Possible Role of Direct Rac1-Rab7 Interaction in Ruffled Border Formation of Osteoclasts

Sun, Yi; Büki, Kálmán G.; Ettala, Otto; Vääräniemi, Jukka; Väänänen, H. Kalervo

doi:10.1074/jbc.m414213200

Cited by 68 publications

(70 citation statements)

References 47 publications

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“…Because Rac1 is enriched at the podosome belt (Fig. S4) (Sun et al, 2005;Nagai et al, 2013), the silencing of tensin 3, by disorganizing the podosome belt, might lead to its ectopic activation by various exchange factors that are expressed in osteoclasts such as Dock5, Vav3, Tiam1 or FARP2 (Brazier et al, 2006). Finally, we did not find any effect of tensin 3 silencing on the acetylation of microtubules (Fig.…”

Section: Tensin 3 Stimulates Dock5 Exchange Activity Towards Racmentioning

confidence: 66%

Tensin 3 is a new partner of Dock5 that controls osteoclast podosome organization and activity

Touaitahuata

Morel

Urbach

et al. 2016

Journal of Cell Science

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Bone resorption by osteoclasts is mediated by a typical adhesion structure called the sealing zone or actin ring, whose architecture is based on a belt of podosomes. The molecular mechanisms driving podosome organization into superstructures remain poorly understood to date, in particular at the osteoclast podosome belt. We performed proteomic analyses in osteoclasts and found that the adaptor protein tensin 3 is a partner of Dock5, a Rac exchange factor necessary for podosome belt formation and bone resorption. Expression of tensin 3 and Dock5 concomitantly increase during osteoclast differentiation. These proteins associate with the osteoclast podosome belt but not with individual podosomes, in contrast to vinculin. Super-resolution microscopy revealed that, even if they colocalize in the x-y plane of the podosome belt, Dock5 and tensin 3 differentially localize relative to vinculin in the z-axis. Tensin 3 increases Dock5 exchange activity towards Rac, and suppression of tensin 3 in osteoclasts destabilizes podosome organization, leading to delocalization of Dock5 and a severe reduction in osteoclast activity. Our results suggest that Dock5 and tensin 3 cooperate for osteoclast activity, to ensure the correct organization of podosomes.

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Section: Tensin 3 Stimulates Dock5 Exchange Activity Towards Racmentioning

confidence: 66%

Tensin 3 is a new partner of Dock5 that controls osteoclast podosome organization and activity

Touaitahuata

Morel

Urbach

et al. 2016

Journal of Cell Science

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“…These effects may be mediated by altered activity of Rac1, which has recently been suggested to be a direct effector of Rab7 in osteoclasts (65). Interestingly, the defective ruffled border and extended clear zone that is seen in osteoclasts lacking Rab7 (59) are also characteristic features of osteoclasts in the ia rat (15), offering further evidence that Rab7 and Plekhm1 are involved in the same vesicular transport processes in osteoclasts.…”

Section: Figurementioning

confidence: 88%

Involvement of PLEKHM1 in osteoclastic vesicular transport and osteopetrosis in incisors absent rats and humans

et al. 2007

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This study illustrates that Plekhm1 is an essential protein for bone resorption, as loss-of-function mutations were found to underlie the osteopetrotic phenotype of the incisors absent rat as well as an intermediate type of human osteopetrosis. Electron and confocal microscopic analysis demonstrated that monocytes from a patient homozygous for the mutation differentiated into osteoclasts normally, but when cultured on dentine discs, the osteoclasts failed to form ruffled borders and showed little evidence of bone resorption. The presence of both RUN and pleckstrin homology domains suggests that Plekhm1 may be linked to small GTPase signaling. We found that Plekhm1 colocalized with Rab7 to late endosomal/lysosomal vesicles in HEK293 and osteoclast-like cells, an effect that was dependent on the prenylation of Rab7. In conclusion, we believe PLEKHM1 to be a novel gene implicated in the development of osteopetrosis, with a putative critical function in vesicular transport in the osteoclast.

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“…To evaluate the cytoskeletal organization in p85␣ Ϫ/Ϫ OCs, immunofluorescence microscopy was performed as previously described (40,45). Briefly, OCs were grown on coverslips, washed with PBS, and permeabilized with 0.01% saponin in 80 mM PIPES [piperazine-N,NЈ-bis(2-ethanesulfonic acid)], pH 6.8, 5 mM EGTA, and 1 mM MgCl 2 for 5 min at room temperature.…”

Section: Mice P85␣mentioning

confidence: 99%

The p85α Subunit of Class I_A Phosphatidylinositol 3-Kinase Regulates the Expression of Multiple Genes Involved in Osteoclast Maturation and Migration

Munugalavadla

Vemula

Sims

et al. 2008

Molecular and Cellular Biology

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Intracellular signals involved in the maturation and function of osteoclasts are poorly understood. Here, we demonstrate that osteoclasts express multiple regulatory subunits of class I A phosphatidylinositol 3-kinase (PI3-K) although the expression of the full-length form of p85␣ is most abundant. In vivo, deficiency of p85␣ results in a significantly greater number of trabeculae and significantly lower spacing between trabeculae as well as increased bone mass in both males and females compared to their sex-matched wild-type controls. Consistently, p85␣؊/؊ osteoclast progenitors show impaired growth and differentiation, which is associated with reduced activation of Akt and mitogen-activated protein kinase extracellular signal-regulated kinase 1 (Erk1)/Erk2 in vitro. Furthermore, a significant reduction in the ability of p85␣ ؊/؊ osteoclasts to adhere to as well as to migrate via integrin ␣v␤3 was observed, which was associated with reduced bone resorption. Microarray as well as quantitative real-time PCR analysis of p85␣؊/؊ osteoclasts revealed a significant reduction in the expression of several genes associated with the maturation and migration of osteoclasts, including microphathalmia-associated transcription factor, tartrate-resistant acid phosphatase, cathepsin K, and ␤3 integrin. Restoring the expression of the full-length form of p85␣ but not the version with a deletion of the Src homology-3 domain restored the maturation of p85␣ ؊/؊ osteoclasts to wild-type levels. These results highlight the importance of the full-length version of the p85␣ subunit of class I A PI3-K in controlling multiple aspects of osteoclast functions.Osteoclasts (OCs) are derived from precursors of monocyte/ macrophage lineage, whose growth and maturation are mainly dependent on two osteoblast/stromal cell-derived cytokines, including macrophage colony stimulating factor (M-CSF) and receptor activator of NF-B ligand (RANKL) (22,30,35,63). The critical role for these two cytokines in OC growth and differentiation has been further illustrated by studying mice lacking the expression of 64). These mice show severe osteopetrosis and lack mature OCs. M-CSF and RANKL regulate OC progenitor (OCp) growth and function in part by regulating the expression of several OC genes, including tartrate-resistant acid phosphatase (TRAP), cathepsin K, calcitonin receptor, and integrin ␤3 (15, 29). Stimulation of OC precursors by RANKL and M-CSF results in the activation of a number of signaling molecules, including Gab2, Grb2, Vav, Src homology-2 (SH2)-containing inositol-5-

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Possible Role of Direct Rac1-Rab7 Interaction in Ruffled Border Formation of Osteoclasts

Cited by 68 publications

References 47 publications

Tensin 3 is a new partner of Dock5 that controls osteoclast podosome organization and activity

Tensin 3 is a new partner of Dock5 that controls osteoclast podosome organization and activity

Involvement of PLEKHM1 in osteoclastic vesicular transport and osteopetrosis in incisors absent rats and humans

The p85α Subunit of Class I_A Phosphatidylinositol 3-Kinase Regulates the Expression of Multiple Genes Involved in Osteoclast Maturation and Migration

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Possible Role of Direct Rac1-Rab7 Interaction in Ruffled Border Formation of Osteoclasts

Cited by 68 publications

References 47 publications

Tensin 3 is a new partner of Dock5 that controls osteoclast podosome organization and activity

Tensin 3 is a new partner of Dock5 that controls osteoclast podosome organization and activity

Involvement of PLEKHM1 in osteoclastic vesicular transport and osteopetrosis in incisors absent rats and humans

The p85α Subunit of Class IA Phosphatidylinositol 3-Kinase Regulates the Expression of Multiple Genes Involved in Osteoclast Maturation and Migration

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The p85α Subunit of Class I_A Phosphatidylinositol 3-Kinase Regulates the Expression of Multiple Genes Involved in Osteoclast Maturation and Migration