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CASE REPORT
Year : 2012  |  Volume : 18  |  Issue : 3  |  Page : 352-355
 

A new 48, XXYY/47, XYY syndrome associated with multiple skeletal abnormalities, congenital heart disease and mental retardation


1 Laboratory of Medical Genetics, Faculty of Medicine, National University of Rwanda, Rwanda, East Africa; Center for Human Genetics, CHU Sart-Tilman, University of Liege, 4000 Liege, Belgium,
2 Center for Human Genetics, CHU Sart-Tilman, University of Liege, 4000 Liege, Belgium,

Date of Web Publication4-Mar-2013

Correspondence Address:
Leon Mutesa
Laboratory of Medical Genetics, Faculty of Medicine, National University of Rwanda, Po Box 30, Butare-Rwanda, East Africa

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Source of Support: Center for Human Genetics, University of Liège, Belgium,, Conflict of Interest: None


DOI: 10.4103/0971-6866.108033

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   Abstract 

While the XYY and XXYY syndromes have been several time described in patients, the combination of both syndromes in an individual is a rare event and may result in a severe phenotype. In the present observation, a boy with congenital scoliosis due to segmented thoracic hemivertebra associated with radioulnar synostosis and congenital heart disease is described. Chromosome G-banding and FISH analysis demonstrated a de novo mosaic karyotype 48, XXYY/47, XYY in this patient. To the best of our knowledge, this is the first report of a combination of XYY and XXYY syndromes.


Keywords: 48, XXYY/47, XYY syndrome, congenital heart disease, multiple skeletal abnormalities


How to cite this article:
Mutesa L, Jamar M, Hellin AC, Pierquin G, Bours V. A new 48, XXYY/47, XYY syndrome associated with multiple skeletal abnormalities, congenital heart disease and mental retardation. Indian J Hum Genet 2012;18:352-5

How to cite this URL:
Mutesa L, Jamar M, Hellin AC, Pierquin G, Bours V. A new 48, XXYY/47, XYY syndrome associated with multiple skeletal abnormalities, congenital heart disease and mental retardation. Indian J Hum Genet [serial online] 2012 [cited 2016 Jun 1];18:352-5. Available from: http://www.ijhg.com/text.asp?2012/18/3/352/108033



   Introduction Top


Both XYY and XXYY syndromes are fairly common chromosomal abnormalities, with a prevalence of 1:1,000 to 1:17,000 live male births in general population, respectively. [1],[2],[3] However, the combination of both syndromes in individuals is a rare event and may result in a more severe phenotype due to the compounding effects of the additional X and Y chromosomes.

The XYY is seldom detected during childhood or even in the adult. It is now well recognized that the majority of XYY males are phenotypically normal. However, a pattern of variable abnormalities including skeletal abnormalities and behavioural problems have been described and can lead to clinical suspicion of the XYY syndrome. The XXYY syndrome was previously considered to be a variant of the Klinefelter syndrome with hypogenitalism problems. However, several specific clinical features including mental retardation and psychiatric problems, have been reported and now it is recognized as a distinct clinical and genetic entity.

While congenital heart disease and radioulnar synostosis have been reported in XXYY and XYY syndromes, respectively, [4],[5] the occurrence of other congenital skeletal abnormalities such as hemivertebra is unusual in these syndromes. We herein report a boy showing XYY/XXYY syndrome associated with multiple skeletal abnormalities and congenital heart disease.


   Case Report Top


A 12-year-old boy was referred for congenital skeletal abnormalities and heart disease associated with development delay and moderate mental retardation. The patient was a third child to healthy non consanguineous Caucasian parents. Birth weight and birth height were normal. He was born with congenital scoliosis due to segmented hemivertebra between the tenth and twelfth thoracic vertebrae and had an atrial septal defect which regressed spontaneously at the age of one year.

At the age of 10 months, he developed bilateral synostosis of the proximal radius and ulna. The progression of the scoliosis and the poor cosmetic appearance indicated that an operation was necessary. At the age of 6 years, he underwent a surgical correction for the hemivertebra.

On our physical examination at 12 years of age, his height was 160 cm (75 th centile), weight 68.6 kg (>97 th centile) and his head circumference was 52 cm (10 th centile). He had subtle minor facial dysmorphism, namely, slight hypertelorism, bilateral epicanthic folds, a flat nasal bridge and full lower lip, long philtrum [Figure 1]a-c and a high palate. He had moderate mental retardation and presented gynecomastia with truncal obesity [Figure 1]d. In addition, he had a scoliosis and presented limitation of supination at the elbows [Figure 1]e and f.
Figure 1: Full (a), frontal and lateral (b, c) views of the patient. (d) Note the gynecomastia and morbid obesity. (e) Limitation of supination. (f) Scoliosis

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X-ray examination of the spine and the upper limbs was performed. It showed a persistent scoliosis due to segmented hemivertebra between tenth and twelfth thoracic vertebrae [Figure 2]a and b. The radiography of the upper limbs showed synostosis of the proximal radius and ulna, associated with dislocation of both radial heads [Figure 2]c and d.
Figure 2: Postero-anterior radiographs of full spine (a, b). X-rays of left and right upper limbs (c, d)

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   Cytogenetic and FISH Studies Top


Standard karyotype with G-banding was performed on lymphocytes from patient's peripheral blood sample using conventional protocols. We used 500 resolution's level for banding characterization. Fluorescence in situ Hybridization (FISH) was performed on interphase using centromeric specific probes (Vysis) DXZ1 (green probe) and DYZ3 (red probe), which hybridize to the X and Y chromosomes, respectively. Hybridizations were done according to the manufacturer's recommendations.


   Results Top


The karyotype, performed on lymphocytes from peripheral blood, revealed the presence of 48, XXYY (67%)/47, XYY (33%) mosaic pattern. [Figure 3] shows partial chromosome results (48, XXYY) with G-banding. Using FISH analysis, a total of 200 cells were examined and this analysis confirmed the previous result; 48, XXYY chromosomes were present in 74.5% and 47, XYY in 21.5% of the cells, respectively [Figure 4].
Figure 3: G - banding karyotype of peripheral lymphocytes showing 48, XXYY chromosomes (main cell line)

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Figure 4: Interphase FISH with centromeric specific probes (Vysis) DXZ1 (green signal) and DYZ3 (red signal) showing XYY and XXYY lymphocyte nuclei

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   Discussion Top


There is a considerable difference between the clinical characteristics of patients with the 48, XXYY karyotype and those with a 47, XYY. Classically, individuals from the first group display developmental delays, hypogonadism, gynecomastia, an increased prevalence of varicose veins and stasis dermatitis, autism spectrum disorders and aggressive behavioral problems. [6],[7],[8] In addition, mild to moderate mental retardation is a frequent, but not an obligate finding in the 48, XXYY syndrome, and congenital heart disease has been reported in a few cases. [6],[9]

The XYY syndrome is a relatively frequent syndrome but seldom detected during childhood or even in adults. It is now recognized that the majority of XYY males are phenotypically normal. Among the most common clinical features, tall stature, reduced IQ and poor motor coordination have been reported together with various quite non-specific dysmorphic features associated with minor skeletal abnormalities such as radioulnar synostosis. [4],[10] The 47, XYY aneuploidy is always from paternal origin and results from nondisjunction in the second meiotic division or post zygotic mitosis. Fertilization of an X egg by a YY sperm would result in a conceptus with 47, XYY. However, the parental origin of the additional sex chromosomes is not well established in 48, XXYY patients. It can be paternally derived, resulting from nondisjunction at the first and second meiotic division during spermatogenesis. [2],[11] One can speculate that the additional X chromosome can be maternally derived, resulting from either meiotic nondisjunction during gametogenesis, or from mitotic nondisjunction in the developing zygote, as in Klinefelter patients. [12]

The present patient had a combination of both XYY and XXYY features including mental retardation, congenital heart disease and radioulnar synostosis. Nevertheless, the hemivertebra which is a failure of vertebral formation carrying a risk of causing progressive scoliosis have not yet been reported in 47, XYY and 48, XXYY syndromes. Our patient presented mental retardation which could be attributed mainly to the polysomy, and probably to a skewed X inactivation as it has been previously reported. [13] Our case is a very rich observation, gathering the main typical features of 47, XYY and 48, XXYY syndromes with additional and unusual skeletal abnormalities. Its association should lead to cytogenetic studies. Surprisingly, this is the first report of a combination of XYY and XXYY syndromes.


   Acknowledgements Top


This work was supported by the Center for Human Genetics, CHU Liège, University of Liège, Belgium.

 
   References Top

1.Fryns JP, Kleczkowska A, Kubien E, Van den Berghe H. XYY syndrome and other Y chromosome polysomies. Mental status and psychosocial functioning. Genet Couns 1995;6:197-206.  Back to cited text no. 1
    
2.Zelante L, Piemontese MR, Francioli G, Calvano S. Two 48, XXYY patients: Clinical, cytogenetic and molecular aspects. Ann Genet 2003;46:479-81.  Back to cited text no. 2
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3.Geerts M, Steyaert J, Fryns JP. The XYY syndrome: A follow-up study on 38 boys. Genet Couns 2003;14:267-79.  Back to cited text no. 3
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4.Franceschini P, Licata D, Guala A, Di Cara G, Franceschini D. Radioulnar synostosis and XYY syndrome. Clin Dysmorphol 2000;9:77.  Back to cited text no. 4
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5.Tartaglia N, Davis S, Hench A, Nimishakavi S, Beauregard R, Reynolds A, et al. A new look at XXYY syndrome: Medical and psychological features. Am J Med Genet A 2008;146A: 1509-22.  Back to cited text no. 5
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6.Borghgraef M, Fryns JP, Van den Berghe H. The 48, XXYY syndrome. Follow-up data on clinical characteristics and psychological findings in 4 patients. Genet Couns 1991;2:103-8.  Back to cited text no. 6
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7.Diaz-Atienza J, Blanquez-Rodriguez MP. Behavioral and neuropsychological phenotype of the 48, XXYY syndrome: A longitudinal study of a case. Rev Neurol 1999;29:926-9.  Back to cited text no. 7
    
8.Borja-Santos N, Trancas B, Santos Pinto P, Lopes B, Gamito A, Almeida S, et al. 48, XXYY in a General Adult Psychiatry Department. Psychiatry (Edgmont) 2010;7:32-6.  Back to cited text no. 8
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9.Meschede D, Nekarda T, Kececioglu D, Loser H, Vogt J, Miny P, et al. Congenital heart disease in the 48, XXYY syndrome. Clin Genet 1995;48:100-2.  Back to cited text no. 9
    
10.Stochholm K, Juul S, Gravholt CH. Diagnosis and mortality in 47, XYY persons: A registry study. Orphanet J Rare Dis 2010;5:15.  Back to cited text no. 10
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11.Lorda-Sanchez I, Binkert F, Hinkel KG, Moser H, Rosenkranz W, Maechler M, et al. Uniparental origin of sex chromosome polysomies. Hum Hered 1992;42:193-7.  Back to cited text no. 11
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12.Thomas NS, Hassold TJ. Aberrant recombination and the origin of Klinefelter syndrome. Hum Reprod Update 2003;9:309-17.  Back to cited text no. 12
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13.Iitsuka Y, Bock A, Nguyen DD, Samango-Sprouse CA, Simpson JL, Bischoff FZ. Evidence of skewed X-chromosome inactivation in 47, XXY and 48, XXYY Klinefelter patients. Am J Med Genet 2001;98:25-31.  Back to cited text no. 13
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    Figures

  [Figure 1], [Figure 2], [Figure 3], [Figure 4]


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    Abstract
   Introduction
   Case Report
    Cytogenetic and ...
   Results
   Discussion
   Acknowledgements
    References
    Article Figures

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