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The authors thank Raul Gomez-Riera for assistance with microscopic analysis, Mar?a Luisa Toribio for providing the HRSIN-ICN1 plasmid, Jessica Gonzalez for technical assistance, and the Flow CytometryUnit and the Genomics Unit at the Centre for Genomic Regulation for assistance with Aseq at the Barcelona Biomedical Research Park. The J.Y. laboratory is funded by the Spanish Ministerio de Econom?a, Industria y Competitividad (grant SAF2017-83565-R) , Spanish Minis-terio de Ciencia e Innovaci?on (grant PID2020-112526RB-I00) , and Fundaci?on Cient?fica de la Asociaci?on Espan~ola Contra el Ca?ncer (grant PROYEI6018Y?ELA) . Work in the J.E.S. laboratory is supported by a core grant to the Laboratory of Molecular Biology from the Med-ical Research Council U105178808) . The F.D. laboratory is supported by a Laboratory of Excellence grant (ANR-10-LABX-0034_Medalis) to Strasbourg University, Centre National de la Recherche Scientifique. The P.N. laboratory is supported by grants from the Spanish Ministry of Economy and Competitiveness/Instituto de Salud Carlos III-Fondo Europeo de Desarrollo Regional (FEDER; PI17/00199 and PI20/00625) and the Generalitat de Catalunya (2017-SGR-225) . The P.M. labora-tory acknowledges support from Centres de Recerca de Catalunya/Generalitat de Catalunya and Fundaci?o Josep Carreras-Obra Social la Caixa for core support, the Spanish Ministry of Economy and Com-petitiveness (grant SAF-2019-108160-R) , the Fundaci?on Uno entre Cienmil, the Obra Social La Caixa (grant LCF/PR/HR19/52160011) , and the German Josep Carreras Leukamie Stiftung. Work at the G.R. and P.M. laboratories are cofinanced by the European Regional Development Fund through the Interreg V-A Spain-France-Andorra Program (project PROTEOblood; grant EFA360/19) . The O.F.-C. labo-ratory is funded by grants from the Spanish Ministry of Science, Inno-vation and Universities (RTI2018-102204-B-I00; cofinanced with European FEDER funds) and the European Research Council (ERC-617840) . T.V.-H. was supported by a Marie Sklodowska Curie fellow-ship (GA792923) . The A.B. laboratory is supported by the Spanish Ministry of Economy and Competitiveness (grant PID2019-104695RB-I00) .

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Article

Distinct roles for PARP-1 and PARP-2 in c-Myc-driven B-cell lymphoma in mice

Publicated to:Blood. 139 (2): 228-239 - 2022-01-14 139(2), DOI: 10.1182/blood.2021012805

Authors: Galindo-Campos, MA; Lutfi, N; García-Hernández, V; Ampurdanés, C; Bigas, A; Yélamos, J; Bonnin, S; Martínez, C; Velasco-Hernandez, T; Roué, G; Menéndez, P; Martín-Caballero, J; Gimeno, R; Colomo, L; Guilbaud, G; Sale, JE; Dantzer, F; Navarro, P; Murga, M; Fernández-Capetillo, O

Affiliations

Barcelona Inst Sci & Technol, Ctr Genom Regulat, Barcelona, Spain - Author
CSIC, Inst Cajal, Madrid, Spain - Author
Hosp del Mar Med Res Inst IMIM, Canc Res Program, Barcelona, Spain - Author
Hosp Del Mar Med Res Inst, Unidad Asociada IIBB CSIC, Barcelona, Spain - Author
Hosp del Mar, Dept Pathol, Barcelona, Spain - Author
Hosp del Mar, Lab Immunol, Dept Pathol, Barcelona, Spain - Author
Inst Biomed Res Barcelona IIBB CSIC, Barcelona, Spain Inst Investigac Biomed August Pi Sunyer, Barcelona, Spain - Author
Inst Catalana Recerca & Estudis Avancats, Barcelona, Spain - Author
Inst Murciano Investigaci Biosanitaria, Expt Pathol Unit, Lab Investigac Biosanitaria Arrixaca, Murcia, Spain - Author
Inst Salud Carlos III ISCIII, Redes Investigac Cooperat Orientadas Resultados S, Madrid, Spain - Author
ISCIII, Ctr Invest Biomed Red Oncol, Barcelona, Spain - Author
Josep Carreras Leukemia Res Inst, Barcelona, Spain - Author
Karolinska Inst, Dept Med Biochem & Biophys, Sci Life Lab, Stockholm, Sweden - Author
Med Res Council Lab Mol Biol, Div Prot & Nucle Acid Chem, Cambridge, England - Author
Spanish Natl Canc Res Ctr, Genom Instabil Grp, Madrid, Spain - Author
Strasbourg Univ, Biotechnol & Cell Signaling, Lab Excellence Medalis, Ecole Super Biotechnol Strasbourg,CNRS,UMR 7242, Illkirch Graffenstaden, France - Author
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Abstract

Dysregulation of the c-Myc oncogene occurs in a wide variety of hematologic malignancies, and its overexpression has been linked with aggressive tumor progression. Here, we show that poly (ADP-ribose) polymerase 1 (PARP-1) and PARP-2 exert opposing influences on progression of c-Myc-driven B-cell lymphoma. PARP-1 and PARP-2 catalyze the synthesis and transfer of ADP-ribose units onto amino acid residues of acceptor proteins in response to DNA strand breaks, playing a central role in the response to DNA damage. Accordingly, PARP inhibitors have emerged as promising new cancer therapeutics. However, the inhibitors currently available for clinical use are not able to discriminate between individual PARP proteins. We found that genetic deletion of PARP-2 prevents c-Myc-driven B-cell lymphoma, whereas PARP-1 deficiency accelerates lymphomagenesis in the E?-Myc mouse model of aggressive B-cell lymphoma. Loss of PARP-2 aggravates replication stress in preleukemic E?-Myc B cells, resulting in accumulation of DNA damage and concomitant cell death that restricts the c-Myc-driven expansion of B cells, thereby providing protection against B-cell lymphoma. In contrast, PARP-1 deficiency induces a proinflammatory response and an increase in regulatory T cells, likely contributing to immune escape of B-cell lymphoma, resulting in an acceleration of lymphomagenesis. These findings pinpoint specific functions for PARP-1 and PARP-2 in c-Myc-driven lymphomagenesis with antagonistic consequences that may help inform the design of new PARP-centered therapeutic strategies, with selective PARP-2 inhibition potentially representing a new therapeutic approach for the treatment of c-Myc-driven tumors.© 2022 by The American Society of Hematology.

Keywords

apoptotic responsesatrdna-replicationh2ax phosphorylationhistone h2axpoly(adp-ribose) polymerase-1pumareplicative stresstgf-betaAdenosine diphosphate riboseAmino acidAnimalAnimal cellAnimal experimentAnimal modelAnimalsArticleB cell lymphomaCancer growthCarcinogenesisCell viabilityComet assayControlled studyDna damageDna damage responseDna replicationDna strand breakageFlow cytometryGene deletionGene expressionGene expression regulationGene expression regulation, neoplasticGene set enrichment analysisGeneticsHaploinsufficiencyImmunofluorescence microscopyKnockout mouseLymphoma, b-cellMaleMiceMice, knockoutMouseMyc proteinMyc protein, mouseNicotinamide adenine dinucleotide adenosine diphosphate ribosyltransferaseNicotinamide adenine dinucleotide adenosine diphosphate ribosyltransferase 1Nicotinamide adenine dinucleotide adenosine diphosphate ribosyltransferase 2NonhumanOncogene c mycParp1 protein, mouseParp2 protein, mousePoly (adp-ribose) polymerase-1Poly(adp-ribose) polymerasesPractice guidelineProtein p53Proto-oncogene proteins c-mycRegulatory t lymphocyteRegulatory t-cells

Quality index

Bibliometric impact. Analysis of the contribution and dissemination channel

The work has been published in the journal Blood due to its progression and the good impact it has achieved in recent years, according to the agency WoS (JCR), it has become a reference in its field. In the year of publication of the work, 2022, it was in position 3/79, thus managing to position itself as a Q1 (Primer Cuartil), in the category Hematology. Notably, the journal is positioned above the 90th percentile.

From a relative perspective, and based on the normalized impact indicator calculated from World Citations provided by WoS (ESI, Clarivate), it yields a value for the citation normalization relative to the expected citation rate of: 1.65. This indicates that, compared to works in the same discipline and in the same year of publication, it ranks as a work cited above average. (source consulted: ESI Nov 14, 2024)

This information is reinforced by other indicators of the same type, which, although dynamic over time and dependent on the set of average global citations at the time of their calculation, consistently position the work at some point among the top 50% most cited in its field:

  • Weighted Average of Normalized Impact by the Scopus agency: 1.6 (source consulted: FECYT Feb 2024)
  • Field Citation Ratio (FCR) from Dimensions: 6.88 (source consulted: Dimensions Jun 2025)

Specifically, and according to different indexing agencies, this work has accumulated citations as of 2025-06-26, the following number of citations:

  • WoS: 16
  • Scopus: 20
  • Europe PMC: 7
  • OpenCitations: 18

Impact and social visibility

From the perspective of influence or social adoption, and based on metrics associated with mentions and interactions provided by agencies specializing in calculating the so-called "Alternative or Social Metrics," we can highlight as of 2025-06-26:

  • The use, from an academic perspective evidenced by the Altmetric agency indicator referring to aggregations made by the personal bibliographic manager Mendeley, gives us a total of: 22.
  • The use of this contribution in bookmarks, code forks, additions to favorite lists for recurrent reading, as well as general views, indicates that someone is using the publication as a basis for their current work. This may be a notable indicator of future more formal and academic citations. This claim is supported by the result of the "Capture" indicator, which yields a total of: 22 (PlumX).

With a more dissemination-oriented intent and targeting more general audiences, we can observe other more global scores such as:

  • The Total Score from Altmetric: 4.45.
  • The number of mentions on the social network X (formerly Twitter): 6 (Altmetric).

Leadership analysis of institutional authors

This work has been carried out with international collaboration, specifically with researchers from: France; Sweden; United Kingdom.