Fragile X syndrome
53142
225979153
2008-07-16T08:43:06Z
Yumegusa
5509188
/* Symptoms */ grammar
{{Infobox_Disease |
Name = {{PAGENAME}} |
Image = Fmr1.jpeg |
Caption = Location of [[FMR1]] gene |
DiseasesDB = 4973 |
ICD10 = {{ICD10|Q|99|2|q|90}} |
ICD9 = {{ICD9|759.83}} |
ICDO = |
OMIM = 309550 |
MedlinePlus = |
eMedicineSubj = ped |
eMedicineTopic = 800 |
MeshID = D005600 |
}}
'''Fragile X syndrome''', or ''Martin-Bell syndrome'', is a [[syndrome]] of [[X-linked]] [[mental retardation]]. Boys with the syndrome may have large testicles ([[macroorchidism]]), [[prognathism]], [[hypotonia]] and [[autism]], and a characteristic but variable face with large ears, long face, high-arched [[palate]], [[gynecomastia]], and [[malocclusion]]. Additional abnormalities may include [[lordosis]], heart defect, [[pectus excavatum]], [[flat feet]], shortening of the tubular bones of the hands, and joint laxity. Females who have one fragile chromosome and one normal X chromosome may range from normal to mild manifestations of the fragile X syndrome. The fragile X syndrome has an estimated incidence of 1 in 3600 males and 1 in 4,000–6,000 females. <ref>Crawford, D.C.; Acuna, J.M. & Sherman, S.L. (2001) "FMR1 and the Fragile X syndrome: Human genome epidemiology review". ''Genet Med'' '''3''': 359-371</ref>
Martin and Bell in 1943, described a pedigree of X-linked mental disability, without considering the macroorchidism.<ref>Martin, J. P. & Bell, J. "A pedigree of mental defect showing sex-linkage". ''Journal of neurology, neurosurgery, and psychiatry (J. Neurol. Psychiat.).'' BMJ Publishing Group, London 6.1943, 154-157. {{ISSN|0022-3050}}</ref> In 1969 Chris and Weesam first sighted an unusual "marker X chromosome" in association with mental disability.<ref>Lubs, H. (1969) "A marker X chromosome". ''Am Hum Genet'' '''21''': 231.</ref> In 1970 Frederick Hecht coined the term "fragile site" (Renpenning's syndrome is not synonymous with the syndrome). In Renpennig's syndrome there is no fragile site on the X chromosome. Renpenning's cases had short stature, moderate microcephaly, and neurological disorders.
Escalante's syndrome is synonymous with the fragile X syndrome. This term has been used in Brazil and other South American countries.
==Causes==
The fragile X syndrome is a [[genetic disorder]] caused by [[mutation]] of the [[FMR1]] [[gene]] on the [[X chromosome]]. Mutation at that site is found in 1 out of about every 2000 [[male]]s and 1 out of about every 259 [[female]]s. (Incidence of the disease itself is about 1 in every 4000 females.)
Normally, the [[FMR1]] gene contains between 6 and 55 repeats of the CGG [[codon]] ([[Trinucleotide repeat disorders|trinucleotide repeats]]). In people with the fragile X syndrome, the FMR1 [[allele]] has over 230 repeats of this codon.<ref>{{cite web|url= http://www.ncbi.nlm.nih.gov/pubmed/12529854|title=Expansion of the fragile X CGG repeat in females with premutation or intermediate alleles|author=Nolin SL, Brown WT, Glicksman A, Houck GE Jr, Gargano AD, Sullivan A, Biancalana V, Bröndum-Nielsen K, Hjalgrim H, Holinski-Feder E, Kooy F, Longshore J, Macpherson J, Mandel JL, Matthijs G, Rousseau F, Steinbach P, Väisänen ML, von Koskull H, Sherman SL|publisher=[[American journal of human genetics]]|date=February 2003}}</ref>
Expansion of the CGG repeating codon to such a degree results in a [[DNA methylation|methylation]] of that portion of the [[DNA]], effectively silencing the expression of the FMR1 [[protein]].
This methylation of the FMR1 locus in chromosome band Xq27.3 is believed to result in constriction of the X [[chromosome]] which appears 'fragile' under the microscope at that point, a phenomenon that gave the syndrome its name.
Mutation of the FMR1 gene leads to the transcriptional silencing of the fragile X-mental retardation protein, [[FMRP]]. In normal individuals, FMRP binds and (usually) inhibits the translation of a number of essential [[neuronal]] [[RNA]]s. In fragile X patients, however, these RNAs are translated into excessive amounts of protein.<ref>{{cite journal|title=Postadolescent changes in regional cerebral protein synthesis: An in vivo study in the Fmr1 null mouse|journal=[[Journal of Neuroscience]]|volume=25|issue=20|date=[[18 May]] [[2005]]|pages=5087–5095|author=Qin, M., Kang, J., Burlin, T.V., Jiang, C., Smith, C.B|doi= 10.1523/JNEUROSCI.0093-05.2005|pmid=15901791}}</ref> However, certain RNAs seem to be stabilized by FMRP through a different mechanism.
==Transmission of the fragile X==
The diagram (right) of X-linked recessive inheritance markedly oversimplifies the situation. Technically, fragile X syndrome is an X-linked dominant condition with reduced penetrance.<ref>{{cite journal |journal= Eur J Hum Genet |date=2008 |title= Fragile X syndrome |author= Garber KB, Visootsak J, Warren ST |pmid=18398441 | doi = 10.1038/ejhg.2008.61 <!--Retrieved from CrossRef by DOI bot-->}}</ref>
Because males normally have only one copy of the X chromosome, those males with significant trinucleotide expansion at the FMR1 locus are symptomatic. They are intellectually disabled and may show various physical features of the fragile X syndrome.
Females have two X chromosomes and thus have double the chance of having a working FMR1 [[allele]]. Females carrying one X chromosome with an expanded FMR1 gene can have some signs and symptoms of the disorder or be normal. Although the extra X chromosome can serve as a backup, only one X chromosome is active at a time due to [[X-inactivation]].
Males with the fragile X cannot transmit it to any of their sons (since males contribute a Y chromosome, not an X, to their male offspring), but will transmit it to all of their daughters, as males contribute their X to all of their daughters.
Females carrying one copy of the fragile X can transmit it to their sons or daughters; in this case each child has a 50% chance of inheriting the fragile X. Sons who receive the fragile X are at high risk of intellectual disability. Daughters who receive the fragile X may appear normal or they may be intellectually disabled, usually to a lesser degree than boys with the syndrome. The transmission of fragile X often increases with each passing generation. This seemingly anomalous pattern of inheritance is referred to as the [[Sherman paradox]].
==Symptoms==
[[Image:Fragile x syndrom.png|thumb|right|150px|Prominent characteristics of the syndrome include an elongated face, large or protruding ears, and [[low muscle tone]].]]
Aside from intellectual disability, prominent characteristics of the syndrome include an elongated face, large or protruding ears, flat feet, larger testicles in men ([[macroorchidism]]), and [[low muscle tone]]. Speech may include [[cluttered speech]] or nervous speech<ref>[http://www.wrongdiagnosis.com/f/fragile_x_syndrome/signs.htm Signs of Fragile-X Syndrome - WrongDiagnosis.com<!-- Bot generated title -->]</ref>. Behavioral characteristics may include stereotypic movements (e.g., hand-flapping) and atypical social development, particularly shyness and limited eye contact. Some individuals with the fragile X syndrome also meet the diagnostic criteria for autism. Most females experience symptoms to a lesser degree because of their second X-chromosome, however they can develop just as severe symptoms. While full mutation males tend to present with severe intellectual disability, the symptoms of full mutation females run the gamut of minimally affected to severe intellectual disability, which may explain why females are underdiagnosed relative to males.
In short, similarities between X-linked recessive inheritance and fragile X are
#Males are dominantly affected
#Females (mothers) are obligatory carriers
Differences are
#Females may also have clinical symptoms
==Diagnosis==
Fragile X syndrome was originally diagnosed by culturing cells in a folate deficient medium and then assessing the cultures for X-chromosome breakage by [[cytogenetic]] analysis of the long arm of the X chromosome. This technique proved unreliable for both diagnosis and carrier testing.
The fragile X abnormality is now directly determined by analysis of the number of CGG repeats and their methylation status using [[restriction endonuclease]] digestion and [[Southern blot]] analysis.
Not everyone with fragile x syndrome has the same signs and symptoms. Even affected people in the same family don’t show the same symptoms. The signs and symptoms fall into five categories:
*Intelligence and learning
*Physical
*Social and emotional
*Speech and language
*Sensory
*Disorders commonly associated or sharing features with Fragile X
==Treatment and current research==
Recent studies have focused on a number of critical areas. The role of FMRP's RNA partners, many of which have now been validated through [[in vitro]] assays, is of primary importance. Also being examined is the function the various domains of FMRP, an [[RNA-binding protein]], which is still relatively unknown. One hypothesis is that many symptoms are caused by unchecked activation of [[Metabotropic glutamate receptor 5|mGluR5]], a [[metabotropic glutamate receptor]], which was found in a 2007 study to contribute significantly to the pathogenesis of the disease;<ref>{{cite journal |journal=Neuron |date=2007 |volume=56 |issue=6 |pages=955–62 |title= Correction of fragile X syndrome in mice |author= Dölen G, Osterweil E, Rao BS ''et al.'' |doi=10.1016/j.neuron.2007.12.001 |pmid=18093519}}</ref> this suggests that mGluR5 blockers could be used to treat fragile X syndrome.<ref>{{cite news |author= Highfield R |title= Fragile X study offers hope for autism treatment |work= Daily Telegraph |date=2007-12-19 |accessdate=2007-12-22 |url=http://www.telegraph.co.uk/earth/main.jhtml?xml=/earth/2007/12/19/sciaut119.xml}}</ref>
While there is no current cure for the syndrome, there is hope that further understanding of its underlying causes would lead to new therapies. Currently, the syndrome can be treated through [[behavioral therapy]], [[special education]], medication, and when necessary, treatment of physical abnormalities. Persons with the fragile X syndrome in their family histories are advised to seek [[genetic counseling]] to assess the likelihood of having children who are affected, and how severe any impairments may be in affected descendants.
Researchers at the Picower Institute for Learning and Memory at MIT have reversed symptoms of mental retardation and autism in mice.<ref>[http://www.eurekalert.org/pub_releases/2007-06/miot-mrr062507.php MIT researchers reverse symptoms in mice of leading inherited cause of mental retardation]</ref>
==References==
{{reflist}}
==External links==
*[http://www.cdc.gov/ncbddd/single_gene/fragilex.htm CDC’s National Center on Birth Defects and Developmental Disabilities]
*[http://www.fraxa.org FraXA.org] - The Fragile X Research Foundation
*http://www.fragilex.org.uk/index.asp - The United Kingdom National Fragile X charity
*[http://www.fragilex.org FragileX.org] - '''The National Fragile X Foundation''' (US) - Support, Awareness, Education, Research and Advocacy since 1984
*[http://www.uchsc.edu/fragilex''The Colorado Fragile X Consortium'']
*[http://www.stanford.edu/group/hopes/rltdsci/trinuc/f9.html Stanford.edu] - 'Trinucleotide Repeat Disorders Part 9: Non-Polyglutamine Diseases: Descriptions of other diseases that involve codon repeat expansions' (September 18, 2002)
*[http://www.kromosoft.com/resources/KB/Abstracts/FragileX.php Genetics of Fragile X Syndrome]
*[http://www.genereviews.org/servlet/access?db=geneclinics&site=gt&id=8888891&key=FGw3U1jU25aAk&gry=&fcn=y&fw=6K7j&filename=/profiles/fragilex/index.html Gene Reviews]
{{Pervasive developmental disorders}}
{{Chromosomal abnormalities}}
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[[Category:Autism]]
[[Category:Disability]]
[[Category:Genetic disorders]]
[[Category:Pediatrics]]
[[Category:Neurological disorders]]
[[Category:Syndromes]]
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[[it:Sindrome dell'X fragile]]
[[nl:Fragiele-X-syndroom]]
[[ja:脆弱X症候群]]
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[[pl:Zespół łamliwego chromosomu X]]
[[pt:Síndrome do X frágil]]
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[[sv:Fragil X-syndromet]]
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[[zh:X染色體易裂症]]