Identifying the relative contributions of Rac1 and Rac2 to osteoclastogenesis.

Abstract

Unlabelled

Rac small GTPases may play an important regulatory role in osteoclastogenesis. Our in vitro and in vivo results show that both Rac1 and Rac2 are required for optimal osteoclast differentiation, but Rac1 is more critical. Rac1 is the key Rac isoform responsible for regulating ROS generation and the actin cytoskeleton during the multiple stages of osteoclast differentiation.

Introduction

Recent evidence suggests that the Rac small GTPases may play an important regulatory role in osteoclastogenesis. This finding is important because bisphosphonates may regulate their antiresorptive/antiosteoclast effects through the modification of Rho family of small GTPases.

Materials and methods

To elucidate the specific roles of the Rac1 and Rac2 isoforms during osteoclastogenesis, we used mice deficient in Rac1, Rac2, or both Rac1 and Rac2 in monocyte/osteoclast precursors. Macrophage-colony stimulating factor (M-CSF)- and RANKL-mediated osteoclastogenesis in vitro was studied by using bone marrow-derived mononucleated preosteoclast precursors (MOPs). The expression of osteoclast-specific markers was examined using quantitative real-time PCR and Western blot analysis. Free actin barbed ends in bone marrow MOPs after M-CSF stimulation was determined. The ability of MOPs to migrate toward M-CSF was assayed using Boyden chambers. Margin spreading on heparin sulfate-coated glass and RANKL-induced reactive oxygen species generation were also performed. Functional assays of in vitro-generated osteoclasts were ascertained using dentine sections from narwal tusks. Osteoclast levels in vivo were counted in TRACP and immunohistochemically stained distal tibial sections. In vivo microarchitexture of lumbar vertebrate was examined using microCT 3D imaging and analysis.

Results

We show here that, although both Rac isoforms are required for normal osteoclast differentiation, Rac1 deletion results in a more profound reduction in osteoclast formation in vitro because of its regulatory role in pre-osteoclast M-CSF-mediated chemotaxis and actin assembly and RANKL-mediated reactive oxygen species generation. This Rac1 cellular defect also manifests at the tissue level with increased trabecular bone volume and trabeculae number compared with wildtype and Rac2-null mice. This unique mouse model has shown for the first time that Rac1 and Rac2 play different and nonoverlapping roles during osteoclastogenesis and will be useful for identifying the key roles played by these two proteins during the multiple stages of osteoclast differentiation.

Conclusions

Rac1 and Rac2 play different and nonoverlapping roles during osteoclastogenesis. This model showed that Rac1 is the key Rac isoform responsible for regulating ROS generation and the actin cytoskeleton during the multiple stages of osteoclast differentiation.

Full text links

Read article at publisher's site: https://doi.org/10.1359/jbmr.071013

Read article for free, from open access legal sources, via Unpaywall: https://onlinelibrary.wiley.com/doi/pdfdirect/10.1359/jbmr.071013

References

Articles referenced by this article (29)

Nitrogen-containing bisphosphonate mechanism of action.
Reszka AA, Rodan GA
Mini Rev Med Chem, (7):711-719 2004
MED: 15379639
Cytoskeletal remodeling in leukocyte function.
Fenteany G, Glogauer M
Curr Opin Hematol, (1):15-24 2004
MED: 14676623
Rac-GTPase, osteoclast cytoskeleton and bone resorption.
Razzouk S, Lieberherr M, Cournot G
Eur J Cell Biol, (4):249-255 1999
MED: 10350213
Promotion of skeletal muscle differentiation by K252a with tyrosine phosphorylation of focal adhesion: a possible involvement of small GTPase Rho.
Lee KH, Lee SH, Kim D, Rhee S, Kim C, Chung CH, Kwon H, Kang MS
Exp Cell Res, (2):401-415 1999
MED: 10527630
Two pathways through Cdc42 couple the N-formyl receptor to actin nucleation in permeabilized human neutrophils.
Glogauer M, Hartwig J, Stossel T
J Cell Biol, (4):785-796 2000
MED: 10953003
Role of the guanosine triphosphatase Rac2 in T helper 1 cell differentiation.
Li B, Yu H, Zheng W, Voll R, Na S, Roberts AW, Williams DA, Davis RJ, Ghosh S, Flavell RA
Science, (5474):2219-2222 2000
MED: 10864872
Human monocytes use Rac1, not Rac2, in the NADPH oxidase complex.
Zhao X, Carnevale KA, Cathcart MK
J Biol Chem, (42):40788-40792 2003
MED: 12912997
A crucial role for reactive oxygen species in RANKL-induced osteoclast differentiation.
Lee NK, Choi YG, Baik JY, Han SY, Jeong DW, Bae YS, Kim N, Lee SY
Blood, (3):852-859 2005
MED: 15817678
Rac1 GTPase regulates osteoclast differentiation through TRANCE-induced NF-kappa B activation.
Lee NK, Choi HK, Kim DK, Lee SY
Mol Cell Biochem, (1-2):55-61 2006
MED: 16328957
Rac1 is the small GTPase responsible for regulating the neutrophil chemotaxis compass.
Sun CX, Downey GP, Zhu F, Koh AL, Thang H, Glogauer M
Blood, (12):3758-3765 2004
MED: 15308574

Show 10 more references (10 of 29)

Citations & impact

Impact metrics

86

Citations

Jump to Citations

9

Data citations

Jump to Data

Citations of article over time

Smart citations by scite.ai
Explore citation contexts and check if this article has been supported or disputed.
https://scite.ai/reports/10.1359/jbmr.071013

Supporting

Mentioning

Contrasting

10

140

2

Article citations

Osteoclasts and osteoarthritis: Novel intervention targets and therapeutic potentials during aging.
Wang H, Yuan T, Wang Y, Liu C, Li D, Li Z, Sun S
Aging Cell, 23(4):e14092, 29 Jan 2024
Cited by: 6 articles | PMID: 38287696 | PMCID: PMC11019147
Review
This article is in the Europe PMC Open access subset. Refer to the copyright information in the article for licensing details.
Free full text in Europe PMC
NOTCH2 promotes osteoclast maturation and metabolism and modulates the transcriptome profile during osteoclastogenesis.
Canalis E, Schilling L, Yu J, Denker E
J Biol Chem, 300(2):105613, 28 Dec 2023
Cited by: 1 article | PMID: 38159855 | PMCID: PMC10837628
This article is in the Europe PMC Open access subset. Refer to the copyright information in the article for licensing details.
Free full text in Europe PMC
Structure and regulation of full-length human leucine-rich repeat kinase 1.
Metcalfe RD, Martinez Fiesco JA, Bonet-Ponce L, Kluss JH, Cookson MR, Zhang P
Nat Commun, 14(1):4797, 09 Aug 2023
Cited by: 0 articles | PMID: 37558661 | PMCID: PMC10412621
This article is in the Europe PMC Open access subset. Refer to the copyright information in the article for licensing details.
Free full text in Europe PMC
The checkpoint inhibitor PD-1H/VISTA controls osteoclast-mediated multiple myeloma bone disease.
Fu J, Li S, Ma H, Yang J, Pagnotti GM, Brown LM, Weiss SJ, Mapara MY, Lentzsch S
Nat Commun, 14(1):4271, 17 Jul 2023
Cited by: 4 articles | PMID: 37460553
RhoA promotes osteoclastogenesis and regulates bone remodeling through mTOR-NFATc1 signaling.
Wang J, Xu C, Zhang J, Bao Y, Tang Y, Lv X, Ma B, Wu X, Mao G
Mol Med, 29(1):49, 05 Apr 2023
Cited by: 8 articles | PMID: 37020186 | PMCID: PMC10077675
This article is in the Europe PMC Open access subset. Refer to the copyright information in the article for licensing details.
Free full text in Europe PMC

Go to all (86) article citations

Data

Data that cites the article

This data has been provided by curated databases and other sources that have cited the article.

Proteins in UniProt (Showing 5 of 18)

lysozyme(UniProt - A0A077S2U6)
Rac family small GTPase 2(UniProt - A0A2R8VH29)
Ras-related C3 botulinum toxin substrate 1(UniProt - Q3TLP8)
Rac family small GTPase 2(UniProt - A0A2R8VHH0)
Ras-related C3 botulinum toxin substrate 1(UniProt - K7Q7T7)

Go to all (18) records in UniProt

Mouse Genome Informatics (MGI)

http://www.informatics.jax.org/reference/17922611

Search life-sciences literature (45,094,167 articles, preprints and more)

Author information

Affiliations

ORCIDs linked to this article