Minipuberty in Klinefelter syndrome: Current status and future directions

Klinefelter syndrome is highly underdiagnosed and diagnosis is often delayed. With the introduction of non‐invasive prenatal screening, the diagnostic pattern will require an updated description of the clinical and biochemical presentation of infants with Klinefelter syndrome. In the first months of life, the hypothalamic–pituitary–gonadal (HPG)‐axis is transiently activated in healthy males during the so‐called minipuberty. This period represents a “window of opportunity” for evaluation of the HPG‐axis before puberty and without stimulation tests. Infants with Klinefelter syndrome present with a hormonal surge during the minipuberty. However, only a limited number of studies exist, and the results are contradictory. Further studies are needed to clarify whether infants with Klinefelter syndrome present with impaired testosterone production during the minipuberty. The aim of this review is to describe the clinical and biochemical characteristics of the neonate and infant with Klinefelter syndrome with special focus on the minipuberty and to update the clinical recommendations for Klinefelter syndrome during infancy.

[1]  S. van Rijn,et al.  Early neurodevelopmental and medical profile in children with sex chromosome trisomies: Background for the prospective eXtraordinarY babies study to identify early risk factors and targets for intervention , 2020, American journal of medical genetics. Part C, Seminars in medical genetics.

[2]  D. Dabelea,et al.  Testosterone Treatment in Infants With 47,XXY: Effects on Body Composition , 2019, Journal of the Endocrine Society.

[3]  D. Glueck,et al.  Sex differences in infant body composition emerge in the first 5 months of life , 2019, Journal of pediatric endocrinology & metabolism : JPEM.

[4]  J. Toppari,et al.  Postnatal Testicular Activity in Healthy Boys and Boys With Cryptorchidism , 2019, Front. Endocrinol..

[5]  A. Gropman,et al.  The incidence of anxiety symptoms in boys with 47,XXY (Klinefelter syndrome) and the possible impact of timing of diagnosis and hormonal replacement therapy , 2019, American journal of medical genetics. Part A.

[6]  R. Quinton,et al.  Congenital Hypogonadotrophic Hypogonadism: Minipuberty and the Case for Neonatal Diagnosis , 2019, Front. Endocrinol..

[7]  C. Gravholt,et al.  Changes in the cohort composition of turner syndrome and severe non-diagnosis of Klinefelter, 47,XXX and 47,XYY syndrome: a nationwide cohort study , 2019, Orphanet Journal of Rare Diseases.

[8]  L. Hui,et al.  Population‐based trends in the prenatal diagnosis of sex chromosome aneuploidy before and after non‐invasive prenatal testing , 2018, Prenatal diagnosis.

[9]  S. Esposito,et al.  Up-To-Date Review About Minipuberty and Overview on Hypothalamic-Pituitary-Gonadal Axis Activation in Fetal and Neonatal Life , 2018, Front. Endocrinol..

[10]  T. K. Jensen,et al.  Sex Differences in Reproductive Hormones During Mini-Puberty in Infants With Normal and Disordered Sex Development , 2018, The Journal of clinical endocrinology and metabolism.

[11]  D. Monks,et al.  Non‐neural androgen receptors affect sexual differentiation of brain and behaviour , 2018, Journal of neuroendocrinology.

[12]  M. Plana,et al.  Analysis of cell‐free DNA in maternal blood in screening for aneuploidies: updated meta‐analysis , 2017, Ultrasound in obstetrics & gynecology : the official journal of the International Society of Ultrasound in Obstetrics and Gynecology.

[13]  M. Polak,et al.  Efficacy and Safety of Continuous Subcutaneous Infusion of Recombinant Human Gonadotropins for Congenital Micropenis during Early Infancy
 , 2017, Hormone Research in Paediatrics.

[14]  K. Copeland,et al.  Mini-Puberty and Growth , 2016, Pediatrics.

[15]  L. Dunkel,et al.  Transient Postnatal Gonadal Activation and Growth Velocity in Infancy , 2016, Pediatrics.

[16]  M. Hines,et al.  The early postnatal period, mini-puberty, provides a window on the role of testosterone in human neurobehavioural development , 2016, Current Opinion in Neurobiology.

[17]  M. Hines,et al.  Early postnatal testosterone predicts sex-related differences in early expressive vocabulary , 2016, Psychoneuroendocrinology.

[18]  D. Monks,et al.  Nonneural Androgen Receptors Affect Sexual Differentiation of Brain and Behavior. , 2016, Endocrinology.

[19]  T. Raivio,et al.  Childhood growth in boys with congenital hypogonadotropic hypogonadism , 2015, Pediatric Research.

[20]  A. Gropman,et al.  Positive effects of early androgen therapy on the behavioral phenotype of boys with 47,XXY , 2015, American journal of medical genetics. Part C, Seminars in medical genetics.

[21]  S. Devine,et al.  Brain feminization requires active repression of masculinization via DNA methylation , 2015, Nature Neuroscience.

[22]  K. Nicolaides,et al.  Analysis of cell‐free DNA in maternal blood in screening for fetal aneuploidies: updated meta‐analysis , 2015, Ultrasound in obstetrics & gynecology : the official journal of the International Society of Ultrasound in Obstetrics and Gynecology.

[23]  D. Dunger,et al.  Postnatal penile growth concurrent with mini-puberty predicts later sex-typed play behavior: Evidence for neurobehavioral effects of the postnatal androgen surge in typically developing boys , 2015, Hormones and Behavior.

[24]  M. Araúzo-Bravo,et al.  Epigenetic modifications of gene promoter DNA in the liver of adult female mice masculinized by testosterone , 2015, The Journal of Steroid Biochemistry and Molecular Biology.

[25]  L. Dunkel,et al.  Activation of the Hypothalamic-Pituitary-Gonadal Axis in Infancy: Minipuberty , 2014, Hormone Research in Paediatrics.

[26]  Tuck C. Ngun,et al.  The effects of perinatal testosterone exposure on the DNA methylome of the mouse brain are late-emerging , 2014, Biology of Sex Differences.

[27]  G. Alexander Postnatal Testosterone Concentrations and Male Social Development , 2014, Front. Endocrinol..

[28]  L. Wilkins-Haug,et al.  Integration of noninvasive DNA testing for aneuploidy into prenatal care: what has happened since the rubber met the road? , 2014, Clinical chemistry.

[29]  S. Kurtoğlu,et al.  Micropenis: Etiology, Diagnosis and Treatment Approaches , 2013, Journal of Clinical Research in Pediatric Endocrinology.

[30]  A. Gropman,et al.  Positive effects of short course androgen therapy on the neurodevelopmental outcome in boys with 47,XXY syndrome at 36 and 72 months of age , 2013, American journal of medical genetics. Part A.

[31]  L. Dunkel,et al.  Testosterone measured in infancy predicts subsequent sex-typed behavior in boys and in girls , 2012, Hormones and Behavior.

[32]  Rita Cássia Menegati Dornelles,et al.  Effects of neonatal castration and androgenization on sexual dimorphism in bone, leptin and corticosterone secretion. , 2012, Bone.

[33]  N. Skakkebæk,et al.  Clinical and biological parameters in 166 boys, adolescents and adults with nonmosaic Klinefelter syndrome: a Copenhagen experience , 2011, Acta paediatrica.

[34]  C. Bouvattier,et al.  Clinical and hormonal status of infants with nonmosaic XXY karyotype , 2011, Acta paediatrica.

[35]  L. Dunkel,et al.  Increased activity of the hypothalamic-pituitary-testicular axis in infancy results in increased androgen action in premature boys. , 2011, The Journal of clinical endocrinology and metabolism.

[36]  C. Bouvattier,et al.  Assessment of Leydig and Sertoli cell functions in infants with nonmosaic Klinefelter syndrome: insulin-like peptide 3 levels are normal and positively correlated with LH levels. , 2011, The Journal of clinical endocrinology and metabolism.

[37]  K. Main,et al.  Changes in anti-Müllerian hormone (AMH) throughout the life span: a population-based study of 1027 healthy males from birth (cord blood) to the age of 69 years. , 2010, Journal of Clinical Endocrinology and Metabolism.

[38]  Jacques Young,et al.  Lack of androgen receptor expression in Sertoli cells accounts for the absence of anti-Mullerian hormone repression during early human testis development. , 2009, The Journal of clinical endocrinology and metabolism.

[39]  C. Bouvattier,et al.  Effects of an early postnatal treatment of hypogonadotropic hypogonadism with a continuous subcutaneous infusion of recombinant follicle-stimulating hormone and luteinizing hormone. , 2008, The Journal of clinical endocrinology and metabolism.

[40]  A. Zinn,et al.  Effect of ascertainment and genetic features on the phenotype of Klinefelter syndrome. , 2008, The Journal of pediatrics.

[41]  N. Skakkebaek,et al.  Abnormal sex chromosome constitution and longitudinal growth: serum levels of insulin-like growth factor (IGF)-I, IGF binding protein-3, luteinizing hormone, and testosterone in 109 males with 47,XXY, 47,XYY, or sex-determining region of the Y chromosome (SRY)-positive 46,XX karyotypes. , 2008, The Journal of clinical endocrinology and metabolism.

[42]  J. Toppari,et al.  Insulin-like factor 3 levels in cord blood and serum from children: effects of age, postnatal hypothalamic-pituitary-gonadal axis activation, and cryptorchidism. , 2007, The Journal of clinical endocrinology and metabolism.

[43]  N. Skakkebaek,et al.  High normal testosterone levels in infants with non-mosaic Klinefelter's syndrome. , 2007, European journal of endocrinology.

[44]  Y. Lee,et al.  Genital Anomalies in Klinefelter’s Syndrome , 2007, Hormone Research in Paediatrics.

[45]  R. Rey,et al.  Time course of the serum gonadotropin surge, inhibins, and anti-Müllerian hormone in normal newborn males during the first month of life. , 2006, The Journal of clinical endocrinology and metabolism.

[46]  J. Toppari,et al.  Larger testes and higher inhibin B levels in Finnish than in Danish newborn boys. , 2006, The Journal of clinical endocrinology and metabolism.

[47]  C. Gravholt,et al.  Morbidity in Klinefelter syndrome: a Danish register study based on hospital discharge diagnoses. , 2006, The Journal of clinical endocrinology and metabolism.

[48]  J. Toppari,et al.  Postnatal penile length and growth rate correlate to serum testosterone levels: a longitudinal study of 1962 normal boys. , 2006, European journal of endocrinology.

[49]  A. Zinn,et al.  Androgen receptor CAGn repeat length influences phenotype of 47,XXY (Klinefelter) syndrome. , 2005, The Journal of clinical endocrinology and metabolism.

[50]  A. Zinn,et al.  Early Androgen Deficiency in Infants and Young Boys with 47,XXY Klinefelter Syndrome , 2005, Hormone Research in Paediatrics.

[51]  M. Grumbach A window of opportunity: the diagnosis of gonadotropin deficiency in the male infant. , 2005, The Journal of clinical endocrinology and metabolism.

[52]  J. Carel,et al.  Inhibin B and anti-Müllerian hormone, but not testosterone levels, are normal in infants with nonmosaic Klinefelter syndrome. , 2004, The Journal of clinical endocrinology and metabolism.

[53]  C. Gravholt,et al.  Prenatal and postnatal prevalence of Klinefelter syndrome: a national registry study. , 2003, The Journal of clinical endocrinology and metabolism.

[54]  C. Bouvattier,et al.  Postnatal changes of T, LH, and FSH in 46,XY infants with mutations in the AR gene. , 2002, The Journal of clinical endocrinology and metabolism.

[55]  J. Toppari,et al.  Early postnatal treatment of hypogonadotropic hypogonadism with recombinant human FSH and LH. , 2002, European journal of endocrinology.

[56]  N. Skakkebaek,et al.  A possible role for reproductive hormones in newborn boys: progressive hypogonadism without the postnatal testosterone peak. , 2000, The Journal of clinical endocrinology and metabolism.

[57]  H. Schwarz,et al.  Serum concentrations of LH and FSH in the healthy newborn. , 2000, European journal of endocrinology.

[58]  F. Conte,et al.  Congenital hypogonadotropic hypogonadism and micropenis: effect of testosterone treatment on adult penile size why sex reversal is not indicated. , 1999, The Journal of pediatrics.

[59]  E. McCabe,et al.  Minipuberty of infancy and adolescent pubertal function in adrenal hypoplasia congenita. , 1998, The Journal of pediatrics.

[60]  J. Toppari,et al.  Longitudinal reproductive hormone profiles in infants: peak of inhibin B levels in infant boys exceeds levels in adult men. , 1998, The Journal of clinical endocrinology and metabolism.

[61]  F. de Zegher,et al.  Serum levels of immunoreactive inhibin, FSH, and LH in human infants at preterm and term birth. , 1992, Biology of the neonate.

[62]  J. Regadera,et al.  Involution of human fetal Leydig cells. An immunohistochemical, ultrastructural and quantitative study. , 1990, Journal of anatomy.

[63]  A. Robinson,et al.  Summary of clinical findings in children and young adults with sex chromosome anomalies. , 1990, Birth defects original article series.

[64]  N. Skakkebaek,et al.  Proliferation of Sertoli cells during development of the human testis assessed by stereological methods. , 1987, International journal of andrology.

[65]  H. Rehder,et al.  Quantitative histology of human fetal testes in chromosomal disease. , 1985, Pediatric pathology.

[66]  N. Skakkebaek,et al.  Fluctuations in the number of germ cells during the late foetal and early postnatal periods in boys. , 1984, Acta endocrinologica.

[67]  S. Ratcliffe 6 The sexual development of boys with the chromosome constitution 47,XXY (Klinefelter's syndrome) , 1982 .

[68]  J. Winter Hypothalamic--pituitary function in the fetus and infant. , 1982, Clinics in endocrinology and metabolism.

[69]  S. Ratcliffe,et al.  The Edinburgh study of growth and development of children with sex chromosome abnormalities. , 1982, Birth defects original article series.

[70]  S. Ratcliffe The sexual development of boys with the chromosome constitution 47,XXY (Klinefelter's syndrome). , 1982, Clinics in endocrinology and metabolism.

[71]  J. Rapola,et al.  Fetal gonadal histology in XXXXY, XYY and XXX syndromes , 1980, Clinical genetics.

[72]  M. Forest,et al.  Testicular and adrenal androgens and their binding to plasma proteins in the perinatal period: developmental patterns of plasma testosterone, 4-androstenedione, dehydroepiandrosterone and its sulfate in premature and small for date infants as compared with that of full-term infants. , 1980, Journal of steroid biochemistry.

[73]  P. Teague,et al.  Edinburgh study of growth and development of children with sex chromosome abnormalities. III. , 1979, Birth defects original article series.

[74]  I. Hughes,et al.  Pituitary-gonadal relations in infancy: 2. Patterns of serum gonadal steroid concentrations in man from birth to two years of age. , 1976, The Journal of clinical endocrinology and metabolism.

[75]  M. Grumbach,et al.  The ontogenesis of human foetal hormones. II. Luteinizing hormone (LH) and follicle stimulating hormone (FSH). , 1976, Acta endocrinologica.

[76]  J. Clements,et al.  Studies on human sexual development. III. Fetal pituitary and serum, and amniotic fluid concentrations of LH, CG, and FSH. , 1976, The Journal of clinical endocrinology and metabolism.

[77]  J. Winter,et al.  Pituitary-gonadal relations in infancy. I. Patterns of serum gonadotropin concentrations from birth to four years of age in man and chimpanzee. , 1975, The Journal of clinical endocrinology and metabolism.

[78]  L. Zondek,et al.  Letter: Klinefelter's syndrome in a fetus. , 1974, Lancet.

[79]  K. Remberger,et al.  KLINEFELTER'S SYNDROME IN A FETUS , 1974 .

[80]  M. Forest,et al.  Hypophyso-gonadal function in humans during the first year of life. 1. Evidence for testicular activity in early infancy. , 1974, The Journal of clinical investigation.