Transcriptomics

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Microarray Profile of Measles Virus Nucleocapsid Protein (MVNP) Regulated Gene Expression in RANKL and M-CSF stimulated normal human bone marrow derived non-adherent cells.


ABSTRACT: Paget’s disease of bone (PDB) is a chronic focal skeletal disorder that affects 2-3% of the population over the age of 60. PDB is inherited as an autosomal dominant trait with genetic heterogeneity. SQSTM1/p62 UBA domain mutation (p62P392L) is widely identified in PDB and has been shown to increase osteoclastogenesis. Further, environmental factors such as paramyxovirus are implicated in PDB and MVNP has been shown to induce Pagetic phenotype in osteoclasts. However, the molecular mechanisms underlying p62P392L and MVNP stimulation of osteoclast differentiation in PDB are unclear. We therefore determined MVNP regulated gene expression profiling during osteoclast differentiation. We identified 8.4% of genes were upregulated (> 4-fold) in MVNP transduced cells. MVNP increased integrin β3 (63 fold), NFAT activating protein (6.5 fold), OSCAR (5.5 fold), TRAF5 (8.5 fold) mRNA expression compared to empty vector (EV) transduced cells. MVNP also elevated gene expression of cytokines/growth factors such as IL-17 (18 fold), IL-1F7 (10 fold), IL-17R (4.5 fold) and IL-11 (7 fold). Interestingly, MVNP transduced cells demonstrated high level expression of signal regulatory protein beta 1 (SIRPβ1) (353 fold). SIRPβ1 has been shown to interact with DAP 12, an ITAM containing adaptor protein which plays an important role in osteoclast differentiation. Real-time PCR analysis of total RNA isolated from normal human peripheral blood monocytes transduced with MVNP confirmed upregulation of SIRPβ1 mRNA expression in the absence of RANKL stimulation. In contrast, RANKL stimulation did not alter SIRPβ1 expression in these cells. Furthermore, bone marrow mononuclear cells derived from patients with PDB showed high levels of SIRPβ1 mRNA expression compared to normal subjects. Thus, MVNP regulated gene expression profiling during osteoclast differentiation provides new insights into molecular mechanisms and therapeutic targets to control elevated osteoclast activity in PDB.

ORGANISM(S): Homo sapiens

PROVIDER: GSE29106 | GEO | 2011/10/01

SECONDARY ACCESSION(S): PRJNA140367

REPOSITORIES: GEO

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