Recently, a series of recurrent missense variants in the RNA-helicase DHX37 have been reported associated with either 46,XY gonadal dysgenesis, 46,XY testicular regression syndrome (TRS), or anorchia. All affected children have non-syndromic forms of disorders/differences of sex development (DSD). These variants, which involve highly conserved amino acids within known functional domains of the protein, are predicted by in silico tools to have a deleterious effect on helicase function. DHX37 is required for ribosome biogenesis in eukaryotes, and how these variants cause DSD is unclear. The relationship between DHX37 and human congenital disorders is complex as compound heterozygous as well as de novo heterozygous missense variants in DHX37 are also associated with a complex congenital developmental syndrome (NEDBAVC, neurodevelopmental disorder with brain anomalies and with or without vertebral or cardiac anomalies; OMIM 618731), consisting of microcephaly, global developmental delay, seizures, facial dysmorphia, and kidney and cardiac anomalies. Here, we will give a brief overview of ribosome biogenesis and the role of DHX37 in this process. We will discuss variants in DHX37, their contribution to human disease in the general context of human ribosomopathies, and the possible disease mechanisms that may be involved.

Published

2022

42. Whole exome sequencing reveals a MLL de novo mutation associated with mild developmental delay and without ‘hairy elbows’: expanding the phenotype of Wiedemann–Steiner syndrome

Author

STEEL, DORA, SALPIETRO, VINCENZO, PHADKE, RAHUL, PITT, MATTHEW, GENTILE, GIULIA, MASSOUD, AHMED, BATTEN, LEIGH, BASHAMBOO, ANU, MCELREAVEY, KEN, SAGGAR, ANAND, and KINALI, MARIA

Published

2015

43. Methylation changes in mature sperm deoxyribonucleic acid from oligozoospermic men: assessment of genetic variants and assisted reproductive technology outcome

Author

Montjean, Debbie, Ravel, Célia, Benkhalifa, Moncef, Cohen-Bacrie, Paul, Berthaut, Isabelle, Bashamboo, Anu, and McElreavey, Kenneth

Published

2013

44. Expanding DSD Phenotypes Associated with Variants in the DEAH-Box RNA Helicase DHX37

Author

Anu Bashamboo, Mehdi Totonchi, Masomeh Askari, Dominique Simon, Joelle Bignon-Topalovic, Daisylyn Senna Tan, Raja Brauner, Dalila Satta, Noureddine Abadi, Yasmina Benelmadani, Inas Mazen, Djalila Rezgoune, Karima Sifi, Asmahane Ladjouze, Mehrshad Seresht-Ahmadi, Mandana Rastari, Juliane Léger, Ralf Jauch, Housna Zidoune, Ken McElreavey, Laetitia Martinerie, Asma Boukri, Génétique du Développement humain - Human developmental genetics, Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Université frères Mentouri Constantine I (UMC), Université Salah Boubnider Constantine 3, Centre de Référence des Maladies Endocriniennes Rares de la Croissance [APHP Robert Debré], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Robert Debré-Université Paris Cité (UPCité), The Chinese University of Hong Kong [Hong Kong], Academic Center for Education, Culture and Research (ACECR), Centre Hospitalier Universitaire de Bab-el-Oued, Centre Hospitalier Universitaire de Bab-el-Oued, Alger, Algérie., CHU Ibn Badis Constantine [Algérie], National Research Center [Caire, Egypte], Fondation Ophtalmologique Adolphe de Rothschild [Paris], Université Paris Descartes - Paris 5 (UPD5), ANR-17-CE14-0038,MGonDev,Etude des mécanismes du développement des gonades chez l'homme(2017), ANR-19-CE14-0012,RNA-SEX,Fonction de l'ARN hélicase dans la détermination du sexe chez les vertébrés et les troubles du développement du sexe chez l'homme (DSD)(2019), and ANR-19-CE14-0022,SexDiff,Régulation de la détermination du sexe et de la différenciation ovarienne : implications dans les troubles du développement sexuel(2019)

Subjects

Male, DHX37, Disorders of sexual development, endocrine system, Embryology, Ribosomopathy, [SDV]Life Sciences [q-bio], Endocrinology, Diabetes and Metabolism, Genetic disease, XY DSD, Gonadal dysgenesis, Biology, Gonadal Dysgenesis, XY gonadal dysgenesis, Ambiguous genitalia, Testis, Testicular regression syndrome, medicine, Humans, Missense mutation, Gonadal Dysgenesis, 46,XY, Genetics, Sex determination/differentiation, medicine.disease, RNA Helicase A, Phenotype, Testicular Regression, RNA Helicases, Developmental Biology, Congenital disorder

Abstract

Missense variants in the RNA-helicase DHX37 are associated with either 46,XY gonadal dysgenesis or 46,XY testicular regression syndrome (TRS). DHX37 is required for ribosome biogenesis, and this subgroup of XY DSD is a new human ribosomopathy. In a cohort of 140 individuals with 46,XY DSD, we identified 7 children with either 46,XY complete gonadal dysgenesis or 46,XY TRS carrying rare or novel DHX37 variants. A novel p.R390H variant within the RecA1 domain was identified in a girl with complete gonadal dysgenesis. A paternally inherited p.R487H variant, previously associated with a recessive congenital developmental syndrome, was carried by a boy with a syndromic form of 46,XY DSD. His phenotype may be explained in part by a novel homozygous loss-of-function variant in the NGLY1 gene, which causes a congenital disorder of deglycosylation. Remarkably, a homozygous p.T477H variant was identified in a boy with TRS. His fertile father had unilateral testicular regression with typical male genital development. This expands the DSD phenotypes associated with DHX37. Structural analysis of all variants predicted deleterious effects on helicase function. Similar to all other known ribosomopathies, the mechanism of pathogenesis is unknown.

Published

2021

45. A novel HSD17B3 gene mutation in a 46,XY female‐phenotype newborn identified by whole‐exome sequencing

Author

Bertalan, Rita, Admoni, Osnat, Bashamboo, Anu, Tenenbaum‐Rakover, Yardena, and McElreavey, Kenneth

Published

2017

46. Anomalies in human sex determination provide unique insights into the complex genetic interactions of early gonad development

Author

Bashamboo, A., Eozenou, C., Rojo, S., and McElreavey, K.

Published

2017

47. Etiology of primary ovarian insufficiency in a series young girls presenting at a pediatric endocrinology center

Author

Brauner, Raja, Pierrepont, Sophie, Bignon-Topalovic, Joelle, McElreavey, Ken, and Bashamboo, Anu

Published

2015

48. Gene dosage effects in 46, XY DSD: usefulness of CGH technologies for diagnosis

Author

Jaillard, S., Bashamboo, A., Pasquier, L., Belaud-Rotureau, M. A., McElreavey, K., Odent, S., and Ravel, Célia

Published

2015

49. Disorders of Sex Development in a Large Ukrainian Cohort: Clinical Diversity and Genetic Findings

Author

Globa, Evgenia, primary, Zelinska, Natalia, additional, Shcherbak, Yulia, additional, Bignon-Topalovic, Joelle, additional, Bashamboo, Anu, additional, and MсElreavey, Ken, additional

Published

2022

50. Loss-of-function mutation in GATA4 causes anomalies of human testicular development

Author

Lourenço, Diana, Brauner, Raja, Rybczyńska, Magda, Nihoul-Fékété, Claire, McElreavey, Ken, Bashamboo, Anu, and New, Maria I.

Published

2011