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Potocki–Lupski syndrome

January 01, 1970

Potocki–Lupski syndrome (PTLS), also known as dup(17)p11.2p11.2 syndrome, trisomy 17p11.2 or duplication 17p11.2 syndrome, is a contiguous gene syndrome involving the microduplication of band 11.2 on the short arm of human chromosome 17 (17p11.2).[1] The duplication was first described as a case study in 1996.[2] In 2000, the first study of the disease was released,[3] and in 2007, enough patients had been gathered to complete a comprehensive study and give it a detailed clinical description.[1] PTLS is named for two researchers involved in the latter phases, Drs. Lorraine Potocki and James R. Lupski of Baylor College of Medicine.[1][4]

Potocki–Lupski syndrome
Other names17p11.2 microduplication syndrome ,Trisomy 17p11.2

PTLS was the first predicted reciprocal of a homologous recombination (microdeletion or microduplication) where both reciprocal recombinations result in a contiguous gene syndrome.[1] Its reciprocal disease is Smith–Magenis syndrome (SMS), in which the chromosome portion duplicated in PTLS is deleted altogether.[3]

Potocki–Lupski syndrome is considered a rare disease,[5][6] predicted to appear in at least 1 in 20,000 humans.[7]

Symptoms of the syndrome include intellectual disability, autism,[1] and other disorders unrelated to the listed symptoms.

Presentation edit

Clinically, PTLS presents as a milder syndrome than SMS, with distinct characteristics, though PTLS can be mistaken for SMS.[1] Both syndromes are characterized by multiple congenital abnormalities and intellectual disability. A key feature which appears in 80% of cases is autism spectrum disorder.[8] Other unique features of Potocki–Lupski syndrome include infantile hypotonia, sleep apnea, structural cardiovascular anomalies, cognitive deficits,[9] abnormal social behaviors,[8] learning disabilities, attention-deficit disorder, obsessive-compulsive behaviours, malocclusions, short stature and failure to thrive.[1][10]

After noting that autism is commonly associated with PTLS, researchers at the Centro de Estudios Científicos and the Austral University of Chile genetically engineered a PTLS "model mouse" where the syntenic chromosome segment was duplicated, and examined the social behaviours of these mice versus those without the anomaly (the "wild-type").[8] One human autism-related symptom is abnormal reciprocal social interaction.[8] The researchers observed that the genetically-engineered mice of both sexes had a slight (statistically insignificant) impairment of their preference of a social target (i.e., a living, breathing mouse) over an inanimate one — the average human will prefer the social target — and preferred to explore newly introduced mice instead of familiar ones, unlike the typical human and mouse preference of a friend over a stranger, demonstrating a change in their liking of social novelty. They also found that male mice, in some scenarios, showed increased anxiety and dominant behaviour than the control group. Anatomically, the engineered mice had a decreased brain-to-body mass ratio and an alteration in the expression of several genes in the hippocampus.[8][11]

Molecular genetics edit

Both Potocki–Lupski and Smith–Magenis syndromes arise through a faulty non-allelic homologous recombination mechanism.[12] Both appear to involve a 1.3-3.7Mb chromosome section in 17p11.2 that includes the retinoic acid inducible 1 (RAI1) gene.[13] Other candidate genes have been identified within the duplicated section, including SREBF1, DRG2, LLGL1, SHMT1 and ZFP179.[8]

In mice of the subfamily Murinae, a 32-34cM region of chromosome 11 is syntenic to 17p11.2, meaning that they contain the same genes in the same order and orientation.[11] This conserved sequence has been exploited to learn more about SMS and PTLS. Through genetic studies on both laboratory mice and humans, it has been discovered that RAI1 is likely the gene responsible for these syndromes. For example, in one study, it was shown that mice with 2 copies of the RAI1 gene and 3 copies of each of the other 18 genes in the described translocated region of chromosome 11 appeared and behaved like the control mice with the described region intact.[10][14] In other words, RAI1 is dosage-sensitive. This provides evidence that it is the number of RAI1 copies present that affects the symptoms of PTLS and SMS. It is therefore believed that RAI1 is the critical gene involved in these disorders;[1] however, since no cases of RAI1 duplication alone have been identified, this has not been concluded.[13]

One group has noted that, in a mouse model, the flanking genes in the duplicated segment were also overexpressed, suggesting some new candidates for analysis, including MFAP4, TTC19 and GJA12.[8]

Diagnosis edit

The duplication involved in PTLS is usually large enough to be detected through G-banding alone,[15] though there is a high false negative rate.[1] To ascertain the diagnosis when karyotyping results are unclear or negative, more sophisticated techniques such as subtelomeric fluorescent in-situ hybridization analysis and array comparative genomic hybridization (aCGH) may be used.[16]

Management edit

See also edit

References edit

  1. ^ a b c d e f g h i Potocki, Lorraine; Bi, Weimin; Treadwell-Deering, Diane; Carvalho, Claudia M.B.; Eifert, Anna; Friedman, Ellen M.; Glaze, Daniel; Krull, Kevin; et al. (2007). "Characterization of Potocki-Lupski Syndrome (dup(17)(p11.2p11.2)) and Delineation of a Dosage-Sensitive Critical Interval That Can Convey an Autism Phenotype". The American Journal of Human Genetics. 80 (4): 633–649. doi:10.1086/512864. ISSN 0002-9297. PMC 1852712. PMID 17357070.
  2. ^ Brown, Angela; Phelan, Mary C.; Patil, Sliivanand; Crawford, Eric; Rogers, R. Curtis; Schwartz, Charles (1996). "Two Patients With Duplication of 17~11.2: The Reciprocal of the Smith–Magenis Syndrome Deletion?". American Journal of Medical Genetics. 63 (2): 373–377. doi:10.1002/(SICI)1096-8628(19960517)63:2<373::AID-AJMG9>3.0.CO;2-U. PMID 8725788.
  3. ^ a b Potocki, Lorraine; Chen, KS; Park, SS; Osterholm, DE; Withers, MA; Kimonis, V; Summers, AM; Meschino, WS; et al. (January 2000). "Molecular mechanism for duplication 17p11.2 - the homologous recombination reciprocal of the Smith–Magenis microdeletion". Nature Genetics. 24 (1): 84–87. doi:10.1038/71743. ISSN 1061-4036. PMID 10615134. S2CID 24400634.
  4. ^ Gu, W.; Lupski, James R. (2008). Schmidt, M. (ed.). "CNV and nervous system diseases – what's new?". Cytogenetic and Genome Research. 123 (1–4): 54–64. doi:10.1159/000184692. ISSN 1424-8581. PMC 2920183. PMID 19287139.
  5. ^ "Potocki–Lupski syndrome". Office of Rare Diseases Research's Genetic & Rare Diseases Information Center (GARD). National Institute for Health. Retrieved 25 August 2009.
  6. ^ "Trisomy 17p11.2 (Potocki–Lupski syndrome)". Orphanet. Paris, France: INSERM. Retrieved 25 August 2009.
  7. ^ . Houston, Texas: Baylor College of Medicine. 17 July 2009. Archived from the original on 6 June 2011. Retrieved 26 August 2009.
  8. ^ a b c d e f g Molina, J; Carmona-Mora, P; Chrast, J; Krall, PM; Canales, CP; Lupski, JR; Reymond, A; Walz, K (15 August 2008). "Abnormal social behaviors and altered gene expression rates in a mouse model for Potocki-Lupski syndrome". Human Molecular Genetics. 17 (16): 2486–95. doi:10.1093/hmg/ddn148. PMID 18469339.
  9. ^ Treadwell-Deering, DE; Powell, MP; Potocki, L (2009). "Cognitive and behavioral characterization of the Potocki-Lupski syndrome (duplication 17p11.2)". Journal of Developmental and Behavioral Pediatrics. 31 (2): 137–43. doi:10.1097/DBP.0b013e3181cda67e. PMID 20110824. S2CID 24233881.
  10. ^ a b Walz, Katherina; Paylor, R; Yan, J; Bi, W; Lupski, JR; et al. (November 2006). "Rai1 duplication causes physical and behavioral phenotypes in a mouse model of dup(17)(p11.2p11.2)". Journal of Clinical Investigation. 116 (11): 3035–3041. doi:10.1172/JCI28953. ISSN 0021-9738. PMC 1590269. PMID 17024248.
  11. ^ a b Carmona-Mora, P; Molina, J; Encina, CA; Walz, K (June 2009). "Mouse models of genomic syndromes as tools for understanding the basis of complex traits: an example with the smith-magenis and the potocki-lupski syndromes". Current Genomics. 10 (4): 259–68. doi:10.2174/138920209788488508. PMC 2709937. PMID 19949547.
  12. ^ Zhang, F; Potocki, L; Sampson, JB; Liu, P; Sanchez-Valle, A; Robbins-Furman, P; Navarro, AD; Wheeler, PG; Spence, JE; Brasington, CK; Withers, MA; Lupski, JR (12 March 2010). "Identification of uncommon recurrent Potocki-Lupski syndrome-associated duplications and the distribution of rearrangement types and mechanisms in PTLS". American Journal of Human Genetics. 86 (3): 462–70. doi:10.1016/j.ajhg.2010.02.001. PMC 2833368. PMID 20188345.
  13. ^ a b Lupski, James R.; Stankiewicz, Pawel (December 2005). "Genomic Disorders: Molecular Mechanisms for Rearrangements and Conveyed Phenotypes". PLOS Genetics. 1 (6): e49. doi:10.1371/journal.pgen.0010049. ISSN 1553-7390. PMC 1352149. PMID 16444292.
  14. ^ Carmona-Mora, P; Walz, K (December 2010). "Retinoic Acid Induced 1, RAI1: A Dosage Sensitive Gene Related to Neurobehavioral Alterations Including Autistic Behavior". Current Genomics. 11 (8): 607–17. doi:10.2174/138920210793360952. PMC 3078685. PMID 21629438.
  15. ^ Potocki, L; Bi, W; Treadwell-Deering, D; Carvalho, CM; Eifert, A; Friedman, EM; Glaze, D; Krull, K; Lee, JA; Lewis, RA; Mendoza-Londono, R; Robbins-Furman, P; Shaw, C; Shi, X; Weissenberger, G; Withers, M; Yatsenko, SA; Zackai, EH; Stankiewicz, P; Lupski, JR (April 2007). "Characterization of Potocki-Lupski syndrome (dup(17)(p11.2p11.2)) and delineation of a dosage-sensitive critical interval that can convey an autism phenotype". American Journal of Human Genetics. 80 (4): 633–49. doi:10.1086/512864. PMC 1852712. PMID 17357070.
  16. ^ Sanchez-Jimeno, Carolina; Bustamante-Aragonés, Ana; Infantes-Barbero, Fernando; Rodriguez De Alba, Marta; Ramos, Carmen; Trujillo-Tiebas, María Jose; Lorda-Sánchez, Isabel (December 2014). "Two interstitial rearrangements (16q deletion and 17p duplication) in a child with MR/MCA". Clinical Case Reports. 2 (6): 303–309. doi:10.1002/ccr3.117. PMC 4270714. PMID 25548634.

External links edit

January 01, 1970
potocki, lupski, syndrome, ptls, also, known, 2p11, syndrome, trisomy, 17p11, duplication, 17p11, syndrome, contiguous, gene, syndrome, involving, microduplication, band, short, human, chromosome, 17p11, duplication, first, described, case, study, 1996, 2000, . Potocki Lupski syndrome PTLS also known as dup 17 p11 2p11 2 syndrome trisomy 17p11 2 or duplication 17p11 2 syndrome is a contiguous gene syndrome involving the microduplication of band 11 2 on the short arm of human chromosome 17 17p11 2 1 The duplication was first described as a case study in 1996 2 In 2000 the first study of the disease was released 3 and in 2007 enough patients had been gathered to complete a comprehensive study and give it a detailed clinical description 1 PTLS is named for two researchers involved in the latter phases Drs Lorraine Potocki and James R Lupski of Baylor College of Medicine 1 4 Potocki Lupski syndromeOther names17p11 2 microduplication syndrome Trisomy 17p11 2 PTLS was the first predicted reciprocal of a homologous recombination microdeletion or microduplication where both reciprocal recombinations result in a contiguous gene syndrome 1 Its reciprocal disease is Smith Magenis syndrome SMS in which the chromosome portion duplicated in PTLS is deleted altogether 3 Potocki Lupski syndrome is considered a rare disease 5 6 predicted to appear in at least 1 in 20 000 humans 7 Symptoms of the syndrome include intellectual disability autism 1 and other disorders unrelated to the listed symptoms Contents 1 Presentation 2 Molecular genetics 3 Diagnosis 4 Management 5 See also 6 References 7 External linksPresentation editClinically PTLS presents as a milder syndrome than SMS with distinct characteristics though PTLS can be mistaken for SMS 1 Both syndromes are characterized by multiple congenital abnormalities and intellectual disability A key feature which appears in 80 of cases is autism spectrum disorder 8 Other unique features of Potocki Lupski syndrome include infantile hypotonia sleep apnea structural cardiovascular anomalies cognitive deficits 9 abnormal social behaviors 8 learning disabilities attention deficit disorder obsessive compulsive behaviours malocclusions short stature and failure to thrive 1 10 After noting that autism is commonly associated with PTLS researchers at the Centro de Estudios Cientificos and the Austral University of Chile genetically engineered a PTLS model mouse where the syntenic chromosome segment was duplicated and examined the social behaviours of these mice versus those without the anomaly the wild type 8 One human autism related symptom is abnormal reciprocal social interaction 8 The researchers observed that the genetically engineered mice of both sexes had a slight statistically insignificant impairment of their preference of a social target i e a living breathing mouse over an inanimate one the average human will prefer the social target and preferred to explore newly introduced mice instead of familiar ones unlike the typical human and mouse preference of a friend over a stranger demonstrating a change in their liking of social novelty They also found that male mice in some scenarios showed increased anxiety and dominant behaviour than the control group Anatomically the engineered mice had a decreased brain to body mass ratio and an alteration in the expression of several genes in the hippocampus 8 11 Molecular genetics editBoth Potocki Lupski and Smith Magenis syndromes arise through a faulty non allelic homologous recombination mechanism 12 Both appear to involve a 1 3 3 7Mb chromosome section in 17p11 2 that includes the retinoic acid inducible 1 RAI1 gene 13 Other candidate genes have been identified within the duplicated section including SREBF1 DRG2 LLGL1 SHMT1 and ZFP179 8 In mice of the subfamily Murinae a 32 34cM region of chromosome 11 is syntenic to 17p11 2 meaning that they contain the same genes in the same order and orientation 11 This conserved sequence has been exploited to learn more about SMS and PTLS Through genetic studies on both laboratory mice and humans it has been discovered that RAI1 is likely the gene responsible for these syndromes For example in one study it was shown that mice with 2 copies of the RAI1 gene and 3 copies of each of the other 18 genes in the described translocated region of chromosome 11 appeared and behaved like the control mice with the described region intact 10 14 In other words RAI1 is dosage sensitive This provides evidence that it is the number of RAI1 copies present that affects the symptoms of PTLS and SMS It is therefore believed that RAI1 is the critical gene involved in these disorders 1 however since no cases of RAI1 duplication alone have been identified this has not been concluded 13 One group has noted that in a mouse model the flanking genes in the duplicated segment were also overexpressed suggesting some new candidates for analysis including MFAP4 TTC19 and GJA12 8 Diagnosis editThe duplication involved in PTLS is usually large enough to be detected through G banding alone 15 though there is a high false negative rate 1 To ascertain the diagnosis when karyotyping results are unclear or negative more sophisticated techniques such as subtelomeric fluorescent in situ hybridization analysis and array comparative genomic hybridization aCGH may be used 16 Management editThis section is empty You can help by adding to it August 2017 See also editChromosome nomenclature Low copy repeatsReferences edit a b c d e f g h i Potocki Lorraine Bi Weimin Treadwell Deering Diane Carvalho Claudia M B Eifert Anna Friedman Ellen M Glaze Daniel Krull Kevin et al 2007 Characterization of Potocki Lupski Syndrome dup 17 p11 2p11 2 and Delineation of a Dosage Sensitive Critical Interval That Can Convey an Autism Phenotype The American Journal of Human Genetics 80 4 633 649 doi 10 1086 512864 ISSN 0002 9297 PMC 1852712 PMID 17357070 Brown Angela Phelan Mary C Patil Sliivanand Crawford Eric Rogers R Curtis Schwartz Charles 1996 Two Patients With Duplication of 17 11 2 The Reciprocal of the Smith Magenis Syndrome Deletion American Journal of Medical Genetics 63 2 373 377 doi 10 1002 SICI 1096 8628 19960517 63 2 lt 373 AID AJMG9 gt 3 0 CO 2 U PMID 8725788 a b Potocki Lorraine Chen KS Park SS Osterholm DE Withers MA Kimonis V Summers AM Meschino WS et al January 2000 Molecular mechanism for duplication 17p11 2 the homologous recombination reciprocal of the Smith Magenis microdeletion Nature Genetics 24 1 84 87 doi 10 1038 71743 ISSN 1061 4036 PMID 10615134 S2CID 24400634 Gu W Lupski James R 2008 Schmidt M ed CNV and nervous system diseases what s new Cytogenetic and Genome Research 123 1 4 54 64 doi 10 1159 000184692 ISSN 1424 8581 PMC 2920183 PMID 19287139 Potocki Lupski syndrome Office of Rare Diseases Research s Genetic amp Rare Diseases Information Center GARD National Institute for Health Retrieved 25 August 2009 Trisomy 17p11 2 Potocki Lupski syndrome Orphanet Paris France INSERM Retrieved 25 August 2009 About Potocki Lupski syndrome Houston Texas Baylor College of Medicine 17 July 2009 Archived from the original on 6 June 2011 Retrieved 26 August 2009 a b c d e f g Molina J Carmona Mora P Chrast J Krall PM Canales CP Lupski JR Reymond A Walz K 15 August 2008 Abnormal social behaviors and altered gene expression rates in a mouse model for Potocki Lupski syndrome Human Molecular Genetics 17 16 2486 95 doi 10 1093 hmg ddn148 PMID 18469339 Treadwell Deering DE Powell MP Potocki L 2009 Cognitive and behavioral characterization of the Potocki Lupski syndrome duplication 17p11 2 Journal of Developmental and Behavioral Pediatrics 31 2 137 43 doi 10 1097 DBP 0b013e3181cda67e PMID 20110824 S2CID 24233881 a b Walz Katherina Paylor R Yan J Bi W Lupski JR et al November 2006 Rai1 duplication causes physical and behavioral phenotypes in a mouse model of dup 17 p11 2p11 2 Journal of Clinical Investigation 116 11 3035 3041 doi 10 1172 JCI28953 ISSN 0021 9738 PMC 1590269 PMID 17024248 a b Carmona Mora P Molina J Encina CA Walz K June 2009 Mouse models of genomic syndromes as tools for understanding the basis of complex traits an example with the smith magenis and the potocki lupski syndromes Current Genomics 10 4 259 68 doi 10 2174 138920209788488508 PMC 2709937 PMID 19949547 Zhang F Potocki L Sampson JB Liu P Sanchez Valle A Robbins Furman P Navarro AD Wheeler PG Spence JE Brasington CK Withers MA Lupski JR 12 March 2010 Identification of uncommon recurrent Potocki Lupski syndrome associated duplications and the distribution of rearrangement types and mechanisms in PTLS American Journal of Human Genetics 86 3 462 70 doi 10 1016 j ajhg 2010 02 001 PMC 2833368 PMID 20188345 a b Lupski James R Stankiewicz Pawel December 2005 Genomic Disorders Molecular Mechanisms for Rearrangements and Conveyed Phenotypes PLOS Genetics 1 6 e49 doi 10 1371 journal pgen 0010049 ISSN 1553 7390 PMC 1352149 PMID 16444292 Carmona Mora P Walz K December 2010 Retinoic Acid Induced 1 RAI1 A Dosage Sensitive Gene Related to Neurobehavioral Alterations Including Autistic Behavior Current Genomics 11 8 607 17 doi 10 2174 138920210793360952 PMC 3078685 PMID 21629438 Potocki L Bi W Treadwell Deering D Carvalho CM Eifert A Friedman EM Glaze D Krull K Lee JA Lewis RA Mendoza Londono R Robbins Furman P Shaw C Shi X Weissenberger G Withers M Yatsenko SA Zackai EH Stankiewicz P Lupski JR April 2007 Characterization of Potocki Lupski syndrome dup 17 p11 2p11 2 and delineation of a dosage sensitive critical interval that can convey an autism phenotype American Journal of Human Genetics 80 4 633 49 doi 10 1086 512864 PMC 1852712 PMID 17357070 Sanchez Jimeno Carolina Bustamante Aragones Ana Infantes Barbero Fernando Rodriguez De Alba Marta Ramos Carmen Trujillo Tiebas Maria Jose Lorda Sanchez Isabel December 2014 Two interstitial rearrangements 16q deletion and 17p duplication in a child with MR MCA Clinical Case Reports 2 6 303 309 doi 10 1002 ccr3 117 PMC 4270714 PMID 25548634 External links edit Retrieved from https en wikipedia org w index php title Potocki Lupski syndrome amp oldid 1188076895, wikipedia, wiki, book, books, library,

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