Rac Null Leukocytes Are Associated With Increased Inflammation-mediated Alveloar Bone Loss

Sima, Corneliu

19 March 2014

Genetic and epigenetic factors that predispose to ineffective control of subgingival biofilm composition are incompletely understood. The objective of this study was to elucidate how leukocytes impact on the course of periodontitis in Rac-null mice. Models of acute gingivitis and periodontitis were used to assess the early inflammatory response and patterns of chronicity leading to alveolar bone loss. Leukocyte margination was differentially impaired during attachment in conditional Rac1-null and during rolling and attachment in Rac2-null mice. The inflammatory responses to subgingival ligatures were altered in Rac-null compared to WT mice. In response to persistent subgingival challenge Rac-null mice had increased alveolar bone loss with resorption patterns characteristic to aggressive periodontitis, partially explained by higher osteoclastic activity in Rac-null mice. This study demonstrates that migratory leukocyte defects are rate limiting steps in the periodontal inflammatory process that lead to more aggressive forms of periodontitis.

Inflammation

Rac GTPases

Periodontitis

0567

0982

Rac Null Leukocytes Are Associated With Increased Inflammation-mediated Alveloar Bone Loss

Sima, Corneliu

19 March 2014

Genetic and epigenetic factors that predispose to ineffective control of subgingival biofilm composition are incompletely understood. The objective of this study was to elucidate how leukocytes impact on the course of periodontitis in Rac-null mice. Models of acute gingivitis and periodontitis were used to assess the early inflammatory response and patterns of chronicity leading to alveolar bone loss. Leukocyte margination was differentially impaired during attachment in conditional Rac1-null and during rolling and attachment in Rac2-null mice. The inflammatory responses to subgingival ligatures were altered in Rac-null compared to WT mice. In response to persistent subgingival challenge Rac-null mice had increased alveolar bone loss with resorption patterns characteristic to aggressive periodontitis, partially explained by higher osteoclastic activity in Rac-null mice. This study demonstrates that migratory leukocyte defects are rate limiting steps in the periodontal inflammatory process that lead to more aggressive forms of periodontitis.

Inflammation

Rac GTPases

Periodontitis

0567

0982

The Role of Rac1 and Rac2 in Determining Bone Quality in Aged and Osteoporotic Female Mouse Models

Magalhaes, Joyce Kellen Rodrigues de Souza

06 April 2010

The osteoclasts, the bone cells responsible for bone degradation, have a crucial role in the age-related bone loss and post-menopause osteoporosis. Rac1 and Rac2, members of the Rho-family of small GTPases, are known for having a key role in osteoclast formation and activity, which could be translated to bone quality. In this study, we characterize the roles of Rac1 and Rac2 on bone quality using an aged and osteoporotic mouse model. Bones from wild type, Rac1KO and Rac2KO mice were harvested for mechanical tests, bone densitometry, micro-computed tomography and histomorphometric analyses to evaluate bone mineralization and architecture. We observed that the deletion of Rac1 or Rac2 in pre-osteoclasts minimized bone loss in both age-related and post-menopause osteoporosis. These results highlight the importance of the two small GTPases in bone remodeling and identify Rac1 and Rac2 as potential targets for the development of new therapies for the treatment of osteoporosis.

Rac GTPases

bone remodeling

osteoclastogenesis

bone quality

0566

The Role of Rac1 and Rac2 in Determining Bone Quality in Aged and Osteoporotic Female Mouse Models

Magalhaes, Joyce Kellen Rodrigues de Souza

06 April 2010

The osteoclasts, the bone cells responsible for bone degradation, have a crucial role in the age-related bone loss and post-menopause osteoporosis. Rac1 and Rac2, members of the Rho-family of small GTPases, are known for having a key role in osteoclast formation and activity, which could be translated to bone quality. In this study, we characterize the roles of Rac1 and Rac2 on bone quality using an aged and osteoporotic mouse model. Bones from wild type, Rac1KO and Rac2KO mice were harvested for mechanical tests, bone densitometry, micro-computed tomography and histomorphometric analyses to evaluate bone mineralization and architecture. We observed that the deletion of Rac1 or Rac2 in pre-osteoclasts minimized bone loss in both age-related and post-menopause osteoporosis. These results highlight the importance of the two small GTPases in bone remodeling and identify Rac1 and Rac2 as potential targets for the development of new therapies for the treatment of osteoporosis.

Rac GTPases

bone remodeling

osteoclastogenesis

bone quality

0566

A Cdc42- and Rac-interactive binding (CRIB) domain mediates functions of coronin

Swaminathan, Karthic, Müller-Taubenberger, A., Faix, J., Rivero, F., Noegel, A.A.

28 February 2020

Yes / The Cdc42- and Rac-interactive binding motif (CRIB) of coronin binds to Rho GTPases with a preference for GDP-loaded Rac. Mutation of the Cdc42- and Rac-interactive binding motif abrogates Rac binding. This results in increased 1evels of activated Rac in coronin-deficient Dictyostelium cells (corA−), which impacts myosin II assembly. corA− cells show increased accumulation of myosin II in the cortex of growth-phase cells. Myosin II assembly is regulated by myosin heavy chain kinase–mediated phosphorylation of its tail. Kinase activity depends on the activation state of the p21-activated kinase a. The myosin II defect of corA− mutant is alleviated by dominant-negative p21-activated kinase a. It is rescued by wild-type coronin, whereas coronin carrying a mutated Cdc42- and Rac-interactive binding motif failed to rescue the myosin defect in corA− mutant cells. Ectopically expressed myosin heavy chain kinases affinity purified from corA− cells show reduced kinase activity. We propose that coronin through its affinity for GDP–Rac regulates the availability of GTP–Rac for activation of downstream effectors. / This work was supported by Deutsche Forschungsgemeinschaft (DFG), Sonderforschungsbereich 670 (SFB 670) and Köln Fortune (to A.A.N.). A.M.-T. acknowledges support by the SFB 914, and J.F. acknowledges support by Grant FA330/6-1 within the framework of the DFG priority programme “Principles and Evolution of Actin Nucleator Complexes” (SPP1464). Work in F.R. lab is supported by grants from the Hull York Medical School.

Rac GTPases

Protein-protein interaction

Cytoskeleton

Cell signalling