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Cri du Chat: The Cat

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Title: Cri du Chat: The Cat


1
Cri du Chat The Cats Cry
  • Kelsey Fasteland

2
Cri du Chat (CdC)- History
  • Relatively rare genetic disorder that affects
    120,000 to 150,000
  • First described in 1963 by French pediatrician
    Lejeune and his associates.
  • Karyotyped individuals with the disorder, found
    that they all were missing a piece of chromosome
    5

3
CdC- Phenotypes
  • Cat-like cry

4
CdC- Phenotype
  • Facial Dysmorphisms
  • Including microcephaly, round face,
    hypertelorism, epicanthal folds, low-set ears,
    and micrognathia.
  • Bradley, www.criduchat.asn.au/criduchat/bradley.ht
    m

5
CdC- Phenotype
  • Severe psychomotor and mental retardation
  • Other health problems associated with CdC
  • Poor-suck, hypotonia, respitory and heart
    defects, growth retardation, and cleft palate
    and/or lip.
  • CdC patients are generally very sociable, but may
    exhibit maladaptive behaviors such as
    inattentiveness, hyperactivity, temper-tantrums,
    and self injury.

6
Bradley- 2 yearswww.criduchat.asn.au/criduchat/br
adley.htm
7
CdC- Cytogenetics
  • Arises from a partial terminal or interstitial
    deletion of the short arm of chromosome 5 (5p).
  • De novo deletion
  • Parental translocation
  • Other rare cytogenetic aberrations

8
CdC- Cytogenetics
  • Multigenic
  • Researchers have found two critical regions for
    CdC
  • Cat-like cry localized at 5p15.3
  • Facial dysmorphisms and psychomotor/mental
    retardation localized at 5p15.2
  • Figure from www.criduchat.asn.au/criduchat

9
Genotype-PhenotypeMainardi et al. 2001. J. Med.
Genet. 38 151-158.
  • 8o patients with 5p deletion
  • Each patient underwent clinical, developmental,
    and genetic evaluation

10
Molecular-Cytogenetic Analysis
  • Blood cultures of patients and parents
  • FISH experiments were performed using 136 single
    locus DNA lambda phage probes
  • DNA was extracted and PCR amplified, then typed
    with highly polymorphic PCR based microsatellite
    markers

11
Molecular-Cytogenetic Analysis- Results
  • 62 patients had a terminal 5p deletion with break
    points from p13 to 5p15.2
  • 7 patients with interstitial 5p deletions
  • Also found that 90.2 of de novo deletions were
    paternal in origin

12
62 patients with terminal 5p deletions
Classical CdC observed in all cases -Distribution
of dysmorphism increased -frequency and severity
of microcephaly increased -Psychomotor
development was more affected in groups D and C
than in group A
Mainardi et al. 2001. J. Med. Genet. 38 151-158.
13
What does this mean?
  • This highlights a progressive severity of
    clinical manifestations and psychomotor/mental
    retardation as the size of the deletion
    increases.

14
Seven patients with interstitial deletions
  • Patient 1 Cat cry, no typical dysmorphisms,
    mild psychomotor retardation
  • Patients 19, 25, 76 No cat cry, typical
    dysmorphisms, mild to severe psychomotor
    retardation
  • Patient 45?, typical dysmorphisms,
    moderate/severe psychomotor retardation
  • Patient 77 cat cry, typical dysmorphisms,
    moderate psychomotor retardation
  • Patient 80 No cat cry, no classical CdC
    phenotype, did have microcephaly and speech delay.

Mainardi et al. 2001. J. Med. Genet. 38 151-158.
15
Conclusions
  • Highlight progessive severity of clinical
    manifestations and psychomotor retardation with
    increase in deletion size
  • Confirm presence of two critical regions for
    classical CdC (5p15.3 and 5p15.2)
  • Narrow Cat-cry region to D5S731
  • Stress difficulties in defining specific critical
    regions for mental retardation

16
What do we do now?
  • High resolution physical mapping and transcript
    map of 5p15.2
  • Church et al. 1997. Genome Res. 7 787-801.

Researchers were able to identify 17 candidate
genes in the CdCCR of 5p15.2. Most of these are
of unknown function.
17
Delta-catenin (5p15.2)
  • d-catenin is a neuron-specific catenin involved
    in adhesion and cell motility. It is expressed
    early in development
  • First identified through interaction with PS1

18
Delta-catenin Israely et al. 2004. Current
Biology. 14 1657-1663.
  • Generated knockout mice (d-catenin-/-)
  • Mutant mice were compared to normal mice in
    several cognitive tests. Synaptic plasticity and
    structure were also evaluated.
  • Researchers found that d-catenin-/- mice severe
    BUT SPECIFIC deficits in some areas learning and
    in synaptic plasticity.

19
Telomerase Reverse Transcriptase Gene (hTERT)
  • Localized to 5p15.33
  • hTERT is the rate-limiting component for
    telomerase activity that is essential for
    telomere length maintenance and cell proliferation

20
hTERTZhang et al. 2003. Am. J. Hum. Genet. 72
940-948.
  • Cri du Chat- human model of hTERT
  • FISH analysis of metaphase fibroblasts and
    lymphocytes
  • Quantitative FISH analysis to measure telomere
    length
  • Competitive RT-PCR to determine level of hTERT
    mRNA

21
hTERTZhang et al. 2003. Am. J. Hum. Genet. 72
940-948.
22
hTERTZhang et al. 2003. Am. J. Hum. Genet. 72
940-948.
  • Haploinsufficiency in CdC patients

23
Diagnosis
  • Postnatal Diagnosis
  • Cat-like cry
  • Karyotyping
  • FISH analysis
  • Prenatal Diagnosis
  • Amniocentesis
  • Chorionic villus sampling (CVS)
  • In vitro fertilization

24
Treatment
  • No methods of treating disease directly
  • Several ways to treat medical problems associated
    with Cri du Chat
  • Physical therapy
  • Speech therapy
  • Behavioral management

25
References
  • Church, D. M., J. Yang, M. Bocian, R. Shiang, and
    J. J. Wasmuth. 1997. A high-resolution physical
    and transcript map of the cridu chat region of
    human chromosome 5p. Genome Res. 7 787-801.
  • Cornish, K. and D. Bramble. 2002. Cri du chat
    syndrome genotype-phenotype correlations and
    recommendations for clinical management.
    Developmental Medicine and Child Neurology. 44
    494-497.
  • Dykens, E. M., R. M. Hodapp, and B. M. Finucane.
    2000. Genetics and Mental Retardation Syndromes.
    Paul H. Brooks Publishing Co, MD, pp. 233-240.
  • Israely, I., R. M. Costa, C. W. Xie, A. J. Silva,
    K. S. Kosik, and X. Liu. 2004. Deletion of the
    Neuron-Specific Protein Delta-Catenin Leads to
    Severe Cognitive and Synaptic Dysfunction.
    Current Biology, 14 1857- 1663.
  • Mainardi, P. C., C.Perfumo, A. Cali, G.
    Coucourde, G. Pastore, S. Cavani, F. Zara, J.
    Overhauser, M. Pierluigi, and F. D. Bricarelli.
    2001. Clinical and molecular characterization of
    80 patients with 5p deletion genotype- phenotype
    correlation. J. Med. Genet. 38 151-158.
  • Marinescu, R. M., E. M. Johnson, D. Grady, X. N.
    Chen, and J. Overhauser. 1999. FISH analysis of
    terminal deletions in patients diagnosed with
    cri-du-chat syndrome. Clin. Genet. 56 282-288.
  • Online Mendelian Inheritance in Man, OMIM .
    Johns Hopkins University, Baltimore, MD. MIM
    Number 123450 Cri du Chat Syndrome April 23,
    2003. World Wide Web URL http//www.ncbi.nlm.nih.
    gov/omim/
  • Online Mendelian Inheritance in Man, OMIM .
    Johns Hopkins University, Baltimore, MD. MIM
    Number 187270 TERT May 25, 2004. World Wide
    Web URL http//www.ncbi.nlm.nih.gov/omim/
  • Online Mendelian Inheritance in Man, OMIM .
    Johns Hopkins University, Baltimore, MD. MIM
    Number 604275 Catenin, Delta-2 May 8, 2003.
    World Wide Web URL http//www.ncbi.nlm.nih.gov/omi
    m/
  • Shprintzen, R. J. 1997. Genetics, Syndromes, and
    Communication Disorders. Singular Publishing
    Group, CA, pp. 36-42, 270-271.
  • Tullu, M. S., M. N. Muranjan, S. V. Sharma, D. R.
    Sahu, S. R. Swami, C. T. Deshmukh, and B. A.
    Bharucha. 1998. Cri-du-chat syndrome Cinical
    profile and prenatal diagnosis. J. Postgrad. Med.
    44 101-104.
  • Van Buggenhout, G. J. C. M., E. Pijkels, M.
    Holvoet, C. Schaap, B. C. J. Hamel, and J. P.
    Fryns. 2000. Cri du chat syndrome Changing
    phenotype in older patients. Am. J. Med. Genet.
    90 203-215.
  • Zhang, A., C. Zheng, M. Hou, C. Lindvall, K. Li,
    F. Erlandsson, M. Bjorkholm, A. Gruber, E.
    Blennow, and D. Xu. 2003. Deletion of the
    Telomerase Reverse Transcriptase gene and
    haploinsuffieciency of telomere maintenance in
    Cri du Chat Syndrome. Am. J. Hum. Genet. 72
    940-948.
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