MAP3K8 kinase regulates myeloma growth by cell-autonomous and non-autonomous mechanisms involving myeloma-associated monocytes/macrophages

Ellen Hebron; Chelsea Hope; Jaehyup Kim; Jeffrey L. Jensen; Claire Flanagan; Neehar Bhatia; Ioanna Maroulakou; Constantine Mitsiades; Shigeki Miyamoto; Natalie Callander; Peiman Hematti; Fotis Asimakopoulos

doi:10.1111/bjh.12175

MAP3K8 kinase regulates myeloma growth by cell-autonomous and non-autonomous mechanisms involving myeloma-associated monocytes/macrophages

Ellen Hebron, Chelsea Hope, Jaehyup Kim, Jeffrey L. Jensen, Claire Flanagan, Neehar Bhatia, Ioanna Maroulakou, Constantine Mitsiades, Shigeki Miyamoto, Natalie Callander, Peiman Hematti, Fotis Asimakopoulos

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Benefit from cytotoxic therapy in myeloma may be limited by the persistence of residual tumour cells within protective niches. We have previously shown that monocytes/macrophages acquire a proinflammatory transcriptional profile in the myeloma microenvironment. Here we report constitutive activation of MAP3K8 kinase-dependent pathways that regulate the magnitude and extent of inflammatory activity of monocytes/macrophages within myeloma niches. In myeloma tumour cells, MAP3K8 acts as mitogen-induced MAP3K in mitosis and is required for TNFα-mediated ERK activation. Pharmacological MAP3K8 inhibition results in dose-dependent, tumour cell-autonomous apoptosis despite contact with primary stroma. MAP3K8 blockade may disrupt crucial macrophage-tumour cell interactions within myeloma niches.

Original language	English (US)
Pages (from-to)	779-784
Number of pages	6
Journal	British Journal of Haematology
Volume	160
Issue number	6
DOIs	https://doi.org/10.1111/bjh.12175
State	Published - Mar 2013
Externally published	Yes

Keywords

Bone marrow pathology
Macrophages
Myeloma

ASJC Scopus subject areas

Hematology

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10.1111/bjh.12175

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Hebron, E., Hope, C., Kim, J., Jensen, J. L., Flanagan, C., Bhatia, N., Maroulakou, I., Mitsiades, C., Miyamoto, S., Callander, N., Hematti, P., & Asimakopoulos, F. (2013). MAP3K8 kinase regulates myeloma growth by cell-autonomous and non-autonomous mechanisms involving myeloma-associated monocytes/macrophages. British Journal of Haematology, 160(6), 779-784. https://doi.org/10.1111/bjh.12175

Hebron, E, Hope, C, Kim, J, Jensen, JL, Flanagan, C, Bhatia, N, Maroulakou, I, Mitsiades, C, Miyamoto, S, Callander, N, Hematti, P & Asimakopoulos, F 2013, 'MAP3K8 kinase regulates myeloma growth by cell-autonomous and non-autonomous mechanisms involving myeloma-associated monocytes/macrophages', British Journal of Haematology, vol. 160, no. 6, pp. 779-784. https://doi.org/10.1111/bjh.12175

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title = "MAP3K8 kinase regulates myeloma growth by cell-autonomous and non-autonomous mechanisms involving myeloma-associated monocytes/macrophages",

abstract = "Benefit from cytotoxic therapy in myeloma may be limited by the persistence of residual tumour cells within protective niches. We have previously shown that monocytes/macrophages acquire a proinflammatory transcriptional profile in the myeloma microenvironment. Here we report constitutive activation of MAP3K8 kinase-dependent pathways that regulate the magnitude and extent of inflammatory activity of monocytes/macrophages within myeloma niches. In myeloma tumour cells, MAP3K8 acts as mitogen-induced MAP3K in mitosis and is required for TNFα-mediated ERK activation. Pharmacological MAP3K8 inhibition results in dose-dependent, tumour cell-autonomous apoptosis despite contact with primary stroma. MAP3K8 blockade may disrupt crucial macrophage-tumour cell interactions within myeloma niches.",

keywords = "Bone marrow pathology, Macrophages, Myeloma",

author = "Ellen Hebron and Chelsea Hope and Jaehyup Kim and Jensen, {Jeffrey L.} and Claire Flanagan and Neehar Bhatia and Ioanna Maroulakou and Constantine Mitsiades and Shigeki Miyamoto and Natalie Callander and Peiman Hematti and Fotis Asimakopoulos",

year = "2013",

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doi = "10.1111/bjh.12175",

language = "English (US)",

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AU - Hebron, Ellen

AU - Hope, Chelsea

AU - Kim, Jaehyup

AU - Jensen, Jeffrey L.

AU - Flanagan, Claire

AU - Bhatia, Neehar

AU - Maroulakou, Ioanna

AU - Mitsiades, Constantine

AU - Miyamoto, Shigeki

AU - Callander, Natalie

AU - Hematti, Peiman

AU - Asimakopoulos, Fotis

PY - 2013/3

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N2 - Benefit from cytotoxic therapy in myeloma may be limited by the persistence of residual tumour cells within protective niches. We have previously shown that monocytes/macrophages acquire a proinflammatory transcriptional profile in the myeloma microenvironment. Here we report constitutive activation of MAP3K8 kinase-dependent pathways that regulate the magnitude and extent of inflammatory activity of monocytes/macrophages within myeloma niches. In myeloma tumour cells, MAP3K8 acts as mitogen-induced MAP3K in mitosis and is required for TNFα-mediated ERK activation. Pharmacological MAP3K8 inhibition results in dose-dependent, tumour cell-autonomous apoptosis despite contact with primary stroma. MAP3K8 blockade may disrupt crucial macrophage-tumour cell interactions within myeloma niches.

AB - Benefit from cytotoxic therapy in myeloma may be limited by the persistence of residual tumour cells within protective niches. We have previously shown that monocytes/macrophages acquire a proinflammatory transcriptional profile in the myeloma microenvironment. Here we report constitutive activation of MAP3K8 kinase-dependent pathways that regulate the magnitude and extent of inflammatory activity of monocytes/macrophages within myeloma niches. In myeloma tumour cells, MAP3K8 acts as mitogen-induced MAP3K in mitosis and is required for TNFα-mediated ERK activation. Pharmacological MAP3K8 inhibition results in dose-dependent, tumour cell-autonomous apoptosis despite contact with primary stroma. MAP3K8 blockade may disrupt crucial macrophage-tumour cell interactions within myeloma niches.

KW - Bone marrow pathology

KW - Macrophages

KW - Myeloma

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MAP3K8 kinase regulates myeloma growth by cell-autonomous and non-autonomous mechanisms involving myeloma-associated monocytes/macrophages

Abstract

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