Development of an immune‐related prognostic model for pediatric acute lymphoblastic leukemia patients

Background Acute lymphoblastic leukemia (ALL) is the most common hematological malignancy in pediatrics, and immune‐related genes (IRGs) play crucial role in its development. Our study aimed to identify prognostic immune biomarkers of pediatric ALL and construct a risk assessment model. Methods Pedi...

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Bibliographic Details
Published in:Molecular genetics & genomic medicine 2020-09, Vol.8 (9), p.e1404-n/a
Main Authors: Quan, Xi, Zhang, Nan, Chen, Ying, Zeng, Hanqing, Deng, Jianchuan
Format: Article
Language:English
Subjects:
Acute lymphoblastic leukemia
Antiinfectives and antibacterials
Bioinformatics
Biomarkers
Calcium-binding protein
Cancer therapies
Chemotaxis
Chemotherapy
Gene expression
Genes
Hematology
Immune response (humoral)
immune‐related genes
Leukemia
Lymphatic leukemia
Malignancy
Medical prognosis
Model accuracy
Optimization
Original
Patients
pediatric acute lymphoblastic leukemia
Pediatrics
Performance prediction
prognosis
Regression analysis
Risk assessment
Risk groups
S100 protein
Software
Survival
Survival analysis
Time dependence
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Summary:Background Acute lymphoblastic leukemia (ALL) is the most common hematological malignancy in pediatrics, and immune‐related genes (IRGs) play crucial role in its development. Our study aimed to identify prognostic immune biomarkers of pediatric ALL and construct a risk assessment model. Methods Pediatric ALL patients’ gene expression data were downloaded from Therapeutically Applicable Research to Generate Effective Treatments (TARGET) database. We screened differentially expressed IRGs (DEIRGs) between the relapse and non‐relapse groups. Cox regression analysis was used to identify optimal prognostic genes, then, a risk model was constructed, and its accuracy was verified in different cohorts. Results We screened 130 DEIRGs from 251 pediatric ALL samples. The top three pathways that DEIRGs may influence tumor progression are NABA matrisome‐associated, chemotaxis, and antimicrobial humoral response. A set of 84 prognostic DEIRGs was identified by using univariate Cox analysis. Then, Lasso regression and multivariate Cox regression analysis screened four optimal genes (PRDX2, S100A10, RORB, and SDC1), which were used to construct the prognostic risk model. The risk score was calculated and the survival analysis results showed that high‐risk score was associated with poor overall survival (OS) (p = 3.195 × 10−7). The time‐dependent survival receiver operating characteristic curves showed good prediction accuracy (Area Under Curves for 3‐year, 5‐year OS were 0.892 and 0.89, respectively). And the predictive performance of our risk model was successfully verified in testing cohort and entire cohort. Conclusions Our prognostic risk model can effectively divide pediatric ALL patients into high‐risk and low‐risk groups, which may help predict clinical prognosis and optimize individualized treatment. Differentially expressed immune‐related genes between the relapse and non‐relapse groups of 251 pediatric acute lymphoblastic leukemia patients were analyzed. Four optimal genes (PRDX2, S100A10, RORB and SDC1) were screened, and then an immune‐related prognostic model based on these four genes were constructed.
ISSN:2324-9269
2324-9269
DOI:10.1002/mgg3.1404