Project description:Prenatal dexamethasone exposure modificates H3K9me2 at the Mkp-1 locus in bone marrow osteoprogenitors

Project description:Clinical evidence has established that concomitant traumatic brain injury accelerates bone healing, but the underlying mechanism is unclear. This study showed that after TBI, injured neurons, mainly those in the hippocampus, released osteogenic microRNA (miRNA)-enriched exosomes, which targeted osteoprogenitors in bone to stimulate bone formation. Importantly, increased fibronectin expression on exosomal surface contributed to targeting of osteoprogenitors in bone by TBI exosomes, thereby implying that modification of the exosome surface fibronectin could be used in bone-targeted drug delivery. Together, our findings have established a novel role of central regulation in bone formation and a clear link between injured neurons and osteogenitors, both in animals and clinical settings.

Project description:Rejuvenating aged osteoprogenitors for bone repair

Project description:Different osteoprogenitors (SSC, BCSP, Thy+) were sorted after 2 days of JUN induction, followed by RNA extraction and microarray analysis

Project description:JUN induction in osteoprogenitors

Project description:To investigate cellular population heterogeneity, and gene expression in osteoprogenitors and other cell types (endothelial, osteogenic, immune) we isolate the calvarial periosteum and sagittal sutures as stem cell compartments that contribute to osteogenesis. We compare cell populations and gene expression between different ages of mouse, and also between different diets (ad libitum vs intermittent fasting)

Project description:PTH is an osteoanabolic for treating osteoporosis but its potency wanes. Disabling the transcription factor nuclear matrix protein 4 (Nmp4) in healthy, ovary-intact mice enhances bone response to PTH and bone morphogenetic protein 2 and protects from unloading-induced osteopenia. These Nmp4-/- mice exhibit expanded bone marrow populations of osteoprogenitors and supporting CD8+ T cells. To determine whether the Nmp4-/- phenotype persists in an osteoporosis model we compared PTH response in ovariectomized (ovx) wild-type (WT) and Nmp4-/- mice. To identify potential Nmp4 target genes, we performed bioinformatic/pathway profiling onNmp4chromatin immunoprecipitation sequencing (ChIP-seq) data. Mice (12 weeks old) were ovx or sham operated 4 weeks before the initiation of PTH therapy. Skeletal phenotype analysis included microcomputed tomography, histomorphometry, serum profiles, fluorescence-activated cell sorting and the growth/mineralization of cultured WT and Nmp4-/- bone marrow mesenchymal stem progenitor cells (MSPCs). ChIP-seq data were derived using MC3T3-E1 preosteoblasts, murine embryonic stem cells, and 2 blood cell lines. Ovx Nmp4-/- mice exhibited an improved response to PTH coupled with elevated numbers of osteoprogenitors and CD8+ T cells, but were not protected from ovx-induced bone loss. Cultured Nmp4-/- MSPCs displayed enhanced proliferation and accelerated mineralization. ChIP-seq/gene ontology analyses identified target genes likely under Nmp4 control as enriched for negative regulators of biosynthetic processes. Interrogation of mRNA transcripts in nondifferentiating and osteogenic differentiating WT and Nmp4-/- MSPCs was performed on 90 Nmp4 target genes and differentiation markers. These data suggest that Nmp4 suppresses bone anabolism, in part, by regulating IGF-binding protein expression. Changes in Nmp4 status may lead to improvements in osteoprogenitor response to therapeutic cues.

Project description:Circulating osteoprogenitor (COP) are a population of cell in the peripheral circulation that possess functional and phenotypical characteristics of multipotent stromal cells (MSCs). While there is functional overlap, it is not known how COP cells are related to bone marrow (BM)-derived MSCs (BM-MSCs) and other better characterized stromal progenitor populations such as adipose-derived stromal cells (ASCs). This study compares COP cells to BM-MSCs and ASCs through detailed transcriptomic and proteomic analyses. COP cells have a distinct gene and protein expression pattern to BM-MSCs and ASCs, with a significantly stronger immune footprint, likely owing to their hematopoietic lineage. However, they also have a similar pattern of expression BM-MSCs and ASCs, in genes and proteins in progenitor cell differentiation and proliferation pathways. This study shows COP cells to be a unique but functionally similar population to BM-MSCs and ASCs, sharing their proliferation and differentiation capacity, but with a strong immune phenotype, with potential for translational regenerative medicine strategies.

Project description:Bulk transcriptomes of Megakaryocyte progenitor cells isolated from bone marrow of WT mice; the following cell types were sorted: CD48high Megakaryocyte Progenitor (MkP): lineage- Sca-1- c-kit+ CD41+ CD150+ CD48hi; CD48-/low Megakaryocyte Progenitor (MkP): lineage- Sca-1- c-kit+ CD41+ CD150+ CD48lo

Project description:In March 2006, murine Bone Marrow Stromal Cells (BMSC) were flown in the Soyuz 12S to the International Space Station to investigate the effects of microgravity on their osteogenic potential in a three-dimensional environment. BMSC were grown in porous bioceramic Skelite disks (Φ 9 mm x T 1.2 mm). The constructs were exposed to microgravity for ca. 8 days, then fixed for RNA extraction. While the flight experiment was performed in fully automated hardware inside the KUBIK incubator, one group of control samples were incubated inside manually operated hardwares (flight control), and the other control group was incubated under routine laboratory conditions (lab control). The altered gene expression profile was analyzed by Mouse Gene 1.0 ST array (Affymetrix) representing whole-transcript coverage. Each one of the 28853 genes is represented on the array by approximately 26 probes spread across the full length of the gene, providing a more complete and more accurate picture of gene expression than the 3’ based expression array design. A few days of microgravity were sufficient to determinate, at least at the molecular level, an effect in the BMSC; this response expressed a stress condition able to determinate consequences on several compartments and cellular functions. In particular, it seems to promote a gene expression, known to be associated with neurogenic activity (e.g. axon guidance), perhaps promoting the BMSC capability to be committed in that direction. The osteo-induction, by dexamethasone-based medium, due to the short duration of stimulation, did not have the possibility to manifest itself at the phenotypic level but only partially at the molecular level. Keywords: gene expression array-based, count Comparison of microgravity effects on bone marrow stromal cells maintained both in growth and in osteo-inductive conditions.