Junzhi Ma scite author profile

Junzhi Ma

2Publications

20Citation Statements Received

154Citation Statements Given

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141

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Leibniz Institute on Aging – Fritz Lipmann Institute

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Cluster of differentiation 44 promotes osteosarcoma progression in mice lacking the tumor suppressor Merlin

Klemm

Gerardo-Ramírez

et al. 2020

Intl Journal of Cancer

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Merlin is a versatile tumor suppressor protein encoded by the NF2 gene. Several lines of evidence suggest that Merlin exerts its tumor suppressor activity, at least in part, by forming an inhibitory complex with cluster of differentiation 44 (CD44). Consistently, numerous NF2 mutations in cancer patients are predicted to perturb the interaction of Merlin with CD44. We hypothesized that disruption of the Merlin‐CD44 complex through loss of Merlin, unleashes putative tumor‐ or metastasis‐promoting functions of CD44. To evaluate the relevance of the Merlin‐CD44 interaction in vivo, we compared tumor growth and progression in Cd44‐positive and Cd44‐negative Nf2‐mutant mice. Heterozygous Nf2‐mutant mice were prone to developing highly metastatic osteosarcomas. Importantly, while the absence of the Cd44 gene had no effect on the frequency of primary osteosarcoma development, it strongly diminished osteosarcoma metastasis formation in the Nf2‐mutant mice. In vitro assays identified transendothelial migration as the most prominent cellular phenotype dependent on CD44. Adhesion to endothelial cells was blocked by interfering with integrin α4β1 (very late antigen‐4, VLA‐4) on osteosarcoma cells and CD44 upregulated levels of integrin VLA‐4 β1 subunit. Among other putative functions of CD44, which may contribute to the metastatic behavior, the passage through the endothelial cells also appears to be critical in vivo, as CD44 significantly promoted formation of lung metastasis upon intravenous injection of osteosarcoma cells into immunocompromised mice. Altogether, our results strongly suggest that CD44 plays a metastasis‐promoting role in the absence of Merlin.

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Growth factor and co-receptor release by structural regulation of substrate metalloprotease accessibility

Parra

Hartmann

Schubach

et al. 2016

Sci Rep

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Release of cytokines, growth factors and other life-essential molecules from precursors by a-disintegrin-and-metalloproteases (ADAMs) is regulated with high substrate-specificity. We hypothesized that this is achieved by cleavage-regulatory intracellular-domain (ICD)-modifications of the precursors. We show here that cleavage-stimuli-induced specific ICD-modifications cause structural substrate changes that enhance ectodomain sensitivity of neuregulin-1 (NRG1; epidermal-growth-factor) or CD44 (receptor-tyrosine-kinase (RTK) co-receptor) to chymotrypsin/trypsin or soluble ADAM. This inside-out signal transfer required substrate homodimerization and was prevented by cleavage-inhibitory ICD-mutations. In chimeras, regulation could be conferred to a foreign ectodomain, suggesting a common higher-order structure. We predict that substrate-specific protease-accessibility-regulation controls release of numerous ADAM substrates.

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Junzhi Ma

Cluster of differentiation 44 promotes osteosarcoma progression in mice lacking the tumor suppressor Merlin

Growth factor and co-receptor release by structural regulation of substrate metalloprotease accessibility

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