Rac signaling in osteoblastic cells is required for normal bone development but is dispensable for hematopoietic development

Lane, Steven; Vita, Serena De; Alexander, Kylie A.; Karaman, Ruchan; Milsom, Michael D.; Dorrance, Adrienne M.; Purdon, Amy S.; Louis, Leeann; Bouxsein, Mary L.; Williams, David A.

doi:10.1182/blood-2011-07-368753

Cited by 23 publications

(22 citation statements)

References 45 publications

(62 reference statements)

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“…27 Long-term HSC and committed progenitor cell analyses were as described. 28,29 Data were collected using a FACScanto or FACS LSR Fortessa (BD Bioscience) and analyzed using DIVA Version 5.0.1 (BD Bioscience) or FlowJo Version 6.3 (TreeStar) software. Engraftment is expressed as the proportion of donor cells within the lineage analyzed or within the total CD45 ϩ cell population.…”

Section: Flow Cytometrymentioning

confidence: 99%

Tolerance induction with gene-modified stem cells and immune-preserving conditioning in primed mice: restricting antigen to differentiated antigen-presenting cells permits efficacy

Coleman

Bridge

Lane

et al. 2013

Blood

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Section: Flow Cytometrymentioning

confidence: 99%

Tolerance induction with gene-modified stem cells and immune-preserving conditioning in primed mice: restricting antigen to differentiated antigen-presenting cells permits efficacy

Coleman

Bridge

Lane

et al. 2013

Blood

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“…Recently, it has been demonstrated that inhibition of prenylation by bisphosphonates rather activates than inactivates the RHO family of small-GTPases including RAC, CDC42 and RHO [9]. Interestingly, osteoblast-restricted Rac1 deletion leads to defective bone acquisition in vivo and knockdown impairs growth and induces apoptosis in the osteoblast cell line OP9 [68]. These data suggest that GGPP increases interaction of RAC1 with cellular membranes, which results in reduced activated RAC1 leading to decreased proliferation and increased apoptosis.…”

Section: Discussionmentioning

confidence: 99%

“…However, results of this study suggest that in addition to RAS, other members of small-GTPases must be involved in regulation of FAS promoter methylation as well. Differences in responses to ibandronate of the epithelial CCL-51 cells compared to the mesenchymal cells suggest involvement of RAC1, a gene that has been found important for osteoblastic proliferation, differentiation and apoptosis [68]. The use of specific inhibitors of small-GTPases will help to clarify the mechanism of the selective epigenetic activation of FAS and other epigenetic silenced tumor suppressor genes [8,15].…”

Section: Discussionmentioning

confidence: 99%

Ibandronate increases the expression of the pro-apoptotic gene FAS by epigenetic mechanisms in tumor cells

Thaler

Spitzer

Karlic

et al. 2013

Biochemical Pharmacology

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“…Rac1 activity is important for normal bone development as well as adhesion, proliferation, and differentiation of osteoblasts in addition to controlling osteoclast number [39, 40]. Therefore, loss of Dock7 , a modulator of Rac1 and Cdc42 [8, 9, 14, 41], may in fact be altering osteoblast and osteoclast differentiation and function.…”

Section: Discussionmentioning

confidence: 99%

Spontaneous mutation of Dock7 results in lower trabecular bone mass and impaired periosteal expansion in aged female Misty mice

Bishop

Maridas

et al. 2017

Bone

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Misty mice (m/m) have a loss of function mutation in Dock7 gene, a guanine nucleotide exchange factor, resulting in low bone mineral density, uncoupled bone remodeling and reduced bone formation. Dock7 has been identified as a modulator of osteoblast number and in vitro osteogenic differentiation in calvarial osteoblast culture. In addition, m/m exhibit reduced preformed brown adipose tissue innervation and temperature as well as compensatory increase in beige adipocyte markers. While the low bone mineral density phenotype is in part due to higher sympathetic nervous system (SNS) drive in young mice, it is unclear what effect aging would have in mice homozygous for the mutation in the Dock7 gene. We hypothesized that age-related trabecular bone loss and periosteal envelope expansion would be altered in m/m. To test this hypothesis, we comprehensively characterized the skeletal phenotype of m/m at 16, 32, 52, and 78 wks of age. When compared to age-matched wild-type control mice (+/+), m/m had lower areal bone mineral density (aBMD) and areal bone mineral content (aBMC). Similarly, both femoral and vertebral BV/TV, Tb.N., and ConnD were decreased in m/m while there was also an increase in Tb.Sp. As low bone mineral density and decreased trabecular bone were already present at 16 wks of age in m/m and persisted throughout life, changes in age-related trabecular bone loss were not observed highlighting the role of Dock7 in controlling trabecular bone acquisition or bone loss prior to 16 wks of age. Cortical thickness was also lower in the m/m across all ages. Periosteal and endosteal circumferences were higher in m/m compared to +/+ at 16 wks. However, endosteal and periosteal expansion were attenuated in m/m, resulting in m/m having lower periosteal and endosteal circumferences by 78 wks of age compared to +/+, highlighting the critical role of Dock7 in appositional bone expansion. Histomorphometry revealed that osteoblasts were nearly undetectable in m/m and marrow adipocytes were elevated 3.5 fold over +/+ (p=0.014). Consistent with reduced bone formation, osteoblast gene expression of Alp, Col1a1, Runx-2, Sp7, and Bglap was significantly decreased in m/m whole bone. Furthermore, markers of osteoclasts were either unchanged or suppressed. Bone marrow stromal cell migration and motility were inhibited in culture and changes in senescence markers suggest that osteoblast function may also be inhibited with loss of Dock7 expression in m/m. Finally, increased Oil Red O staining in m/m ear mesenchymal stem cells during adipogenesis highlights a potential shift of cells from the osteogenic to adipogenic lineages. In summary, loss of Dock7 in the aging m/m resulted in an impairment of periosteal and endocortical envelope expansion, but did not alter age-related trabecular bone loss. These studies establish Dock7 as a critical regulator of both cortical and trabecular bone mass, and demonstrate for the first time a novel role of Dock7 in modulating compensatory changes in the periosteum with aging.

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Rac signaling in osteoblastic cells is required for normal bone development but is dispensable for hematopoietic development

Cited by 23 publications

References 45 publications

Tolerance induction with gene-modified stem cells and immune-preserving conditioning in primed mice: restricting antigen to differentiated antigen-presenting cells permits efficacy

Tolerance induction with gene-modified stem cells and immune-preserving conditioning in primed mice: restricting antigen to differentiated antigen-presenting cells permits efficacy

Ibandronate increases the expression of the pro-apoptotic gene FAS by epigenetic mechanisms in tumor cells

Spontaneous mutation of Dock7 results in lower trabecular bone mass and impaired periosteal expansion in aged female Misty mice

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