Background: Leri-Weill syndrome (LWS) is a genetic disorder caused by deletions or mutations in the SHOX gene or by deletions downstream of the gene and is classically characterized by short stature, mesomelic shortening of forearms and legs, and Madelung deformity. Correct identification of short stature homeobox-containing gene (SHOX) deficiency in children with growth problems is vital for appropriate initiation of growth hormone therapy. Method: We report a phenotypically normal 23 day old male infant born to a father diagnosed with Leri-Weill syndrome at age 12 years with a documented SHOX deletion on his X chromosome. The patient’s fetal long bones had been found to be about three weeks delayed in growth on prenatal ultrasound during the second trimester. Results: The infant underwent genetic evaluation at 23 days of life and was found to have a SHOX deletion on Yp11.32 identified using single nucleotide polymorphism microarray (SNP) analysis and confirmed by FISH using a SHOX gene probe. Conclusion: We report the case of a male infant diagnosed with Leri-Weill syndrome with an unusual documented inheritance between father and son due to crossover between X and Y chromosomes during paternal meiosis. Our case is the youngest patient in literature documented by FISH analysis to have an X to Y chromosome transfer and the first of these patients diagnosed prior to onset of short stature or Madelung deformity. Our patient was identified prior to growth failure and can now be monitored for growth abnormalities with the ability to implement growth augmentation therapy without delay. Our case highlights the importance of advising affected SHOX patients of risks to future offspring and supports screening off-spring of parents carrying SHOX abnormalities regardless of sex

Anyane-Yeboa, Kwame

Censani, Marisa

Guzman, Edwin

Oberfield, Sharon E.

Spiegel, Erica

Wapner, Ronald J.

International Journal of Pediatric Endocrinology

PubMed

Marisa Censani

Kwame Anyane-Yeboa

Ronald Wapner

Erica Spiegel

Edwin Guzman

Sharon E Oberfield

Springer - Publisher Connector

Rare inheritance of Leri-Weill Syndrome due to crossover of short stature Homeobox Gene (SHOX) Deletions between X and Y Chromosomes: a case report

Columbia University Academic Commons

Censani et al. International Journal of Pediatric Endocrinology 2013, 2013:11http://www.ijpeonline.com/content/2013/1/11CASE REPORT Open AccessRare inheritance of Leri-Weill Syndrome due tocrossover of short stature Homeobox Gene(SHOX) Deletions between X and YChromosomes: a case reportMarisa Censani1, Kwame Anyane-Yeboa2, Ronald Wapner3, Erica Spiegel3, Edwin Guzman2and Sharon E Oberfield1,4*AbstractBackground: Leri-Weill syndrome (LWS) is a genetic disorder caused by deletions or mutations in the SHOX geneor by deletions downstream of the gene and is classically characterized by short stature, mesomelic shortening offorearms and legs, and Madelung deformity. Correct identification of short stature homeobox-containing gene(SHOX) deficiency in children with growth problems is vital for appropriate initiation of growth hormone therapy.Method: We report a phenotypically normal 23 day old male infant born to a father diagnosed with Leri-Weillsyndrome at age 12 years with a documented SHOX deletion on his X chromosome. The patient’s fetal long boneshad been found to be about three weeks delayed in growth on prenatal ultrasound during the second trimester.Results: The infant underwent genetic evaluation at 23 days of life and was found to have a SHOX deletion onYp11.32 identified using single nucleotide polymorphism microarray (SNP) analysis and confirmed by FISH using aSHOX gene probe.Conclusion: We report the case of a male infant diagnosed with Leri-Weill syndrome with an unusual documentedinheritance between father and son due to crossover between X and Y chromosomes during paternal meiosis. Ourcase is the youngest patient in literature documented by FISH analysis to have an X to Y chromosome transfer and thefirst of these patients diagnosed prior to onset of short stature or Madelung deformity. Our patient was identified priorto growth failure and can now be monitored for growth abnormalities with the ability to implement growthaugmentation therapy without delay. Our case highlights the importance of advising affected SHOX patients of risks tofuture offspring and supports screening off-spring of parents carrying SHOX abnormalities regardless of sex.Keywords: Leri-Weill syndrome, Madelung deformity, Pseudoautosomal region 1, Short stature, SHOXBackgroundShort stature homeobox-containing gene (SHOX) is agrowth regulating gene present on the pseudoautosomalregion 1 (PAR1) on the distal end of the X and Y chro-mosomes. SHOX haploinsufficiency is considered in thedifferential diagnosis for short stature in children and is* Correspondence: seo8@columbia.edu1Department of Pediatrics, Division of Pediatric Endocrinology, ColumbiaUniversity Medical Center, PH5E-522, 622 West 168th Street, New York, NY10032, USA4Columbia University Medical Center, 622 West 168th Street, PH 5E-522, NewYork, NY 10032, USAFull list of author information is available at the end of the article© 2013 Censani et al.; licensee BioMed CentraCommons Attribution License (http://creativecreproduction in any medium, provided the orcurrently an FDA approved indication for growth hor-mone therapy. Leri-Weill syndrome (LWS) is a geneticdisorder caused by deletions or mutations in the SHOXgene or by deletions downstream of the gene. It is clas-sically characterized by short stature, mesomelic short-ening of forearms and legs, and Madelung deformity [1].We present the rare case of a male infant diagnosed withLeri-Weill syndrome in which an originally X-locatedSHOX deletion from father was transmitted to son’sY chromosome by crossover during meiosis. We alsoreview the literature to date and discuss the future im-plications of such findings.l Ltd. This is an Open Access article distributed under the terms of the Creativeommons.org/licenses/by/2.0), which permits unrestricted use, distribution, andiginal work is properly cited.Censani et al. International Journal of Pediatric Endocrinology 2013, 2013:11 Page 2 of 4http://www.ijpeonline.com/content/2013/1/11Case presentationThe male index patient (IV: 1, Figure 1) was the first childof Caucasian non-consanguinous parents. He was born at39½weeks gestation with a normal birth weight of 2.95 kg,(25th centile), and length 50 cm (50th centile). On prenatalultrasound, fetal long bones were found to be about threeweeks delayed in growth during the second trimester. Theinfant underwent genetic evaluation at 23 days of life sincethe father had been previously diagnosed with Leri-Weillsyndrome with a documented SHOX deletion on his Xchromosome del (X)(p22.33p22.33) confirmed by FISHusing a SHOX gene probe. The father’s deletion was con-firmed with a FISH probe specific for the SHOX gene. Onexamination, the patient measured 51.5 cm (25-50th cen-tile) and weighed 3.45 kg (10-25th centile) with head cir-cumference of 36 cm (25th centile). Although physicalexamination was unremarkable, a DNA microarray studywas performed to rule out the presumed extremely smallpossibility of the deletion crossing over to the Y chromo-some of the index patient (IV: 1, Figure 1).The mother (III:1) was of normal height and statureat 154.9 cm tall. The father (III:2) was of short statureat 157.5 cm tall. The father had been diagnosed with Leri-Weill syndrome at 12 years of age, and had not beentreated with growth hormone. His past medical historywas also notable for an insulinoma diagnosed at 8 years ofage with a partial pancreatectomy at 18 years. Three pater-nal uncles, two paternal aunts, one paternal cousin andpatient’s paternal grandmother, in addition to patient’sFigure 1 Pedigree of the family.paternal great aunt, and paternal great-grandmother, werealso noted to be affected with LWS (see Figure 1).A SHOX deletion of 262 Kb on Yp11.32 was identifiedusing single nucleotide polymorphism microarray (SNP)analysis in the patient and confirmed by FISH using aSHOX gene probe.Our infant patient was diagnosed with Leri-Weill syn-drome resulting from an unusual documented inherit-ance between father and son due to crossover of theSHOX deletion between X and Y chromosomes duringpaternal meiosis. We report the youngest patient in lit-erature documented by FISH analysis to have an X to Ychromosome transfer of an originally X-located SHOXdeletion. The mechanisms resulting in SHOX deficiencyinclude gene mutations and whole gene deletions of thepseudoautosomal region1 (PAR1) of differing sizes [2,3].Approximately two-thirds of individuals with SHOX muta-tions have large scale SHOX deletions that vary in sizebetween 90 kb and 2.5 Mb or more. Point mutations com-prise the remaining one-third of SHOX mutations causingSHOX-related haploinsufficiency [4]. Since SHOX is lo-cated in the pseudoautosomal regions 1 (PAR1) present onboth the X and Y chromosomes, mutations within thesegenes may segregate independent of sex and be inherited inan autosomal fashion, termed pseudo-autosomal dominantinheritance [2].Transfer of the deleted or mutated SHOX gene to thealternate sex chromosome due to crossover during meiosishas been described. However, most reports discussedCensani et al. International Journal of Pediatric Endocrinology 2013, 2013:11 Page 3 of 4http://www.ijpeonline.com/content/2013/1/11recombination events in the PAR1 in the context of a Y-located SHOX deletion transmitted from father to daughteror included pedigrees that did not differentiate betweenY- and X- chromosomal SHOX mutations [5-8]. Indeed,to our knowledge, the transfer of an originally X-locatedSHOX deletion to the Y chromosome after transmissionfrom father to son has only been documented by FISH intwo patients in the literature to date, and not in an appar-ently phenotypically normal male child [9,10].In a study by Ross et al., subjects were referred for shortstature or Madelung deformity and 17 unrelated familieswith LWD with complete gene deletion in 33 subjectswere identified. An X to Y chromosome transfer was men-tioned in an 8.3 year old male from his father, with thechild’s height noted to be at −2.5 SDS [9]. Musebeck et al.analyzed the frequency of SHOX deletions in short staturechildren and found 5 patients with deletions, one of whomwas an 11.75 year old male with a height of 139 (−1.4SDS) found to have a transfer of the X-located SHOXdeletion from his father to his Y chromosome [10]. The7 month old infant described in our case is the youngestpatient in literature documented by FISH analysis to havean X to Y chromosome transfer and is the first patient ofthese three cases presenting prior to onset of short statureor Madelung deformity.This crossover of SHOX between sex chromosomes isparticularly important in the context of genetic counsel-ing. Since 2006, growth hormone (GH) therapy has beenan FDA approved indication for treatment of short staturefor patients with SHOX deficiency. Leri-Weill syndromecaused by deletions or mutations of the SHOX gene isknown to be clinically highly variable [11]. Correct identi-fication of SHOX deficiency in children with growth prob-lems is vital to the implementation of GH therapy in atimely manner.ConclusionOur case highlights the importance of advising affectedSHOX patients of risks to future offspring and screen-ing off-spring of parents carrying SHOX abnormalitiesregardless of sex. Patients should be informed of thepossibility that a father carrying a SHOX mutation onthe X chromosome can transmit this mutation not onlyto a daughter but to a son as well due to crossing overbetween the pseudo-autosomal regions of the X and Ychromosomes during paternal meiosis, albeit a rare oc-currence. This finding can also occur in mothers withSHOX mutations on X chromosomes transmitting mu-tations to the Y chromosomes of their sons. Our casecontributes to the knowledge regarding meiotic cross-over of the SHOX gene region between the X and Ychromosomes and brings attention to an unusual docu-mented inheritance between father and son. Our patientwas identified prior to growth failure and can now bemonitored for growth abnormalities with the ability toimplement growth augmentation therapy without delay.ConsentWritten informed consent was obtained from the patient’sfather for publication of this case report and any accom-panying images. A copy of the written consent is availablefor review by the Editor-in-Chief of this journal.AbbreviationsSHOX: Short stature homeobox-containing gene; LWS: Leri-Weill syndrome;PAR1: Pseudoautosomal region 1.Competing interestsThe authors declare that they have no competing interests.Authors’ contributionsAll authors have made significant intellectual contributions to themanuscript. All authors have contributed to the concept and design of thecase report. SEO, KA, RW, ES, EG, and MC have diagnosed and/or treated thepatient and/or mother. MC, SEO and KA drafted the manuscript, and allauthors have critically revised the manuscript for important intellectualcontent. All authors have read and given approval of the final manuscriptversion to be published.AcknowledgementsThis work was supported by an NIH NIDDK 5 T32 DK 06552–07 in PediatricEndocrinology (PI SE Oberfield). We thank Dr. Brynn Levy of ColumbiaUniversity Medical Center for his assistance in the genetic testing of ourpatient and Dr. Lakshmi Mehta of the Mt. Sinai Medical Center fordiscussions regarding the father’s prior genetic consultation.Author details1Department of Pediatrics, Division of Pediatric Endocrinology, ColumbiaUniversity Medical Center, PH5E-522, 622 West 168th Street, New York, NY10032, USA. 2Department of Pediatrics, Division of Clinical Genetics,Columbia University Medical Center, 3959 Broadway, 6 N-601A, New York, NY10032, USA. 3Department of Maternal Fetal Medicine, Columbia UniversityMedical Center, 3959 Broadway, 12 Central, Room 1207, New York, NY 10032,USA. 4Columbia University Medical Center, 622 West 168th Street, PH 5E-522,New York, NY 10032, USA.Received: 20 February 2013 Accepted: 30 May 2013Published: 28 June 2013References1. Léri A, Weill JA: Une affection congénitale et symétrique dudéveloppement osseux. La dyschondrostéose. Bull Mem Soc Med HopParis 1929, 53:1491–1494.2. Blaschke RJ, Rappold G: The pseudoautosomal regions, SHOX anddisease. Curr Opin Genet Dev 2006, 16(3):233–239.3. Durand C, Rappold GA: Height matters-from monogenic disorders tonormal variation. Nat Rev Endocrinol 2013, 9(3):171–177.4. Marchini A, Rappold G, Schneider KU: SHOX at a glance: from gene toprotein. Arch Physiol Biochem 2007, 113(3):116–123.5. Kant SG, van der Kamp HJ, Kriek M, Bakker E, Bakker B, Hoffer MJ, vanBunderen P, Losekoot M, Maas SM, Wit JM, et al: The jumping SHOXgene–crossover in the pseudoautosomal region resulting in unusualinheritance of Leri-Weill dyschondrosteosis. J Clin Endocrinol Metab 2011,96(2):E356–E359.6. Flanagan SF, Munns CF, Hayes M, Williams B, Berry M, Vickers D, Rao E,Rappold GA, Batch JA, Hyland VJ, Glass IA: Prevalence of mutations in theshort stature homeobox containing gene (SHOX) in Madelung deformityof childhood. J Med Genet 2002, 39(10):758–763.7. Jorge AA, Souza SC, Nishi MY, Billerbeck AE, Libório DC, Kim CA, Arnhold IJ,Mendonca BB: SHOX mutations in idiopathic short stature and Leri-Weilldyschondrosteosis: frequency and phenotypic variability. Clin Endocrinol(Oxf ) 2007, 66(1):130–135.Censani et al. International Journal of Pediatric Endocrinology 2013, 2013:11 Page 4 of 4http://www.ijpeonline.com/content/2013/1/118. Evers C, Heidemann PH, Dunstheimer D, Schulze E, Haag C, Janssen JW,Fischer C, Jauch A, Moog U: Pseudoautosomal inheritance of Leri-Weillsyndrome: what does it mean? Clin Genet 2011, 79(5):489–494.9. Ross JL, Scott C Jr, Marttila P, Kowal K, Nass A, Papenhausen P, Abboudi J,Osterman L, Kushner H, Carter P, et al: Phenotypes Associated with SHOXDeficiency. J Clin Endocrinol Metab 2001, 86(12):5674–5680.10. Musebeck J, Mohnike K, Beye P, Tönnies H, Neitzel H, Schnabel D, Gruters A,Wieacker P, Stumm M: Short stature homeobox-containing gene deletionscreening by fluorescence in situ hybridisation in patients with shortstature. Eur J Pediatr 2001, 160(9):561–565.11. Clement-Jones M, Schiller S, Rao E, Blaschke RJ, Zuniga A, Zeller R, RobsonSC, Binder G, Glass I, Strachan T, et al: The short stature homeobox geneSHOX is involved in skeletal abnormalities in Turner syndrome. Hum MolGenet 2000, 9(5):695–702.doi:10.1186/1687-9856-2013-11Cite this article as: Censani et al.: Rare inheritance of Leri-WeillSyndrome due to crossover of short stature Homeobox Gene (SHOX)Deletions between X and Y Chromosomes: a case report. InternationalJournal of Pediatric Endocrinology 2013 2013:11.Submit your next manuscript to BioMed Centraland take full advantage of: • Convenient online submission• Thorough peer review• No space constraints or color figure charges• Immediate publication on acceptance• Inclusion in PubMed, CAS, Scopus and Google Scholar• Research which is freely available for redistributionSubmit your manuscript at www.biomedcentral.com/submit

Abstract
          
            Background
            Leri-Weill syndrome (LWS) is a genetic disorder caused by deletions or mutations in the SHOX gene or by deletions downstream of the gene and is classically characterized by short stature, mesomelic shortening of forearms and legs, and Madelung deformity. Correct identification of short stature homeobox-containing gene (SHOX) deficiency in children with growth problems is vital for appropriate initiation of growth hormone therapy.
          
          
            Method
            We report a phenotypically normal 23 day old male infant born to a father diagnosed with Leri-Weill syndrome at age 12 years with a documented SHOX deletion on his X chromosome. The patient’s fetal long bones had been found to be about three weeks delayed in growth on prenatal ultrasound during the second trimester.
          
          
            Results
            The infant underwent genetic evaluation at 23 days of life and was found to have a SHOX deletion on Yp11.32 identified using single nucleotide polymorphism microarray (SNP) analysis and confirmed by FISH using a SHOX gene probe.
          
          
            Conclusion
            We report the case of a male infant diagnosed with Leri-Weill syndrome with an unusual documented inheritance between father and son due to crossover between X and Y chromosomes during paternal meiosis. Our case is the youngest patient in literature documented by FISH analysis to have an X to Y chromosome transfer and the first of these patients diagnosed prior to onset of short stature or Madelung deformity. Our patient was identified prior to growth failure and can now be monitored for growth abnormalities with the ability to implement growth augmentation therapy without delay. Our case highlights the importance of advising affected SHOX patients of risks to future offspring and supports screening off-spring of parents carrying SHOX abnormalities regardless of sex.
          </jats:sec

Crossref

Censani et al. International Journal of Pediatric Endocrinology 2013, 2013:11
http://www.ijpeonline.com/content/2013/1/11CASE REPORT Open AccessRare inheritance of Leri-Weill Syndrome due to
crossover of short stature Homeobox Gene
(SHOX) Deletions between X and Y
Chromosomes: a case report
Marisa Censani1, Kwame Anyane-Yeboa2, Ronald Wapner3, Erica Spiegel3, Edwin Guzman2
and Sharon E Oberfield1,4*Abstract
Background: Leri-Weill syndrome (LWS) is a genetic disorder caused by deletions or mutations in the SHOX gene
or by deletions downstream of the gene and is classically characterized by short stature, mesomelic shortening of
forearms and legs, and Madelung deformity. Correct identification of short stature homeobox-containing gene
(SHOX) deficiency in children with growth problems is vital for appropriate initiation of growth hormone therapy.
Method: We report a phenotypically normal 23 day old male infant born to a father diagnosed with Leri-Weill
syndrome at age 12 years with a documented SHOX deletion on his X chromosome. The patient’s fetal long bones
had been found to be about three weeks delayed in growth on prenatal ultrasound during the second trimester.
Results: The infant underwent genetic evaluation at 23 days of life and was found to have a SHOX deletion on
Yp11.32 identified using single nucleotide polymorphism microarray (SNP) analysis and confirmed by FISH using a
SHOX gene probe.
Conclusion: We report the case of a male infant diagnosed with Leri-Weill syndrome with an unusual documented
inheritance between father and son due to crossover between X and Y chromosomes during paternal meiosis. Our
case is the youngest patient in literature documented by FISH analysis to have an X to Y chromosome transfer and the
first of these patients diagnosed prior to onset of short stature or Madelung deformity. Our patient was identified prior
to growth failure and can now be monitored for growth abnormalities with the ability to implement growth
augmentation therapy without delay. Our case highlights the importance of advising affected SHOX patients of risks to
future offspring and supports screening off-spring of parents carrying SHOX abnormalities regardless of sex.
Keywords: Leri-Weill syndrome, Madelung deformity, Pseudoautosomal region 1, Short stature, SHOXBackground
Short stature homeobox-containing gene (SHOX) is a
growth regulating gene present on the pseudoautosomal
region 1 (PAR1) on the distal end of the X and Y chro-
mosomes. SHOX haploinsufficiency is considered in the
differential diagnosis for short stature in children and is* Correspondence: seo8@columbia.edu
1Department of Pediatrics, Division of Pediatric Endocrinology, Columbia
University Medical Center, PH5E-522, 622 West 168th Street, New York, NY
10032, USA
4Columbia University Medical Center, 622 West 168th Street, PH 5E-522, New
York, NY 10032, USA
Full list of author information is available at the end of the article
© 2013 Censani et al.; licensee BioMed Centra
Commons Attribution License (http://creativec
reproduction in any medium, provided the orcurrently an FDA approved indication for growth hor-
mone therapy. Leri-Weill syndrome (LWS) is a genetic
disorder caused by deletions or mutations in the SHOX
gene or by deletions downstream of the gene. It is clas-
sically characterized by short stature, mesomelic short-
ening of forearms and legs, and Madelung deformity [1].
We present the rare case of a male infant diagnosed with
Leri-Weill syndrome in which an originally X-located
SHOX deletion from father was transmitted to son’s
Y chromosome by crossover during meiosis. We also
review the literature to date and discuss the future im-
plications of such findings.l Ltd. This is an Open Access article distributed under the terms of the Creative
ommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and
iginal work is properly cited.
Censani et al. International Journal of Pediatric Endocrinology 2013, 2013:11 Page 2 of 4
http://www.ijpeonline.com/content/2013/1/11Case presentation
The male index patient (IV: 1, Figure 1) was the first child
of Caucasian non-consanguinous parents. He was born at
39½weeks gestation with a normal birth weight of 2.95 kg,
(25th centile), and length 50 cm (50th centile). On prenatal
ultrasound, fetal long bones were found to be about three
weeks delayed in growth during the second trimester. The
infant underwent genetic evaluation at 23 days of life since
the father had been previously diagnosed with Leri-Weill
syndrome with a documented SHOX deletion on his X
chromosome del (X)(p22.33p22.33) confirmed by FISH
using a SHOX gene probe. The father’s deletion was con-
firmed with a FISH probe specific for the SHOX gene. On
examination, the patient measured 51.5 cm (25-50th cen-
tile) and weighed 3.45 kg (10-25th centile) with head cir-
cumference of 36 cm (25th centile). Although physical
examination was unremarkable, a DNA microarray study
was performed to rule out the presumed extremely small
possibility of the deletion crossing over to the Y chromo-
some of the index patient (IV: 1, Figure 1).
The mother (III:1) was of normal height and stature
at 154.9 cm tall. The father (III:2) was of short stature
at 157.5 cm tall. The father had been diagnosed with Leri-
Weill syndrome at 12 years of age, and had not been
treated with growth hormone. His past medical history
was also notable for an insulinoma diagnosed at 8 years of
age with a partial pancreatectomy at 18 years. Three pater-
nal uncles, two paternal aunts, one paternal cousin and
patient’s paternal grandmother, in addition to patient’sFigure 1 Pedigree of the family.paternal great aunt, and paternal great-grandmother, were
also noted to be affected with LWS (see Figure 1).
A SHOX deletion of 262 Kb on Yp11.32 was identified
using single nucleotide polymorphism microarray (SNP)
analysis in the patient and confirmed by FISH using a
SHOX gene probe.
Our infant patient was diagnosed with Leri-Weill syn-
drome resulting from an unusual documented inherit-
ance between father and son due to crossover of the
SHOX deletion between X and Y chromosomes during
paternal meiosis. We report the youngest patient in lit-
erature documented by FISH analysis to have an X to Y
chromosome transfer of an originally X-located SHOX
deletion. The mechanisms resulting in SHOX deficiency
include gene mutations and whole gene deletions of the
pseudoautosomal region1 (PAR1) of differing sizes [2,3].
Approximately two-thirds of individuals with SHOX muta-
tions have large scale SHOX deletions that vary in size
between 90 kb and 2.5 Mb or more. Point mutations com-
prise the remaining one-third of SHOX mutations causing
SHOX-related haploinsufficiency [4]. Since SHOX is lo-
cated in the pseudoautosomal regions 1 (PAR1) present on
both the X and Y chromosomes, mutations within these
genes may segregate independent of sex and be inherited in
an autosomal fashion, termed pseudo-autosomal dominant
inheritance [2].
Transfer of the deleted or mutated SHOX gene to the
alternate sex chromosome due to crossover during meiosis
has been described. However, most reports discussed
Censani et al. International Journal of Pediatric Endocrinology 2013, 2013:11 Page 3 of 4
http://www.ijpeonline.com/content/2013/1/11recombination events in the PAR1 in the context of a Y-
located SHOX deletion transmitted from father to daughter
or included pedigrees that did not differentiate between
Y- and X- chromosomal SHOX mutations [5-8]. Indeed,
to our knowledge, the transfer of an originally X-located
SHOX deletion to the Y chromosome after transmission
from father to son has only been documented by FISH in
two patients in the literature to date, and not in an appar-
ently phenotypically normal male child [9,10].
In a study by Ross et al., subjects were referred for short
stature or Madelung deformity and 17 unrelated families
with LWD with complete gene deletion in 33 subjects
were identified. An X to Y chromosome transfer was men-
tioned in an 8.3 year old male from his father, with the
child’s height noted to be at −2.5 SDS [9]. Musebeck et al.
analyzed the frequency of SHOX deletions in short stature
children and found 5 patients with deletions, one of whom
was an 11.75 year old male with a height of 139 (−1.4
SDS) found to have a transfer of the X-located SHOX
deletion from his father to his Y chromosome [10]. The
7 month old infant described in our case is the youngest
patient in literature documented by FISH analysis to have
an X to Y chromosome transfer and is the first patient of
these three cases presenting prior to onset of short stature
or Madelung deformity.
This crossover of SHOX between sex chromosomes is
particularly important in the context of genetic counsel-
ing. Since 2006, growth hormone (GH) therapy has been
an FDA approved indication for treatment of short stature
for patients with SHOX deficiency. Leri-Weill syndrome
caused by deletions or mutations of the SHOX gene is
known to be clinically highly variable [11]. Correct identi-
fication of SHOX deficiency in children with growth prob-
lems is vital to the implementation of GH therapy in a
timely manner.
Conclusion
Our case highlights the importance of advising affected
SHOX patients of risks to future offspring and screen-
ing off-spring of parents carrying SHOX abnormalities
regardless of sex. Patients should be informed of the
possibility that a father carrying a SHOX mutation on
the X chromosome can transmit this mutation not only
to a daughter but to a son as well due to crossing over
between the pseudo-autosomal regions of the X and Y
chromosomes during paternal meiosis, albeit a rare oc-
currence. This finding can also occur in mothers with
SHOX mutations on X chromosomes transmitting mu-
tations to the Y chromosomes of their sons. Our case
contributes to the knowledge regarding meiotic cross-
over of the SHOX gene region between the X and Y
chromosomes and brings attention to an unusual docu-
mented inheritance between father and son. Our patient
was identified prior to growth failure and can now bemonitored for growth abnormalities with the ability to
implement growth augmentation therapy without delay.
Consent
Written informed consent was obtained from the patient’s
father for publication of this case report and any accom-
panying images. A copy of the written consent is available
for review by the Editor-in-Chief of this journal.
Abbreviations
SHOX: Short stature homeobox-containing gene; LWS: Leri-Weill syndrome;
PAR1: Pseudoautosomal region 1.
Competing interests
The authors declare that they have no competing interests.
Authors’ contributions
All authors have made significant intellectual contributions to the
manuscript. All authors have contributed to the concept and design of the
case report. SEO, KA, RW, ES, EG, and MC have diagnosed and/or treated the
patient and/or mother. MC, SEO and KA drafted the manuscript, and all
authors have critically revised the manuscript for important intellectual
content. All authors have read and given approval of the final manuscript
version to be published.
Acknowledgements
This work was supported by an NIH NIDDK 5 T32 DK 06552–07 in Pediatric
Endocrinology (PI SE Oberfield). We thank Dr. Brynn Levy of Columbia
University Medical Center for his assistance in the genetic testing of our
patient and Dr. Lakshmi Mehta of the Mt. Sinai Medical Center for
discussions regarding the father’s prior genetic consultation.
Author details
1Department of Pediatrics, Division of Pediatric Endocrinology, Columbia
University Medical Center, PH5E-522, 622 West 168th Street, New York, NY
10032, USA. 2Department of Pediatrics, Division of Clinical Genetics,
Columbia University Medical Center, 3959 Broadway, 6 N-601A, New York, NY
10032, USA. 3Department of Maternal Fetal Medicine, Columbia University
Medical Center, 3959 Broadway, 12 Central, Room 1207, New York, NY 10032,
USA. 4Columbia University Medical Center, 622 West 168th Street, PH 5E-522,
New York, NY 10032, USA.
Received: 20 February 2013 Accepted: 30 May 2013
Published: 28 June 2013
References
1. Léri A, Weill JA: Une affection congénitale et symétrique du
développement osseux. La dyschondrostéose. Bull Mem Soc Med Hop
Paris 1929, 53:1491–1494.
2. Blaschke RJ, Rappold G: The pseudoautosomal regions, SHOX and
disease. Curr Opin Genet Dev 2006, 16(3):233–239.
3. Durand C, Rappold GA: Height matters-from monogenic disorders to
normal variation. Nat Rev Endocrinol 2013, 9(3):171–177.
4. Marchini A, Rappold G, Schneider KU: SHOX at a glance: from gene to
protein. Arch Physiol Biochem 2007, 113(3):116–123.
5. Kant SG, van der Kamp HJ, Kriek M, Bakker E, Bakker B, Hoffer MJ, van
Bunderen P, Losekoot M, Maas SM, Wit JM, et al: The jumping SHOX
gene–crossover in the pseudoautosomal region resulting in unusual
inheritance of Leri-Weill dyschondrosteosis. J Clin Endocrinol Metab 2011,
96(2):E356–E359.
6. Flanagan SF, Munns CF, Hayes M, Williams B, Berry M, Vickers D, Rao E,
Rappold GA, Batch JA, Hyland VJ, Glass IA: Prevalence of mutations in the
short stature homeobox containing gene (SHOX) in Madelung deformity
of childhood. J Med Genet 2002, 39(10):758–763.
7. Jorge AA, Souza SC, Nishi MY, Billerbeck AE, Libório DC, Kim CA, Arnhold IJ,
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doi:10.1186/1687-9856-2013-11
Cite this article as: Censani et al.: Rare inheritance of Leri-Weill
Syndrome due to crossover of short stature Homeobox Gene (SHOX)
Deletions between X and Y Chromosomes: a case report. International
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Rare inheritance of Leri-Weill Syndrome due to crossover of short stature Homeobox Gene (SHOX) Deletions between X and Y Chromosomes: a case report

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