Your search keyword '"Alan Lehmann"' showing total 13 results

1. Insights from multi-omic modeling of neurodegeneration in xeroderma pigmentosum using an induced pluripotent stem cell system

Author

Cherif Badja, Sophie Momen, Gene Ching Chiek Koh, Soraya Boushaki, Theodoros I. Roumeliotis, Zuza Kozik, Ian Jones, Vicky Bousgouni, João M.L. Dias, Marios G. Krokidis, Jamie Young, Hongwei Chen, Ming Yang, France Docquier, Yasin Memari, Lorea Valcarcel-Zimenez, Komal Gupta, Li Ren Kong, Heather Fawcett, Florian Robert, Salome Zhao, Andrea Degasperi, Yogesh Kumar, Helen Davies, Rebecca Harris, Christian Frezza, Chryssostomos Chatgilialoglu, Robert Sarkany, Alan Lehmann, Chris Bakal, Jyoti Choudhary, Hiva Fassihi, and Serena Nik-Zainal

Subjects

CP: Neuroscience, CP: Cell biology, Biology (General), QH301-705.5

Abstract

Summary: Xeroderma pigmentosum (XP) is caused by defective nucleotide excision repair of DNA damage. This results in hypersensitivity to ultraviolet light and increased skin cancer risk, as sunlight-induced photoproducts remain unrepaired. However, many XP patients also display early-onset neurodegeneration, which leads to premature death. The mechanism of neurodegeneration is unknown. Here, we investigate XP neurodegeneration using pluripotent stem cells derived from XP patients and healthy relatives, performing functional multi-omics on samples during neuronal differentiation. We show substantially increased levels of 5′,8-cyclopurine and 8-oxopurine in XP neuronal DNA secondary to marked oxidative stress. Furthermore, we find that the endoplasmic reticulum stress response is upregulated and reversal of the mutant genotype is associated with phenotypic rescue. Critically, XP neurons exhibit inappropriate downregulation of the protein clearance ubiquitin-proteasome system (UPS). Chemical enhancement of UPS activity in XP neuronal models improves phenotypes, albeit inadequately. Although more work is required, this study presents insights with intervention potential.

Published

2024

2. Genomic mutation landscape of skin cancers from DNA repair-deficient xeroderma pigmentosum patients

Author

Andrey A. Yurchenko, Fatemeh Rajabi, Tirzah Braz-Petta, Hiva Fassihi, Alan Lehmann, Chikako Nishigori, Jinxin Wang, Ismael Padioleau, Konstantin Gunbin, Leonardo Panunzi, Fanny Morice-Picard, Pierre Laplante, Caroline Robert, Patricia L. Kannouche, Carlos F. M. Menck, Alain Sarasin, and Sergey I. Nikolaev

Subjects

Science

Abstract

Abstract Xeroderma pigmentosum (XP) is a genetic disorder caused by mutations in genes of the Nucleotide Excision Repair (NER) pathway (groups A-G) or in Translesion Synthesis DNA polymerase η (V). XP is associated with an increased skin cancer risk, reaching, for some groups, several thousand-fold compared to the general population. Here, we analyze 38 skin cancer genomes from five XP groups. We find that the activity of NER determines heterogeneity of the mutation rates across skin cancer genomes and that transcription-coupled NER extends beyond the gene boundaries reducing the intergenic mutation rate. Mutational profile in XP-V tumors and experiments with POLH knockout cell line reveal the role of polymerase η in the error-free bypass of (i) rare TpG and TpA DNA lesions, (ii) 3’ nucleotides in pyrimidine dimers, and (iii) TpT photodimers. Our study unravels the genetic basis of skin cancer risk in XP and provides insights into the mechanisms reducing UV-induced mutagenesis in the general population.

Published

2023

3. Simultaneous disruption of two DNA polymerases, Polη and Polζ, in Avian DT40 cells unmasks the role of Polη in cellular response to various DNA lesions.

Author

Kouji Hirota, Eiichiro Sonoda, Takuo Kawamoto, Akira Motegi, Chikahide Masutani, Fumio Hanaoka, Dávid Szüts, Shigenori Iwai, Julian E Sale, Alan Lehmann, and Shunichi Takeda

Subjects

Genetics, QH426-470

Abstract

Replicative DNA polymerases are frequently stalled by DNA lesions. The resulting replication blockage is released by homologous recombination (HR) and translesion DNA synthesis (TLS). TLS employs specialized TLS polymerases to bypass DNA lesions. We provide striking in vivo evidence of the cooperation between DNA polymerase η, which is mutated in the variant form of the cancer predisposition disorder xeroderma pigmentosum (XP-V), and DNA polymerase ζ by generating POLη(-/-)/POLζ(-/-) cells from the chicken DT40 cell line. POLζ(-/-) cells are hypersensitive to a very wide range of DNA damaging agents, whereas XP-V cells exhibit moderate sensitivity to ultraviolet light (UV) only in the presence of caffeine treatment and exhibit no significant sensitivity to any other damaging agents. It is therefore widely believed that Polη plays a very specific role in cellular tolerance to UV-induced DNA damage. The evidence we present challenges this assumption. The phenotypic analysis of POLη(-/-)/POLζ(-/-) cells shows that, unexpectedly, the loss of Polη significantly rescued all mutant phenotypes of POLζ(-/-) cells and results in the restoration of the DNA damage tolerance by a backup pathway including HR. Taken together, Polη contributes to a much wide range of TLS events than had been predicted by the phenotype of XP-V cells.

Published

2010

4. A rare genetic disorder provides insights into mechanisms of early-onset neurodegeneration

Author

Cherif Badja, Sophie Momen, Gene Ching Cheik Koh, Soraya Boushaki, Theodoros I. Roumeliotis, Zuza Kozik, Ian Jones, Vicky Bousgouni, João M. L. Dias, Marios G. Krokidis, Jamie Young, Hongwei Chen, Ming Yang, France Docquier, Yasin Memari, Lorea Valcarcel-Jimenez, Komal Gupta, Li Ren Kong, Heather Fawcett, Florian Robert, Salome Zhao, Andrea Degasperi, Helen Davies, Rebecca Harris, Christian Frezza, Chryssostomos Chatgilialoglu, Robert Sarkany, Alan Lehmann, Chris Bakal, Jyoti Choudhary, Hiva Fassihi, and Serena Nik-Zainal

Abstract

Xeroderma pigmentosum (XP) is characterized by defective repair of ultraviolet radiation(UVR)-induced DNA damage. Patients have UVR hypersensitivity and increased skin cancer risk. Effective photoprotection has reduced childhood cancer-related deaths, but revealed adolescence-onset neurodegeneration, arising through unknown mechanisms. Here, we investigate XP neurodegeneration using pluripotent stem cells derived from XP patients and healthy relatives, performing functional multi-omics on samples during neuronal differentiation. We find endoplasmic reticulum stress is upregulated, preceded by oxidative stress, causing substantial 5’,8-cyclopurine and 8-oxopurine DNA damage. Critically, XP neurons exhibit inappropriate downregulation of the protein clearance ubiquitin-proteasome system (UPS). Chemical enhancement of UPS activity improves phenotypes, albeit inadequately, implying that early detection/prevention strategies are necessary to produce clinically impactful outcomes. Thus, we develop an early detection assay predicting neurodegeneration in at-risk patients.

Published

2023

5. Supplementary Figures 1-5 from Inhibitors of the Proteasome Suppress Homologous DNA Recombination in Mammalian Cells

Author

Shunichi Takeda, Simon J. Boulton, Helfrid Hochegger, Guang Yu Zhao, Alan Lehmann, Atsuko Niimi, Hiroshi Kimura, Kyoko Yokomori, Weihua Zeng, Louise J. Barber, Eiichiro Sonoda, and Yasuhiro Murakawa

Abstract

Supplementary Figures 1-5 from Inhibitors of the Proteasome Suppress Homologous DNA Recombination in Mammalian Cells

Published

2023

6. Data from Inhibitors of the Proteasome Suppress Homologous DNA Recombination in Mammalian Cells

Author

Shunichi Takeda, Simon J. Boulton, Helfrid Hochegger, Guang Yu Zhao, Alan Lehmann, Atsuko Niimi, Hiroshi Kimura, Kyoko Yokomori, Weihua Zeng, Louise J. Barber, Eiichiro Sonoda, and Yasuhiro Murakawa

Abstract

Proteasome inhibitors are novel antitumor agents against multiple myeloma and other malignancies. Despite the increasing clinical application, the molecular basis of their antitumor effect has been poorly understood due to the involvement of the ubiquitin-proteasome pathway in multiple cellular metabolisms. Here, we show that treatment of cells with proteasome inhibitors has no significant effect on nonhomologous end joining but suppresses homologous recombination (HR), which plays a key role in DNA double-strand break (DSB) repair. In this study, we treat human cells with proteasome inhibitors and show that the inhibition of the proteasome reduces the efficiency of HR-dependent repair of an artificial HR substrate. We further show that inhibition of the proteasome interferes with the activation of Rad51, a key factor for HR, although it does not affect the activation of ATM, γH2AX, or Mre11. These data show that the proteasome-mediated destruction is required for the promotion of HR at an early step. We suggest that the defect in HR-mediated DNA repair caused by proteasome inhibitors contributes to antitumor effect, as HR plays an essential role in cellular proliferation. Moreover, because HR plays key roles in the repair of DSBs caused by chemotherapeutic agents such as cisplatin and by radiotherapy, proteasome inhibitors may enhance the efficacy of these treatments through the suppression of HR-mediated DNA repair pathways. [Cancer Res 2007;67(18):8536–43]

Published

2023

7. Analysis of Skin Cancers from Xeroderma Pigmentosum Patients Reveals Heterogeneous UV-Induced Mutational Profiles Shaped by DNA Repair

Author

Andrey A. Yurchenko, Fatemeh Rajabi, Tirzah Braz-Petta, Hiva Fassihi, Alan Lehmann, Chikako Nishigori, Ismael Padioleau, Konstantin Gunbin, Leonardo Panunzi, Fanny Morice-Picard, Pierre Laplante, Caroline Robert, Patricia L. Kannouche, Carlos F. M. Menck, Alain Sarasin, and Sergey I. Nikolaev

Abstract

Xeroderma pigmentosum (XP) is a genetic disorder caused by mutations in genes of the Nucleotide Excision Repair (NER) pathway (groups A-G) or in Translesion Synthesis (TLS) DNA polymerase η (V). XP is associated with an increased skin cancer risk, reaching, for some groups, several thousand-fold compared to the general population. Here, we analyzed 38 skin cancer genomes from five XP groups. We found that the activity of NER determines heterogeneity of the mutation rates across skin cancer genomes and that transcription-coupled NER extends beyond the gene boundaries reducing the intergenic mutation rate. Mutational profile in XP-V tumors and experiments withPOLH-KO cell line revealed the role of polymerase η in the error-free bypass of (i) rare TpG and TpA DNA lesions, (ii) 3’ nucleotides in pyrimidine dimers, and (iii) TpT photodimers. Our study unravels the genetic basis of skin cancer risk in XP and provides insights into the mechanisms reducing UV-induced mutagenesis in the general population.

Published

2022

8. Infantile onset of Cockayne syndrome without photosensitivity in a Tunisian girl

Author

Faten, Tinsa, Manel, Bellalah, Ines, Brini, Dorra, Bousnina, Alan, Lehmann, Khadija, Boussetta, and Souad, Bousnina

Subjects

Consanguinity, Fatal Outcome, Tunisia, Child, Preschool, Face, Brain, Humans, Female, Cockayne Syndrome, Magnetic Resonance Imaging

Abstract

Cockayne syndrome is a rare autosomal recessive disorder with dwarfism, mental retardation, and otherwise clinically heterogeneous features. Classically, the onset of Cockayne syndrome starts in the second year of life. The failure of RNA synthesis to recover to normal rates after UV-C irradiation provides a useful diagnostic test and the clinical feature that correlates most strongly with defective RNA synthesis is photosensitivity.To report an unusual case of Cockayne Syndrome.A case of a five-year-old girl with Cockayne with an onset in early infancy the girl and without photosensitivity is presented. The diagnosis was confirmed by the failure of RNA synthesis to recover to normal rate after UV-C irradiation. The patient died at the age of 6 of pneumonia.Although rare, Cockayne syndrome may be presented without photosensitivity and had an early onset.

Published

2010

9. Localization of Y-family polymerases and the DNA polymerase switch in mammalian cells

Author

Patricia, Kannouche and Alan, Lehmann

Subjects

DNA Replication, Ubiquitin, Proliferating Cell Nuclear Antigen, Recombinant Fusion Proteins, Animals, Humans, DNA-Directed DNA Polymerase, Chromatin, DNA Damage

Abstract

During translesion synthesis past sites of damaged DNA, specialized Y-family polymerases are employed by the cell to replace the high stringency replicative polymerases and synthesize DNA past the damaged site. These polymerases are localized in replication factories during the S phase of the cell cycle. When progress of the replication fork is blocked, the polymerase accessory protein, proliferating cell nuclear antigen (PCNA), becomes ubiquitinated and the monoubiquitinated PCNA has an increased affinity for Y-family DNA polymerase eta (poleta). This chapter describes methods for visualizing the polymerases in replication factories, for analyzing the ubiquitination status of PCNA, and for measuring its interaction with poleta in chromatin extracts.

Published

2006

10. 2D coupled structural/magnetic analysis of SSC CQM

Author

Xianrui Huang and Gregory Alan Lehmann

Subjects

Physics, Condensed matter physics, Force between magnets, Superconducting magnetic energy storage, Mechanics, Superconducting magnet, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, symbols.namesake, Electromagnetic coil, Magnet, symbols, Electrical and Electronic Engineering, Quadrupole magnet, Multipole expansion, Lorentz force

Abstract

The deformation of a collider quadrupole magnet (CQM) coil under pre-compression, cool down and Lorentz forces may cause some significant changes in magnetic multipoles. The magnetic measurements of the CQM short model magnets at 4.2 K showed an average b/sub 5/ of -2.866 units compared to a numerical prediction of -0.162 units. Out of these -2.866 units, -1.5 units are due to a shim placed at the mid-plane to increase coil precompression. We also suspect that the permeability of the stainless steel collar may contribute some of the missing b/sub 5/. For example, a permeability of 1.004 for the collar adds -0.5 units of b/sub 5/. Including the collar, we are still missing -0.8 to -1.0 units. We believe that the mechanical deformation due to pre-compression of the coil is responsible for the remaining units. This study builds a 2D magneto-structural coupled model, calculates the magnetic multipoles under different loading conditions and establishes a correlation between multipole changes and coil pre-compression and Lorentz force stresses. >

Published

1995

11. Xeroderma Pigmentosum

Author

Maria Fousteri and Alan Lehmann

Published

2003

12. DNA repair

Author

Alan Lehmann

Subjects

Molecular Biology, Biochemistry

Published

1976

13. Book review

Author

Alan Lehmann

Subjects

Cancer Research, General Medicine

Published

1986