霍奇金淋巴瘤幸存者中由丙卡巴嗪诱发的基因组毒性

medRxiv Pub Date : 2024-06-05 DOI:10.1101/2024.06.04.24308149

A. Santarsieri, Emily Mitchell, My H. Pham, R. Sanghvi, Janina Jablonski, H. Lee-Six, K. Sturgess, Pauline Brice, T. Menne, Wendy Osborne, T. Creasey, K. Ardeshna, Joanna Baxter, S. Behan, K. Bhuller, Stephen Booth, N. Chavda, Graham P Collins, Dominic Culligan, K. Cwynarski, Andrew Davies, A. Downing, David Dutton, Michelle Furtado, E. Gallop‐Evans, Andrew Hodson, David Hopkins, H. Hsu, Sunil Iyengar, Stephen G. Jones, M. Karanth, K. Linton, O. C. Lomas, N. Martínez-Calle, Abhinav Mathur, Pamela McKay, S. Nagumantry, Elizabeth H. Phillips, Neil Phillips, John Frederick Rudge, Nimish K. Shah, G. Stafford, A. Sternberg, R. Trickey, B. Uttenthal, N. Wetherall, Xiao-Yin Zhang, Andrew K. McMillan, Nicholas Coleman, Michael R. Stratton, E. Laurenti, P. Borchmann, S. Borchmann, Peter J. Campbell, R. Rahbari, G. Follows

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引用次数: 0

摘要

背景含有丙卡巴嗪的化疗方案与细胞减少症和不孕症有关，表明存在干细胞毒性。为减少毒性，eBEACOPP（升级剂量博来霉素、依托泊苷、多柔比星、环磷酰胺、长春新碱、丙卡巴嗪、泼尼松龙）中的丙卡巴嗪越来越多地被达卡巴嗪（eBEACOPDac）取代，尽管支持这种替代的基因组和临床数据有限。方法为了评估达卡巴嗪-丙卡巴嗪替代物的突变和临床后果，我们比较了接受不同霍奇金方案治疗的患者的造血干细胞和祖细胞（HSPCs）以及丙卡巴嗪治疗患者的子女、精子和肠道组织的突变情况。我们将多中心 eBEACOPDac 治疗患者队列的疗效和毒性数据与 eBEACOPP 临床试验和真实世界数据集进行了比较。结果与 eBEACOPDac 和 ABVD（多柔比星、博来霉素、长春新碱、达卡巴嗪）治疗的患者相比，eBEACOPP 治疗的患者在 HSPC 中表现出更高的点突变、小插入和缺失负担。仅在丙卡巴嗪治疗患者的HSPC、肿瘤性和正常结肠中发现了两个新的突变特征：SBSA（SBS25-like）和SBSB。此外，还在 eBEACOPP 治疗后受孕的三名儿童的生殖 DNA 和一名 eBEACOPP 治疗男性的精子中发现了 SBSB。达卡巴嗪的替代似乎并未影响疗效；312 例 eBEACOPDac 患者的 3 年无进展生存率（93.3%；CI95=90.3-96.4%）与 1945 例 HD18 试验 eBEACOPP 患者的 3 年无进展生存率（93.3%；CI95=92.1-94.4%）相同。结论丙卡巴嗪会诱发更高的突变负荷，并在 eBEACOPP 治疗的患者及其种系 DNA 中产生新的突变特征，这引发了对遗传后果的担忧。不过，用达卡巴嗪替代丙卡巴嗪似乎可以减轻性腺和干细胞毒性，同时保持相当的临床疗效。

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Procarbazine-induced Genomic Toxicity in Hodgkin Lymphoma Survivors

Background Procarbazine-containing chemotherapy regimens associate with cytopenias and infertility, suggesting stem cell toxicity. Procarbazine in eBEACOPP (escalated dose bleomycin, etoposide, doxorubicin, cyclophosphamide, vincristine, procarbazine, prednisolone) is increasingly replaced with dacarbazine (eBEACOPDac) to reduce toxicity, although limited genomic and clinical data support this substitution. Methods To assess mutagenic and clinical consequences of dacarbazine-procarbazine substitutions, we compared mutational landscapes in haematopoietic stem and progenitor cells (HSPCs) from patients treated with different Hodgkin regimens and children, sperm and bowel tissue from procarbazine-treated patients. We compared efficacy and toxicity data of a multicentre eBEACOPDac-treated patient cohort, with eBEACOPP clinical trial and real-world datasets. Results eBEACOPP-treated patients exhibit a higher burden of point mutations, small insertions and deletions in HSPCs compared to eBEACOPDac and ABVD (doxorubicin, bleomycin, vinblastine, dacarbazine)-treated patients. Two novel mutational signatures, SBSA (SBS25-like) and SBSB were identified in HSPCs, neoplastic and normal colon from only procarbazine-treated patients. SBSB was also identified in germline DNA of three children conceived post-eBEACOPP and sperm of an eBEACOPP-treated male. The dacarbazine substitution did not appear to compromise efficacy; 3-year progression-free survival of 312 eBEACOPDac patients (93.3%; CI95=90.3-96.4%) mirrored that of 1945 HD18-trial eBEACOPP patients (93.3%; CI95=92.1-94.4%). eBEACOPDac-treated patients required fewer blood transfusions, demonstrated higher post-chemotherapy sperm concentrations, and experienced earlier resumption of menstrual periods. Conclusions Procarbazine induces a higher mutational burden and novel mutational signatures in eBEACOPP-treated patients and their germline DNA raising concerns for hereditary consequences. However, replacing procarbazine with dacarbazine appears to mitigate gonadal and stem cell toxicity while maintaining comparable clinical efficacy.

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