Abstract
Multiple myeloma (MM) is the second most common hematological cancer and is characterized by genetic features including translocations, chromosomal copy number aberrations, and mutations in key oncogene and tumor suppressor genes. Dysregulation of the tumor suppressor TP53 is important in the pathogenesis of many cancers, including MM. In newly-diagnosed MM patients, TP53 dysregulation occurs in three subsets: monoallelic deletion as part of deletion of chromosome 17p (del17p) (~8%), monoallelic mutations (~6%), and biallelic inactivation (~4%). Del17p is an established high-risk feature in MM and is included in current disease staging criteria. Biallelic inactivation and mutation have also been reported in MM patients but are not yet included in disease staging criteria for high-risk disease. Emerging clinical and genomics data suggest that the biology of high-risk disease is complex, and so far, traditional drug development efforts to target dysregulated TP53 have not been successful. Here we review the TP53 dysregulation literature in cancer and in MM, including the three segments of TP53 dysregulation observed in MM patients. We propose a reverse translational approach to identify novel targets and disease drivers from TP53 dysregulated patients to address the unmet medical need in this setting.
Highlights
Multiple myeloma (MM) is a malignancy of fully differentiated B cells and represents the second largest hematological cancer in the US [1]
While del17p, which includes the TP53 gene, is a known high-risk marker in MM, variability in cytogenetic assay cutoff has resulted in a heterogenous population of patients with this abnormality being designated as high-risk
In acute myeloid leukemia (AML), alterations in TP53 are less common with biallelic inactivation and mutation present in ~4% of cases each and deletion reported in only ~3%
Summary
Multiple myeloma (MM) is a malignancy of fully differentiated B cells and represents the second largest hematological cancer in the US [1]. MGP identified two high-risk patient segments that included TP53 aberrations: Double Hit MM (DHMM) which includes patients with biallelic inactivation of TP53 (a deletion and a mutation) and a second segment of patients harboring del17p in a high cancer cell fraction (CCF) [5,6]. We discuss the current understanding of P53 in cancer, and the prognosis and biology of patients harboring distinct abnormalities involving TP53: (1) del17p, (2) mutations, and (3) biallelic inactivating events. These TP53 aberrations can be present in newly diagnosed MM (NDMM) but may be acquired in later stages of the disease following treatment.
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