A Phenogenetic Axis that Modulates Clinical Manifestation and Predicts Treatment Outcome in Primary Myeloid Neoplasms
Author:
Shen Qiujin1, Feng Yahui1, Gong Xiaowen1, Jia Yujiao1, Gao Qingyan1, Jiao Xiaokang2ORCID, Qi Saibing1ORCID, Liu Xueou1ORCID, Wei Hui1, Huang Bingqing1ORCID, Zhao Ningning1, Song Xiaoqiang1, Ma Yueshen1, Liang Shihao2, Zhang Donglei1, Qin Li1, Wang Ying1, Qu Shiqiang1, Zou Yao1, Chen Yumei1, Guo Ye1, Yi Shuhua1, An Gang1, Jiao Zengtao2, Zhang Song1, Li Linfeng2, Yan Jun2, Wang Huijun1, Song Zhen1, Mi Yingchang1ORCID, Qiu Lugui1ORCID, Zhu Xiaofan1, Wang Jianxiang1ORCID, Xiao Zhijian1ORCID, Chen Junren1ORCID
Affiliation:
1. 1State Key Laboratory of Experimental Hematology, National Clinical Research Center for Blood Diseases, Haihe Laboratory of Cell Ecosystem, Institute of Hematology & Blood Diseases Hospital, Chinese Academy of Medical Sciences & Peking Union Medical College, Tianjin, China. 2. 2Yidu Cloud Technology Inc., Beijing, China.
Abstract
Although the concept of “myeloid neoplasm continuum” has long been proposed, few comparative genomics studies directly tested this hypothesis. Here we report a multi-modal data analysis of 730 consecutive newly diagnosed patients with primary myeloid neoplasm, along with 462 lymphoid neoplasm cases serving as the outgroup. Our study identified a “Pan-Myeloid Axis” along which patients, genes, and phenotypic features were all aligned in sequential order. Utilizing relational information of gene mutations along the Pan-Myeloid Axis improved prognostic accuracy for complete remission and overall survival in adult patients of de novo acute myeloid leukemia and for complete remission in adult patients of myelodysplastic syndromes with excess blasts. We submit that better understanding of the myeloid neoplasm continuum might shed light on how treatment should be tailored to individual diseases.
Significance:
The current criteria for disease diagnosis treat myeloid neoplasms as a group of distinct, separate diseases. This work provides genomics evidence for a “myeloid neoplasm continuum” and suggests that boundaries between myeloid neoplastic diseases are much more blurred than previously thought.
Funder
Tianjin Science and Technology Plan Chinese Academy of Medical Sciences State Key Laboratory of Experimental Hematology
Publisher
American Association for Cancer Research (AACR)
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