Entry - %603176 - SCHIZOPHRENIA 7; SCZD7 - OMIM

 
ICD+
% 603176

SCHIZOPHRENIA 7; SCZD7


Alternative titles; symbols

SCHIZOPHRENIA 7 WITH OR WITHOUT AN AFFECTIVE DISORDER
SCHIZOPHRENIA SUSCEPTIBILITY LOCUS, CHROMOSOME 13q-RELATED


Cytogenetic location: 13q32     Genomic coordinates (GRCh38): 13:94,400,001-101,100,000


Gene-Phenotype Relationships
Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key
13q32 {Schizophrenia} 181500 AD 2

TEXT

For a phenotypic description and a discussion of genetic heterogeneity of schizophrenia, see 181500.

Mapping

From a study of 13 families in which multiple members had schizophrenia, Lin et al. (1995) presented data suggesting linkage to markers on chromosome 13q.

Blouin et al. (1998) used the term 'schizophrenia susceptibility locus' (SSL) for loci identified in linkage studies of schizophrenia. They reviewed previous studies in which regions of chromosomes 3, 8, and 22 had been linked to schizophrenia susceptibility and presented a genomewide scan for schizophrenia susceptibility loci using 452 microsatellite markers on 54 multiplex pedigrees. Nonparametric linkage analysis provided significant evidence for an SSL on 13q32 and suggested evidence for another SSL on 8p22-p21 (603013). The same consortium (Pulver et al., 1996) had earlier reported evidence for SSLs on 13q and 8p as well as at 2 other loci. Using the Maryland Epidemiology Sample, sib-pair analysis showed linkage to D13S770 (p = 0.0002), a maximum lod score of 3.24 in that region under a dominant model for D13S128, and a maximum lod score of 2.53 under a recessive model for D13S779.

Shaw et al. (1998) conducted a genomewide search for evidence of loci linked to schizophrenia, using an independent sample of 48 pedigrees with 70 sib pairs. Allele sharing tests demonstrated that 12 chromosomes, including 13 and 8, showed at least 1 region with a nominal P value of less than 0.05, whereas only chromosomes 16 and 13 markers showed a nominal P value less than 0.01. Only 5 chromosomes, including 13, had markers that showed a lod score greater than 2.0.

Brzustowicz et al. (1999) analyzed 21 extended Canadian families with schizophrenia under autosomal dominant and recessive models with broad and narrow definitions of schizophrenia. All models produced positive lod scores with markers on 13q, with higher scores under the recessive models. The maximum 3-point lod scores were obtained under the recessive-broad model: 3.92 at theta = 0.1 with D13S793 under homogeneity and 4.42 with alpha = 0.65 and straight theta = 0 with D13S793 under heterogeneity. Brzustowicz et al. (2000) used multipoint analysis on chromosome 13 and found a maximum lod score of 3.81 with p = 0.02 under the recessive-broad model of schizophrenia at D13S793, with an estimated 65% of families linked to this region. The findings were consistent with those in their previous studies in the same families.

Within a 5-Mb segment on chromosome 13q34 linked to schizophrenia, Chumakov et al. (2002) identified a gene, G72 (607408), that is transcribed in brain. Hattori et al. (2003) found an association between the G72 gene and bipolar disorder (see 125480), and suggested that a shared susceptibility gene complex may be involved in both psychiatric disorders.

Korostishevsky et al. (2004) studied 11 SNPs encompassing the G72/G30 (607415) locus in 60 Ashkenazi Jewish schizophrenic patients and 130 matched control subjects. Case control comparisons were based on linkage disequilibrium and haplotype frequency estimates. Two main SNP blocks were identified, one of which, containing 3 SNPs external to the genes, demonstrated an association with schizophrenia (p of 0.006 +/- 0.003). Korostishevsky et al. (2004) performed gene expression analysis of G72 and G30 on 44 schizophrenic and 44 control postmortem dorsolateral prefrontal cortex samples and identified a tendency toward G72 overexpression in schizophrenic brain samples.

Williams et al. (2006) sought to replicate previously reported association of variations in the DAOA/G30 locus in both schizophrenia and bipolar disorder. They genotyped 709 individuals with schizophrenia, 706 individuals with bipolar disorder, and 1,416 ethnically matched controls for 9 polymorphisms that tag common genetic variations. They identified significant association (p = 0.01-0.047) between 3 single nucleotide polymorphisms and bipolar disorder but failed to find association with schizophrenia. Analyses across diagnostic categories revealed significant evidence (p = 0.002-0.02) for association with 3 SNPS (rs391695, M12; rs1341402; rs2391191, M15) in a subset of cases (n = 818) in which episodes of major depressive disorder had occurred (genomewide p = 0.009), leading the authors to posit that the DAOA/G30 locus does not primarily increase susceptibility for schizophrenia or psychosis but influences susceptibility to episodes of mood disorders across the traditional bipolar and schizophrenia categories.


REFERENCES

  1. Blouin, J.-L., Dombroski, B. A., Nath, S. K., Lasseter, V. K., Wolyniec, P. S., Nestadt, G., Thornquist, M., Ullrich, G., McGrath, J., Kasch, L., Lamacz, M., Thomas, M. G., and 16 others. Schizophrenia susceptibility loci on chromosomes 13q32 and 8p21. Nature Genet. 20: 70-73, 1998. [PubMed: 9731535, related citations] [Full Text]

  2. Brzustowicz, L. M., Hodgkinson, K. A., Chow, E. W. C., Honer, W. G., Bassett, A. S. Location of a major susceptibility locus for familial schizophrenia on chromosome 1q21-q22. Science 288: 678-682, 2000. [PubMed: 10784452, images, related citations] [Full Text]

  3. Brzustowicz, L. M., Honer, W. G., Chow, E. W., Little, D., Hogan, J., Hodgkinson, K., Bassett, A. S. Linkage of familial schizophrenia to chromosome 13q32. Am. J. Hum. Genet. 65: 1096-1103, 1999. [PubMed: 10486329, images, related citations] [Full Text]

  4. Chumakov, I., Blumenfeld, M., Guerassimenko, O., Cavarec, L., Palicio, M., Abderrahim, H., Bougueleret, L., Barry, C., Tanaka, H., La Rosa, P., Puech, A., Tahri, N., and 51 others. Genetic and physiological data implicating the new human gene G72 and the gene for D-amino acid oxidase in schizophrenia. Proc. Nat. Acad. Sci. 99: 13675-13680, 2002. Note: Erratum: Proc. Nat. Acad. Sci. 99: 17221 only, 2002. [PubMed: 12364586, images, related citations] [Full Text]

  5. Hattori, E., Liu, C., Badner, J. A., Bonner, T. I., Christian, S. L., Maheshwari, M., Detera-Wadleigh, S. D., Gibbs, R. A., Gershon, E. S. Polymorphisms at the G72/G30 gene locus, on 13q33, are associated with bipolar disorder in two independent pedigree series. Am. J. Hum. Genet. 72: 1131-1140, 2003. [PubMed: 12647258, images, related citations] [Full Text]

  6. Korostishevsky, M., Kaganovich, M., Cholostoy, A., Ashkenazi, M., Ratner, Y., Dahary, D., Bernstein, J., Bening-Abu-Shach, U., Ben-Asher, E., Lancet, D., Ritsner, M., Navon, R. Is the G72/G30 locus associated with schizophrenia? Single nucleotide polymorphisms, haplotypes, and gene expression analysis. Biol. Psychiat. 56: 169-176, 2004. [PubMed: 15271585, related citations] [Full Text]

  7. Lin, M.-W., Curtis, D., Williams, N., Arranz, M., Nanko, S., Collier, D., McGuffin, P., Murray, R., Owen, M., Gill, M., Powell, J. Suggestive evidence for linkage of schizophrenia to markers on chromosome 13q14.1-q32. Psychiat. Genet. 5: 117-126, 1995. Note: Erratum: Psychiat. Genet. 6: 37 only, 1996. [PubMed: 8746410, related citations] [Full Text]

  8. Pulver, A. E., Wolyniec, P. S., Housman, D., Kazazian, H. H., Antonarakis, S. E., Nestadt, G., Lasseter, V. K., McGrath, J. A., Dombroski, B., Karayiorgou, M., Ton, C., Blouin, J.-L., Kempf, L. The Johns Hopkins University Collaborative Schizophrenia Study: an epidemiologic-genetic approach to test the heterogeneity hypothesis and identify schizophrenia susceptibility genes. Cold Spring Harbor Symp. Quant. Biol. 61: 797-814, 1996. [PubMed: 9246505, related citations]

  9. Shaw, S. H., Kelly, M., Smith, A. B., Shields, G., Hopkins, P. J., Loftus, J., Laval, S. H., Vita, A., De Hert, M., Cardon, L. R., Crow, T. J., Sherrington, R., DeLisi, L. E. A genome-wide search for schizophrenia susceptibility genes. Am. J. Med. Genet. 81: 364-376, 1998. [PubMed: 9754621, related citations] [Full Text]

  10. Williams, N. M., Green, E. K., Macgregor, S., Dwyer, S., Norton, N., Williams, H., Raybould, R., Grozeva, D., Hamshere, M., Zammit, S., Jones, L., Cardno, A., Kirov, G., Jones, I., O'Donovan, M. C., Owen, M. J., Craddock, N. Variation at the DAOA/G30 locus influences susceptibility to major mood episodes but not psychosis in schizophrenia and bipolar disorder. Arch. Gen. Psychiat. 63: 366-373, 2006. [PubMed: 16585465, related citations] [Full Text]


Contributors:
John Logan Black, III - updated : 11/13/2006
John Logan Black, III - updated : 4/4/2005
Cassandra L. Kniffin - updated : 9/22/2003
Ada Hamosh - updated : 5/2/2000
Orest Hurko - updated : 11/19/1998
Creation Date:
Victor A. McKusick : 10/21/1998
Edit History:
carol : 08/18/2017
joanna : 06/24/2016
terry : 12/20/2012
terry : 8/17/2012
carol : 11/16/2006
terry : 11/13/2006
mgross : 4/4/2005
mgross : 3/18/2004
carol : 9/22/2003
ckniffin : 9/22/2003
alopez : 5/2/2000
carol : 5/2/2000
carol : 12/7/1998
carol : 11/19/1998
carol : 10/21/1998

% 603176

SCHIZOPHRENIA 7; SCZD7


Alternative titles; symbols

SCHIZOPHRENIA 7 WITH OR WITHOUT AN AFFECTIVE DISORDER
SCHIZOPHRENIA SUSCEPTIBILITY LOCUS, CHROMOSOME 13q-RELATED


DO: 0070083;  


Cytogenetic location: 13q32     Genomic coordinates (GRCh38): 13:94,400,001-101,100,000


Gene-Phenotype Relationships

Location Phenotype Phenotype
MIM number 		Inheritance Phenotype
mapping key
13q32 {Schizophrenia} 181500 Autosomal dominant 2

TEXT

For a phenotypic description and a discussion of genetic heterogeneity of schizophrenia, see 181500.

Mapping

From a study of 13 families in which multiple members had schizophrenia, Lin et al. (1995) presented data suggesting linkage to markers on chromosome 13q.

Blouin et al. (1998) used the term 'schizophrenia susceptibility locus' (SSL) for loci identified in linkage studies of schizophrenia. They reviewed previous studies in which regions of chromosomes 3, 8, and 22 had been linked to schizophrenia susceptibility and presented a genomewide scan for schizophrenia susceptibility loci using 452 microsatellite markers on 54 multiplex pedigrees. Nonparametric linkage analysis provided significant evidence for an SSL on 13q32 and suggested evidence for another SSL on 8p22-p21 (603013). The same consortium (Pulver et al., 1996) had earlier reported evidence for SSLs on 13q and 8p as well as at 2 other loci. Using the Maryland Epidemiology Sample, sib-pair analysis showed linkage to D13S770 (p = 0.0002), a maximum lod score of 3.24 in that region under a dominant model for D13S128, and a maximum lod score of 2.53 under a recessive model for D13S779.

Shaw et al. (1998) conducted a genomewide search for evidence of loci linked to schizophrenia, using an independent sample of 48 pedigrees with 70 sib pairs. Allele sharing tests demonstrated that 12 chromosomes, including 13 and 8, showed at least 1 region with a nominal P value of less than 0.05, whereas only chromosomes 16 and 13 markers showed a nominal P value less than 0.01. Only 5 chromosomes, including 13, had markers that showed a lod score greater than 2.0.

Brzustowicz et al. (1999) analyzed 21 extended Canadian families with schizophrenia under autosomal dominant and recessive models with broad and narrow definitions of schizophrenia. All models produced positive lod scores with markers on 13q, with higher scores under the recessive models. The maximum 3-point lod scores were obtained under the recessive-broad model: 3.92 at theta = 0.1 with D13S793 under homogeneity and 4.42 with alpha = 0.65 and straight theta = 0 with D13S793 under heterogeneity. Brzustowicz et al. (2000) used multipoint analysis on chromosome 13 and found a maximum lod score of 3.81 with p = 0.02 under the recessive-broad model of schizophrenia at D13S793, with an estimated 65% of families linked to this region. The findings were consistent with those in their previous studies in the same families.

Within a 5-Mb segment on chromosome 13q34 linked to schizophrenia, Chumakov et al. (2002) identified a gene, G72 (607408), that is transcribed in brain. Hattori et al. (2003) found an association between the G72 gene and bipolar disorder (see 125480), and suggested that a shared susceptibility gene complex may be involved in both psychiatric disorders.

Korostishevsky et al. (2004) studied 11 SNPs encompassing the G72/G30 (607415) locus in 60 Ashkenazi Jewish schizophrenic patients and 130 matched control subjects. Case control comparisons were based on linkage disequilibrium and haplotype frequency estimates. Two main SNP blocks were identified, one of which, containing 3 SNPs external to the genes, demonstrated an association with schizophrenia (p of 0.006 +/- 0.003). Korostishevsky et al. (2004) performed gene expression analysis of G72 and G30 on 44 schizophrenic and 44 control postmortem dorsolateral prefrontal cortex samples and identified a tendency toward G72 overexpression in schizophrenic brain samples.

Williams et al. (2006) sought to replicate previously reported association of variations in the DAOA/G30 locus in both schizophrenia and bipolar disorder. They genotyped 709 individuals with schizophrenia, 706 individuals with bipolar disorder, and 1,416 ethnically matched controls for 9 polymorphisms that tag common genetic variations. They identified significant association (p = 0.01-0.047) between 3 single nucleotide polymorphisms and bipolar disorder but failed to find association with schizophrenia. Analyses across diagnostic categories revealed significant evidence (p = 0.002-0.02) for association with 3 SNPS (rs391695, M12; rs1341402; rs2391191, M15) in a subset of cases (n = 818) in which episodes of major depressive disorder had occurred (genomewide p = 0.009), leading the authors to posit that the DAOA/G30 locus does not primarily increase susceptibility for schizophrenia or psychosis but influences susceptibility to episodes of mood disorders across the traditional bipolar and schizophrenia categories.


REFERENCES

  1. Blouin, J.-L., Dombroski, B. A., Nath, S. K., Lasseter, V. K., Wolyniec, P. S., Nestadt, G., Thornquist, M., Ullrich, G., McGrath, J., Kasch, L., Lamacz, M., Thomas, M. G., and 16 others. Schizophrenia susceptibility loci on chromosomes 13q32 and 8p21. Nature Genet. 20: 70-73, 1998. [PubMed: 9731535] [Full Text: https://doi.org/10.1038/1734]

  2. Brzustowicz, L. M., Hodgkinson, K. A., Chow, E. W. C., Honer, W. G., Bassett, A. S. Location of a major susceptibility locus for familial schizophrenia on chromosome 1q21-q22. Science 288: 678-682, 2000. [PubMed: 10784452] [Full Text: https://doi.org/10.1126/science.288.5466.678]

  3. Brzustowicz, L. M., Honer, W. G., Chow, E. W., Little, D., Hogan, J., Hodgkinson, K., Bassett, A. S. Linkage of familial schizophrenia to chromosome 13q32. Am. J. Hum. Genet. 65: 1096-1103, 1999. [PubMed: 10486329] [Full Text: https://doi.org/10.1086/302579]

  4. Chumakov, I., Blumenfeld, M., Guerassimenko, O., Cavarec, L., Palicio, M., Abderrahim, H., Bougueleret, L., Barry, C., Tanaka, H., La Rosa, P., Puech, A., Tahri, N., and 51 others. Genetic and physiological data implicating the new human gene G72 and the gene for D-amino acid oxidase in schizophrenia. Proc. Nat. Acad. Sci. 99: 13675-13680, 2002. Note: Erratum: Proc. Nat. Acad. Sci. 99: 17221 only, 2002. [PubMed: 12364586] [Full Text: https://doi.org/10.1073/pnas.182412499]

  5. Hattori, E., Liu, C., Badner, J. A., Bonner, T. I., Christian, S. L., Maheshwari, M., Detera-Wadleigh, S. D., Gibbs, R. A., Gershon, E. S. Polymorphisms at the G72/G30 gene locus, on 13q33, are associated with bipolar disorder in two independent pedigree series. Am. J. Hum. Genet. 72: 1131-1140, 2003. [PubMed: 12647258] [Full Text: https://doi.org/10.1086/374822]

  6. Korostishevsky, M., Kaganovich, M., Cholostoy, A., Ashkenazi, M., Ratner, Y., Dahary, D., Bernstein, J., Bening-Abu-Shach, U., Ben-Asher, E., Lancet, D., Ritsner, M., Navon, R. Is the G72/G30 locus associated with schizophrenia? Single nucleotide polymorphisms, haplotypes, and gene expression analysis. Biol. Psychiat. 56: 169-176, 2004. [PubMed: 15271585] [Full Text: https://doi.org/10.1016/j.biopsych.2004.04.006]

  7. Lin, M.-W., Curtis, D., Williams, N., Arranz, M., Nanko, S., Collier, D., McGuffin, P., Murray, R., Owen, M., Gill, M., Powell, J. Suggestive evidence for linkage of schizophrenia to markers on chromosome 13q14.1-q32. Psychiat. Genet. 5: 117-126, 1995. Note: Erratum: Psychiat. Genet. 6: 37 only, 1996. [PubMed: 8746410] [Full Text: https://doi.org/10.1097/00041444-199505030-00004]

  8. Pulver, A. E., Wolyniec, P. S., Housman, D., Kazazian, H. H., Antonarakis, S. E., Nestadt, G., Lasseter, V. K., McGrath, J. A., Dombroski, B., Karayiorgou, M., Ton, C., Blouin, J.-L., Kempf, L. The Johns Hopkins University Collaborative Schizophrenia Study: an epidemiologic-genetic approach to test the heterogeneity hypothesis and identify schizophrenia susceptibility genes. Cold Spring Harbor Symp. Quant. Biol. 61: 797-814, 1996. [PubMed: 9246505]

  9. Shaw, S. H., Kelly, M., Smith, A. B., Shields, G., Hopkins, P. J., Loftus, J., Laval, S. H., Vita, A., De Hert, M., Cardon, L. R., Crow, T. J., Sherrington, R., DeLisi, L. E. A genome-wide search for schizophrenia susceptibility genes. Am. J. Med. Genet. 81: 364-376, 1998. [PubMed: 9754621] [Full Text: https://doi.org/10.1002/(sici)1096-8628(19980907)81:5<364::aid-ajmg4>3.0.co;2-t]

  10. Williams, N. M., Green, E. K., Macgregor, S., Dwyer, S., Norton, N., Williams, H., Raybould, R., Grozeva, D., Hamshere, M., Zammit, S., Jones, L., Cardno, A., Kirov, G., Jones, I., O'Donovan, M. C., Owen, M. J., Craddock, N. Variation at the DAOA/G30 locus influences susceptibility to major mood episodes but not psychosis in schizophrenia and bipolar disorder. Arch. Gen. Psychiat. 63: 366-373, 2006. [PubMed: 16585465] [Full Text: https://doi.org/10.1001/archpsyc.63.4.366]


Contributors:
John Logan Black, III - updated : 11/13/2006
John Logan Black, III - updated : 4/4/2005
Cassandra L. Kniffin - updated : 9/22/2003
Ada Hamosh - updated : 5/2/2000
Orest Hurko - updated : 11/19/1998

Creation Date:
Victor A. McKusick : 10/21/1998

Edit History:
carol : 08/18/2017
joanna : 06/24/2016
terry : 12/20/2012
terry : 8/17/2012
carol : 11/16/2006
terry : 11/13/2006
mgross : 4/4/2005
mgross : 3/18/2004
carol : 9/22/2003
ckniffin : 9/22/2003
alopez : 5/2/2000
carol : 5/2/2000
carol : 12/7/1998
carol : 11/19/1998
carol : 10/21/1998



NOTE: OMIM is intended for use primarily by physicians and other professionals concerned with genetic disorders, by genetics researchers, and by advanced students in science and medicine. While the OMIM database is open to the public, users seeking information about a personal medical or genetic condition are urged to consult with a qualified physician for diagnosis and for answers to personal questions.
OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2024 Johns Hopkins University.

NOTE: OMIM is intended for use primarily by physicians and other professionals concerned with genetic disorders, by genetics researchers, and by advanced students in science and medicine. While the OMIM database is open to the public, users seeking information about a personal medical or genetic condition are urged to consult with a qualified physician for diagnosis and for answers to personal questions.
OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2024 Johns Hopkins University.
Printed: May 6, 2024