Application Gene Variation Detection before and after Hematopoietic Stem Cell Transplantation to Predict the Relapse of Hematopoietic Neoplasm Patients after Transplantation: Retrospective Data from a Single Center in China

Abstract

Objective: To evaluate the changes of gene variation in patients with hematological neoplasms at the time of diagnosis and after allogeneic hematopoietic stem cell transplantation (allo-HSCT), and the relationship between gene mutation and recurrence after transplantation. Methods: 76 patients with hematological neoplasms were analyzed retrospectively, including 69 acute myeloid leukemia, 21 acute lymphoblastic leukemia, 5 myelodysplastic syndrome, 1 mixed acute leukemia and 1 chronic myelomonocytic leukemia. The median age was 37 (7-63) years, with 52 males and 45 females. Among 97 patients, 21 were matched sibling donor HSCT (MDS-HSCT), 14 were matched unrelated donor HSCT (MUS-HSCT), and 62 were haploidentical HSCT (haplo-HSCT). There were 88 cases of myeloablative conditioning regimen and 9 cases of non-myeloablative conditioning regimen. All patients underwent next generation sequencing (NGS) of hematological neoplasms variation genes at the time of diagnosis and 28 days after transplantation. Results: Primary and Secondary variations were detected in 89 of 97 patients during diagnosis. Common variations include CEBPA (18/97), NRAS (13/97), FLT3 (12/97), DNMT3A (11/97), TP53 (9/97), etc. After transplantation, only 29 patients had primary and Secondary variations, including ABCB1 (30/97), CYP2C19 (13/97); The number of other variations did not exceed 3 cases. The above NGS detection results suggest that the number of primary and Secondary variations after transplantation is significantly reduced (p=0.019), and ABCB1 and CYP2C19 are the main variation forms. The membrane related protein encoded by ABCB1 is a member of the ATP binding cassette (ABC) transporter superfamily, and CYP2C19 is a drug metabolizing enzyme, both of which are involved in drug metabolism. Single Nucleotide Polymorphisms (SNP) variations were detected in 52 of 97 patients at diagnosis, and GATA2 (27/97) and TET2 (25/97) variations were the most common variation forms. SNP variations of GATA2 and TET2 increased significantly after transplantation, 59/97 and 54/97 respectively. The increase of GATA2/TET2 double variation was more significant after transplantation (19/97 vs. 46/97, P<0.001). The increased variation frequency of GATA2 and TET2 after transplantation may be related to the mixed chimerism at the early stage of transplantation, which needs to be observed for a long time. Furthermore, we analyzed the relationship between gene variation and recurrence of 97 patients with hematological neoplasms at the time of diagnosis and after allo-HSCT. Eleven of 97 patients recurred after transplantation. The single factor competitive risk model showed that the presence of primary and Secondary variations after transplantation was an independent risk factor for recurrence (P=0.017) (Figure 1). The primary and secondary variations before transplantation, SNP variations before and after transplantation had no effect on recurrence after transplantation. The schemes of transplantation in 29 patients with primary and secondary variations after transplantation were analyzed, including 9 cases of MSD-HSCT, 14 cases of haplo-HSCT, and 6 cases of MUD-HSCT. It suggests that relative donors are more likely to have primary and secondary variations related to diseases. We used Fisher's Exact Test to analyze the relationship between ASXL1, TP53, GATA2, RUNX1 and other high-risk variations at the time of diagnosis/after transplantation and recurrence, and did not find that the presence of these gene variations would increase the risk of recurrence after transplantation. Conclusion: The NGS gene variation detection before and after transplantation can predict the recurrence after transplantation. Large samples and long-term monitoring are also needed to find a more accurate variation pattern to predict the recurrence of hematological neoplasms after transplantation.