Quadruple and Truncated MEK3 Mutants Identified from Acute Lymphoblastic Leukemia Promote Degradation and Enhance Proliferation

Autor:	Georgialina Rodriguez, Alice H. Grant, Yoshira M. Ayala-Marin, Robert A. Kirken
Rok vydání:	2021
Předmět:	MAP Kinase Signaling System QH301-705.5 MAP Kinase Kinase 3 Mutant Hispanic Protein degradation Biology Article Catalysis Inorganic Chemistry medicine Humans MAPK p38 Biology (General) Physical and Theoretical Chemistry Protein kinase A QD1-999 Molecular Biology Spectroscopy health disparities MEK3 Organic Chemistry leukemia Hep G2 Cells General Medicine Transfection Precursor Cell Lymphoblastic Leukemia-Lymphoma medicine.disease Neoplasm Proteins Computer Science Applications Chemistry Leukemia HEK293 Cells cell proliferation MAP2K3 Protein kinase domain Mutation Proteolysis protein degradation Cancer research Phosphorylation Signal transduction ALL
Zdroj:	International Journal of Molecular Sciences, Vol 22, Iss 12210, p 12210 (2021) International Journal of Molecular Sciences Volume 22 Issue 22
ISSN:	1422-0067
Popis:	Compared to other ethnicities, Hispanic children incur the highest rates of leukemia, and most cases are diagnosed as Acute Lymphoblastic Leukemia (ALL). Despite improved treatment and survival for ALL, disproportionate health outcomes in Hispanics persist. Thus, it is essential to identify oncogenic mutations within this demographic to aid in the development of new strategies to diagnose and treat ALL. Using whole-exome sequencing, five single nucleotide polymorphisms within mitogen-activated protein kinase 3 (MAP2K3) were identified in an ALL cancer patient library from the U.S./Mexico border. MAP2K3 R26T and P11T are located near the substrate-binding site, while R65L and R67W localized to the kinase domain. Truncated-MAP2K3 mutant Q73* was also identified. Transfection in HEK293 cells showed that the quadruple-MEK3 mutant (4M-MEK3) impacted protein stability, inducing degradation and reducing expression. The expression of 4M-MEK3 could be rescued by cysteine/serine protease inhibition, and proteasomal degradation of truncated-MEK3 occurred in a ubiquitin-independent manner. MEK3 mutants displayed reduced auto-phosphorylation and enzymatic activity, as seen by decreases in p38 phosphorylation. Furthermore, uncoupling of the MEK3/p38 signaling pathway resulted in less suppressive activity on HEK293 cell viability. Thus, disruption of MEK3 activation may promote proliferative signals in ALL. These findings suggest that MEK3 represents a potential therapeutic target for treating ALL.
Databáze:	OpenAIRE
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