NATHALIA LISBOA ROSA ALMEIDA GOMES

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LIM/42 - Laboratório de Hormônios e Genética Molecular, Hospital das Clínicas, Faculdade de Medicina

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  • conferenceObject
    DEAH-Box Helicase 37defects (DXH37) Defects Are a Novel Cause of 46,XY Gonadal Dysgenesis
    (2018) GOMES, Nathalia; SILVA, Thatiana; LERARIO, Antonio; BATISTA, Rafael Loch; FARIA JUNIOR, Jose Antonio; MORAES, Daniela; COSTA, Elaine Maria Frade; NISHI, Mirian; CARVALHO, Luciani Renata; FORCLAZ, Maria Veronica; PAPAZIAN, Regina; MARTINEZ-AGUAYO, Alejandro; PAULA, Leila Pedroso de; CARVALHO, Filomena Marino; VILAIN, Erick; BARSEGHYAN, Hayk Barseghyan; KEEGAN, Catherine; DOMENICE, Sorahia; MENDONCA, Berenice Bilharinho
  • article 11 Citação(ões) na Scopus
    A SEVERE PHENOTYPE OF KENNEDY DISEASE ASSOCIATED WITH A VERY LARGE CAG REPEAT EXPANSION
    (2018) MADEIRA, Joao L. O.; SOUZA, Alexandre B. C.; CUNHA, Flavia S.; BATISTA, Rafael L.; GOMES, Nathalia L.; RODRIGUES, Andresa S.; JORGE, Frederico Mennucci de Haidar; CHADI, Gerson; CALLEGARO, Dagoberto; MENDONCA, Berenice B.; COSTA, Elaine M. F.; DOMENICE, Sorahia
  • article 11 Citação(ões) na Scopus
    Long-term outcomes and molecular analysis of a large cohort of patients with 46,XY disorder of sex development due to partial gonadal dysgenesis
    (2018) GOMES, Nathalia L.; LERARIO, Antonio Marcondes; MACHADO, Aline Zamboni; MORAES, Daniela Rodrigues de; SILVA, Thatiana Evilen da; ARNHOLD, Ivo J. P.; BATISTA, Rafael Loch; FARIA JUNIOR, Jose Antonio Diniz; COSTA, Elaine F.; NISHI, Mirian Y.; INACIO, Marlene; DOMENICE, Sorahia; MENDONCA, Berenice B.
    BackgroundFollow-up data on patients with 46,XY partial gonadal dysgenesis (PGD) until adulthood are scarce, making information on prognosis difficult. ObjectiveTo analyse the long-term outcomes of patients with 46,XY PGD regarding testosterone production, germ cell tumour risk, genotype and psychosexual adaptation. MethodsA retrospective longitudinal study of 33 patients (20 assigned male and 13 patients assigned female at birth). Molecular diagnosis was performed by Sanger sequencing or by targeted massively parallel sequencing of 63 genes related to disorders of sex development (DSDs). ResultsAge at first and last visit ranged from 0.1 to 43 and from 17 to 53years, respectively. Spontaneous puberty was observed in 57% of the patients. During follow-up, six of them had a gonadectomy (four due to female gender, and two because of a gonadal tumour). At last evaluation, five of six patients had adult male testosterone levels (median 16.7nmol/L, range 15.3-21.7nmol/L) and elevated LH and FSH levels. Germ cell tumours were found in two postpubertal patients (one with an abdominal gonad and one patient with Frasier syndrome). Molecular diagnosis was possible in 11 patients (33%). NR5A1 variants were the most prevalent molecular defects (n=6), and four of five patients harbouring them developed spontaneous puberty. Gender change was observed in four patients, two from each sex assignment group; all patients reported satisfaction with their gender at final evaluation. Sexual intercourse was reported by 81% of both gender and 82% of them reported satisfaction with their sexual lives. ConclusionSpontaneous puberty was observed in 57% of the patients with 46,XY PGD, being NR5A1 defects the most prevalent ones among all the patients and in those with spontaneous puberty. Gender change due to gender dysphoria was reported by 12% of the patients. All the patients reported satisfaction with their final gender, and most of them with their sexual life.
  • article 109 Citação(ões) na Scopus
    Androgen insensitivity syndrome: a review
    (2018) BATISTA, Rafael Loch; COSTA, Elaine M. Frade; RODRIGUES, Andresa de Santi; GOMES, Nathalia Lisboa; FARIA JR., Jose Antonio; NISHI, Mirian Y.; ARNHOLD, Ivo Jorge Prado; DOMENICE, Sorahia; MENDONCA, Berenice Bilharinho de
    Androgenic insensitivity syndrome is the most common cause of disorders of sexual differentiation in 46, XY individuals. It results from alterations in the androgen receptor gene, leading to a frame of hormonal resistance, which may present clinically under 3 phenotypes: complete (CAIS), partial (PAIS) or mild (MAIS). The androgen receptor gene has 8 exons and 3 domains, and allelic variants in this gene occur in all domains and exons, regardless of phenotype, providing a poor genotype phenotype correlation in this syndrome. Typically, laboratory diagnosis is made through elevated levels of LH and testosterone, with little or no virilization. Treatment depends on the phenotype and social sex of the individual. Open issues in the management of androgen insensitivity syndromes includes decisions on sex assignment, timing of gonadectomy, fertility, physcological outcomes and genetic counseling.
  • article 16 Citação(ões) na Scopus
    Assembling the jigsaw puzzle: CBX2 isoform 2 and its targets in disorders/differences of sex development
    (2018) SPROLL, Patrick; EID, Wassim; GOMES, Camila R.; MENDONCA, Berenice B.; GOMES, Nathalia L.; COSTA, Elaine M. -F.; BIASON-LAUBER, Anna
    BackgroundOne of the defining moments of human life occurs early during embryonic development, when individuals sexually differentiate into either male or female. Perturbation of this process can lead to disorders/differences of sex development (DSD). Chromobox protein homolog 2 (CBX2) has two distinct isoforms, CBX2.1 and CBX2.2: the role of CBX2.1 in DSD has been previously established, yet to date the function of the smaller isoform CBX2.2 remains unknown. MethodsThe genomic DNA of two 46,XY DSD patients was analysed using whole exome sequencing. Furthermore, protein/DNA interaction studies were performed using DNA adenine methyltransferase identification (DamID) to identify putative binding partners of CBX2. Finally, invitro functional studies were used to elucidate the effect of wild-type and variant CBX2.2 on selected downstream targets. ResultsHere, we describe two patients with features of DSD i.e. atypical external genitalia, perineal hypospadias and no palpable gonads, each patient carrying a distinct CBX2.2 variant, p.Cys132Arg (c.394T>C) and p.Cys154fs (c.460delT). We show that both CBX2.2 variants fail to regulate the expression of genes essential for sexual development, leading to a severe 46,XY DSD defect, likely because of a defective expression of EMX2 in the developing gonad. ConclusionOur study indicates a distinct function of the shorter form of CBX2 and by identifying several of its unique targets, can advance our understanding of DSD pathogenesis and ultimately DSD diagnosis and management.
  • article 26 Citação(ões) na Scopus
    Biallelic and monoallelic ESR2 variants associated with 46,XY disorders of sex development
    (2018) BAETENS, Dorien; GURAN, Tulay; MENDONCA, Berenice B.; GOMES, Nathalia L.; CAUWER, Lode De; PEELMAN, Frank; VERDIN, Hannah; VUYLSTEKE, Marnik; LINDEN, Malaika Van der; STOOP, Hans; LOOIJENGA, Leendert H.; BOSSCHER, Karolien De; COOLS, Martine; BAERE, Elfride De
    Purpose: Disorders or differences of sex development (DSDs) are rare congenital conditions characterized by atypical sex development. Despite advances in genomic technologies, the molecular cause remains unknown in 50% of cases. Methods: Homozygosity mapping and whole-exome sequencing revealed an ESR2 variant in an individual with syndromic 46, XY DSD. Additional cases with 46, XY DSD underwent whole-exome sequencing and targeted next-generation sequencing of ESR2. Functional characterization of the identified variants included luciferase assays and protein structure analysis. Gonadal ESR2 expression was assessed in human embryonic data sets and immunostaining of estrogen receptor-beta (ER-beta) was performed in an 8-week-old human male embryo. Results: We identified a homozygous ESR2 variant, c.541_543del p. (Asn181del), located in the highly conserved DNA-binding domain of ER-beta, in an individual with syndromic 46, XY DSD. Two additional heterozygous missense variants, c.251G>T p.(Gly84Val) and c.1277T>G p.(Leu426Arg), located in the N-terminus and the ligand-binding domain of ER-beta, were found in unrelated, nonsyndromic 46, XY DSD cases. Significantly increased transcriptional activation and an impact on protein conformation were shown for the p.(Asn181del) and p.(Leu426Arg) variants. Testicular ESR2 expression was previously documented and ER-beta immunostaining was positive in the developing intestine and eyes. Conclusion: Our study supports a role for ESR2 as a novel candidate gene for 46, XY DSD.