RECON syndrome is a genome instability disorder caused by mutations in the DNA helicase RECQL1

Bassam Abu-Libdeh; Satpal S. Jhujh; Srijita Dhar; Joshua A. Sommers; Arindam Datta; Gabriel M.C. Longo; Laura J. Grange; John J. Reynolds; Sophie L. Cooke; Gavin S. McNee; Robert Hollingworth; Beth L. Woodward; Anil N. Ganesh; Stephen J. Smerdon; Claudia M. Nicolae; Karina Durlacher-Betzer; Vered Molho-Pessach; Abdulsalam Abu-Libdeh; Vardiella Meiner; George Lucian Moldovan; Vassilis Roukos; Tamar Harel; Robert M. Brosh; Grant S. Stewart

doi:10.1172/JCI147301

RECON syndrome is a genome instability disorder caused by mutations in the DNA helicase RECQL1

Bassam Abu-Libdeh, Satpal S. Jhujh, Srijita Dhar, Joshua A. Sommers, Arindam Datta, Gabriel M.C. Longo, Laura J. Grange, John J. Reynolds, Sophie L. Cooke, Gavin S. McNee, Robert Hollingworth, Beth L. Woodward, Anil N. Ganesh, Stephen J. Smerdon, Claudia M. Nicolae, Karina Durlacher-Betzer, Vered Molho-Pessach, Abdulsalam Abu-Libdeh, Vardiella Meiner, George Lucian MoldovanVassilis Roukos, Tamar Harel, Robert M. Brosh, Grant S. Stewart

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Abstract

Despite being the first homolog of the bacterial RecQ helicase to be identified in humans, the function of RECQL1 remains poorly characterized. Furthermore, unlike other members of the human RECQ family of helicases, mutations in RECQL1 have not been associated with a genetic disease. Here, we identify 2 families with a genome instability disorder that we have named RECON (RECql ONe) syndrome, caused by biallelic mutations in the RECQL gene. The affected individuals had short stature, progeroid facial features, a hypoplastic nose, xeroderma, and skin photosensitivity and were homozygous for the same missense mutation in RECQL1 (p.Ala459Ser), located within its zinc binding domain. Biochemical analysis of the mutant RECQL1 protein revealed that the p.A459S missense mutation compromised its ATPase, helicase, and fork restoration activity, while its capacity to promote single-strand DNA annealing was largely unaffected. At the cellular level, this mutation in RECQL1 gave rise to a defect in the ability to repair DNA damage induced by exposure to topoisomerase poisons and a failure of DNA replication to progress efficiently in the presence of abortive topoisomerase lesions. Taken together, RECQL1 is the fourth member of the RecQ family of helicases to be associated with a human genome instability disorder.

Original language	English (US)
Article number	e147301
Journal	Journal of Clinical Investigation
Volume	132
Issue number	5
DOIs	https://doi.org/10.1172/JCI147301
State	Published - Mar 1 2022

All Science Journal Classification (ASJC) codes

General Medicine

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10.1172/JCI147301

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Abu-Libdeh, B., Jhujh, S. S., Dhar, S., Sommers, J. A., Datta, A., Longo, G. M. C., Grange, L. J., Reynolds, J. J., Cooke, S. L., McNee, G. S., Hollingworth, R., Woodward, B. L., Ganesh, A. N., Smerdon, S. J., Nicolae, C. M., Durlacher-Betzer, K., Molho-Pessach, V., Abu-Libdeh, A., Meiner, V., ... Stewart, G. S. (2022). RECON syndrome is a genome instability disorder caused by mutations in the DNA helicase RECQL1. Journal of Clinical Investigation, 132(5), Article e147301. https://doi.org/10.1172/JCI147301

@article{28f70376370947ccb25099aeb9334eae,

title = "RECON syndrome is a genome instability disorder caused by mutations in the DNA helicase RECQL1",

abstract = "Despite being the first homolog of the bacterial RecQ helicase to be identified in humans, the function of RECQL1 remains poorly characterized. Furthermore, unlike other members of the human RECQ family of helicases, mutations in RECQL1 have not been associated with a genetic disease. Here, we identify 2 families with a genome instability disorder that we have named RECON (RECql ONe) syndrome, caused by biallelic mutations in the RECQL gene. The affected individuals had short stature, progeroid facial features, a hypoplastic nose, xeroderma, and skin photosensitivity and were homozygous for the same missense mutation in RECQL1 (p.Ala459Ser), located within its zinc binding domain. Biochemical analysis of the mutant RECQL1 protein revealed that the p.A459S missense mutation compromised its ATPase, helicase, and fork restoration activity, while its capacity to promote single-strand DNA annealing was largely unaffected. At the cellular level, this mutation in RECQL1 gave rise to a defect in the ability to repair DNA damage induced by exposure to topoisomerase poisons and a failure of DNA replication to progress efficiently in the presence of abortive topoisomerase lesions. Taken together, RECQL1 is the fourth member of the RecQ family of helicases to be associated with a human genome instability disorder.",

author = "Bassam Abu-Libdeh and Jhujh, {Satpal S.} and Srijita Dhar and Sommers, {Joshua A.} and Arindam Datta and Longo, {Gabriel M.C.} and Grange, {Laura J.} and Reynolds, {John J.} and Cooke, {Sophie L.} and McNee, {Gavin S.} and Robert Hollingworth and Woodward, {Beth L.} and Ganesh, {Anil N.} and Smerdon, {Stephen J.} and Nicolae, {Claudia M.} and Karina Durlacher-Betzer and Vered Molho-Pessach and Abdulsalam Abu-Libdeh and Vardiella Meiner and Moldovan, {George Lucian} and Vassilis Roukos and Tamar Harel and Brosh, {Robert M.} and Stewart, {Grant S.}",

year = "2022",

month = mar,

day = "1",

doi = "10.1172/JCI147301",

language = "English (US)",

volume = "132",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

publisher = "American Society for Clinical Investigation",

number = "5",

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Abu-Libdeh, B, Jhujh, SS, Dhar, S, Sommers, JA, Datta, A, Longo, GMC, Grange, LJ, Reynolds, JJ, Cooke, SL, McNee, GS, Hollingworth, R, Woodward, BL, Ganesh, AN, Smerdon, SJ, Nicolae, CM, Durlacher-Betzer, K, Molho-Pessach, V, Abu-Libdeh, A, Meiner, V, Moldovan, GL, Roukos, V, Harel, T, Brosh, RM & Stewart, GS 2022, 'RECON syndrome is a genome instability disorder caused by mutations in the DNA helicase RECQL1', Journal of Clinical Investigation, vol. 132, no. 5, e147301. https://doi.org/10.1172/JCI147301

TY - JOUR

T1 - RECON syndrome is a genome instability disorder caused by mutations in the DNA helicase RECQL1

AU - Abu-Libdeh, Bassam

AU - Jhujh, Satpal S.

AU - Dhar, Srijita

AU - Sommers, Joshua A.

AU - Datta, Arindam

AU - Longo, Gabriel M.C.

AU - Grange, Laura J.

AU - Reynolds, John J.

AU - Cooke, Sophie L.

AU - McNee, Gavin S.

AU - Hollingworth, Robert

AU - Woodward, Beth L.

AU - Ganesh, Anil N.

AU - Smerdon, Stephen J.

AU - Nicolae, Claudia M.

AU - Durlacher-Betzer, Karina

AU - Molho-Pessach, Vered

AU - Abu-Libdeh, Abdulsalam

AU - Meiner, Vardiella

AU - Moldovan, George Lucian

AU - Roukos, Vassilis

AU - Harel, Tamar

AU - Brosh, Robert M.

AU - Stewart, Grant S.

PY - 2022/3/1

Y1 - 2022/3/1

N2 - Despite being the first homolog of the bacterial RecQ helicase to be identified in humans, the function of RECQL1 remains poorly characterized. Furthermore, unlike other members of the human RECQ family of helicases, mutations in RECQL1 have not been associated with a genetic disease. Here, we identify 2 families with a genome instability disorder that we have named RECON (RECql ONe) syndrome, caused by biallelic mutations in the RECQL gene. The affected individuals had short stature, progeroid facial features, a hypoplastic nose, xeroderma, and skin photosensitivity and were homozygous for the same missense mutation in RECQL1 (p.Ala459Ser), located within its zinc binding domain. Biochemical analysis of the mutant RECQL1 protein revealed that the p.A459S missense mutation compromised its ATPase, helicase, and fork restoration activity, while its capacity to promote single-strand DNA annealing was largely unaffected. At the cellular level, this mutation in RECQL1 gave rise to a defect in the ability to repair DNA damage induced by exposure to topoisomerase poisons and a failure of DNA replication to progress efficiently in the presence of abortive topoisomerase lesions. Taken together, RECQL1 is the fourth member of the RecQ family of helicases to be associated with a human genome instability disorder.

AB - Despite being the first homolog of the bacterial RecQ helicase to be identified in humans, the function of RECQL1 remains poorly characterized. Furthermore, unlike other members of the human RECQ family of helicases, mutations in RECQL1 have not been associated with a genetic disease. Here, we identify 2 families with a genome instability disorder that we have named RECON (RECql ONe) syndrome, caused by biallelic mutations in the RECQL gene. The affected individuals had short stature, progeroid facial features, a hypoplastic nose, xeroderma, and skin photosensitivity and were homozygous for the same missense mutation in RECQL1 (p.Ala459Ser), located within its zinc binding domain. Biochemical analysis of the mutant RECQL1 protein revealed that the p.A459S missense mutation compromised its ATPase, helicase, and fork restoration activity, while its capacity to promote single-strand DNA annealing was largely unaffected. At the cellular level, this mutation in RECQL1 gave rise to a defect in the ability to repair DNA damage induced by exposure to topoisomerase poisons and a failure of DNA replication to progress efficiently in the presence of abortive topoisomerase lesions. Taken together, RECQL1 is the fourth member of the RecQ family of helicases to be associated with a human genome instability disorder.

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DO - 10.1172/JCI147301

M3 - Article

C2 - 35025765

AN - SCOPUS:85125536248

SN - 0021-9738

VL - 132

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 5

M1 - e147301

ER -

RECON syndrome is a genome instability disorder caused by mutations in the DNA helicase RECQL1

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