Low‐burden <scp><i>TP53</i></scp> mutations represent frequent genetic events in <scp>CLL</scp> with an increased risk for treatment initiation-Reference-Cited by-同舟云学术

Low‐burden TP53 mutations represent frequent genetic events in CLL with an increased risk for treatment initiation

Published:2023-11-21 Issue:1 Volume:10 Page:
ISSN:2056-4538
Container-title:The Journal of Pathology: Clinical Research
language:en
Short-container-title:The Journal of Pathology CR

Author:

László Tamás¹^ORCID,Kotmayer Lili¹,Fésüs Viktória¹²,Hegyi Lajos¹,Gróf Stefánia¹,Nagy Ákos¹^ORCID,Kajtár Béla³,Balogh Alexandra⁴,Weisinger Júlia⁴,Masszi Tamás⁴,Nagy Zsolt⁴,Farkas Péter⁴,Demeter Judit⁵,Istenes Ildikó⁵,Szász Róbert⁶,Gergely Lajos⁶,Sulák Adrienn⁷,Borbényi Zita⁷,Lévai Dóra⁸,Schneider Tamás⁸,Pettendi Piroska⁹,Bodai Emese⁹,Szerafin László¹⁰,Rejtő László¹⁰,Bátai Árpád¹¹,Dömötör Mária Á¹¹,Sánta Hermina¹¹,Plander Márk¹²,Szendrei Tamás¹²,Hamed Aryan¹³,Lázár Zsolt¹³,Pauker Zsolt¹⁴,Radványi Gáspár¹⁴,Kiss Adrienn¹⁵,Körösmezey Gábor¹⁵,Jakucs János¹⁶,Dombi Péter J¹⁷,Simon Zsófia¹⁷,Klucsik Zsolt¹⁸,Gurzó Mihály¹⁸,Tiboly Márta¹⁹,Vidra Tímea²⁰,Ilonczai Péter²¹,Bors András²²,Andrikovics Hajnalka²²,Egyed Miklós²,Székely Tamás¹,Masszi András⁴⁸,Alpár Donát¹,Matolcsy András¹²³,Bödör Csaba¹^ORCID

Affiliation:

1. HCEMM‐SE Molecular Oncohematology Research Group, Department of Pathology and Experimental Cancer Research Semmelweis University Budapest Hungary

2. Kaposi Mór University Teaching Hospital of County Somogy Kaposvár Hungary

3. Department of Pathology University of Pécs Medical School Pécs Hungary

4. Department of Internal Medicine and Hematology Semmelweis University Budapest Hungary

5. Department of Internal Medicine and Oncology Semmelweis University Budapest Hungary

6. Division of Hematology, Department of Internal Medicine University of Debrecen Debrecen Hungary

7. 2nd Department of Internal Medicine and Cardiology Center University of Szeged Szeged Hungary

8. Hematology and Lymphoma Unit National Institute of Oncology Budapest Hungary

9. Hetényi Géza Hospital and Clinic of County Jász‐Nagykun‐Szolnok Szolnok Hungary

10. Hospitals of County Szabolcs‐Szatmár‐Bereg and University Teaching Hospital Nyíregyháza Hungary

11. Fejér County Szent György University Teaching Hospital Székesfehérvár Hungary

12. Markusovszky University Teaching Hospital Szombathely Hungary

13. Petz Aladár University Teaching Hospital Győr Hungary

14. Borsod‐Abaúj‐Zemplén County Hospital and University Teaching Hospital Miskolc Hungary

15. Military Hospital – State Health Centre Budapest Hungary

16. Békés County Central Hospital Békéscsaba Hungary

17. St. Borbála Hospital Tatabánya Hungary

18. Bács‐Kiskun County Teaching Hospital Kecskemét Hungary

19. Hospital of Keszthely Keszthely Hungary

20. Soproni Erzsébet Teaching Hospital and Rehabilitation Institute Sopron Hungary

21. Markhot Ferenc Teaching Hospital Eger Hungary

22. Central Hospital of Southern Pest – National Institute of Hematology and Infectology Budapest Hungary

23. Department of Laboratory Medicine Karolinska Institute Solna Sweden

Abstract

AbstractTP53 aberrations predict chemoresistance and represent a contraindication for the use of standard chemoimmunotherapy in chronic lymphocytic leukaemia (CLL). Recent next‐generation sequencing (NGS)‐based studies have identified frequent low‐burden TP53 mutations with variant allele frequencies below 10%, but the clinical impact of these low‐burden TP53 mutations is still a matter of debate. In this study, we aimed to scrutinise the subclonal architecture and clinical impact of TP53 mutations using a sensitive, NGS‐based mutation analysis in a ‘real‐world’ cohort of 901 patients with CLL. In total, 225 TP53 mutations were identified in 17.5% (158/901) of the patients; 48% of these alterations represented high‐burden mutations, while 52% were low‐burden TP53 mutations. Low‐burden mutations as sole alterations were identified in 39% (62/158) of all mutated cases with 82% (51/62) of these being represented by a single low‐burden TP53 mutation. Patients harbouring low‐burden TP53 mutations had significantly lower time to first treatment compared to patients with wild‐type TP53. Our study has expanded the knowledge on the frequency, clonal architecture, and clinical impact of low‐burden TP53 mutations. By demonstrating that patients with sole low‐burden TP53 variants represent more than one‐third of patients with TP53 mutations and have an increased risk for treatment initiation, our findings strengthen the need to redefine the threshold of TP53 variant reporting to below 10% in the routine diagnostic setting.

Funder

Magyar Tudományos Akadémia

Publisher

Wiley

Subject

Pathology and Forensic Medicine

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