The Bone Lining Cell: Its Role in Cleaning Howship's Lacunae and Initiating Bone Formation

Everts, Vincent; Delaissé, Jean‐Marie; Korper, W.; Jansen, D.C.; Tigchelaar-Gutter, Wikky; Säftig, Paul; Beertsen, W.

doi:10.1359/jbmr.2002.17.1.77

Cited by 323 publications

(267 citation statements)

References 54 publications

(93 reference statements)

Supporting

Mentioning

246

Contrasting

Unclassified

Order By: Relevance

“…Based on studies on bone remodeling, several authors reported that a variety of mononuclear cell types, e.g., mononuclear phagocytes or macrophage-like cells (Tran Van et al, 1982), preosteoblasts (McKee andNanci, 1996a), bone-lining cells (Everts et al, 2002), and partially released osteocytes (Tran Van et al, 1982;Oguro and Ozawa, 1989) were observed along the resorbed bone surface during the reversal period. Thus, some authors considered that these mononuclear cells might scavenge the bone surface at the end of osteoclastic resorption (Heersche, 1978; Tran Van et al, 1982;Everts et al, 2002) and that the cement line/reversal line seen on the resorbed surface might be formed by these mononuclear cells (Heersche, 1978; Tran Van et al, 1982;McKee and Nanci, 1996a;Everts et al, 2002).…”

Section: Discussionmentioning

confidence: 99%

“…Thus, some authors considered that these mononuclear cells might scavenge the bone surface at the end of osteoclastic resorption (Heersche, 1978; Tran Van et al, 1982;Everts et al, 2002) and that the cement line/reversal line seen on the resorbed surface might be formed by these mononuclear cells (Heersche, 1978; Tran Van et al, 1982;McKee and Nanci, 1996a;Everts et al, 2002). In the case of tooth resorption, it was also reported that similar kinds of mononuclear cell types, e.g., cementoblast-like cells (Sasaki et al, 1990), machrophage-like cells or fibroblast-like cells (Tanaka et al, 1990;Okamura et al, 1993), and a special class of mononuclear cells (Bosshardt and Schroeder, 1998) were seen lining the resorption surface.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Cementum‐like tissue deposition on the resorbed enamel surface of human deciduous teeth prior to shedding

Sahara

Ozawa

2004

Anat. Rec.

View full text Add to dashboard Cite

Prior to the shedding of human deciduous teeth, odontoclastic resorption takes place at the pulpal surface of the coronal dentin, and this resorption occasionally extends coronally from the dentinoenamel junction into the enamel. After the end of resorption, however, the resorbed enamel surface is repaired by the deposition of a cementum-like tissue. Using this phenomenon as an observation model, in this study we examined the sequence of cellular and extracellular/matrix events involved in the enamel resorption repair by light and electron microscopy. As the odontoclast terminated its resorption activity, it detached from the resorbed enamel surface; thereafter, numerous mononuclear cells were observed along the resorbed enamel surface. Most of these mononuclear cells made close contact with the resorbed enamel surface, and coated pits or patches were observed on their plasma membrane facing this surface. Furthermore, they frequently contained thin needle-or plate-like enamel crystals in their cytoplasmic vacuoles as well as secondary lysozomes. Following the disappearance of these monononuclear cells, the resorbed enamel surface now displayed a thin coat of organic matrix. Ultrastructurally, this organic layer was composed of a reticular and/or granular organic matrix, but contained no collagen fibrils. Energy-dispersive X-ray microanalysis of this thin organic layer in undecalcified sections revealed small spectral peaks of Ca and P. Cementum-like tissue initially formed along this thin organic layer, increased in width, and appeared to undergo mineralization as time progressed. The results of our observations demonstrate that regardless of type of matrix of dental hard tissues, tooth repair may be coupled to tooth resorption, and suggest that mononuclear cells and an organic thin layer found on the previously resorbed enamel surface may play an important role in the repair process initiated after resorption of the enamel. © 2004 Wiley-Liss, Inc.Key words: enamel; resorption; cementum; repair; deciduous teeth; human Tooth, unlike bone, is not resorbed under physiological conditions except for the resorption of decidious teeth that occurs during the process of shedding. However, tooth resorption occasionally takes place under pathological conditions such as infection, trauma, or tumor development (Andreasen, 1988;Tronstad, 1988). It is well known that after cessation of tooth resorption, the area resorbed is rapidly repaired by the deposition of cementum or cementum-like tissue (Orban, 1928;Mueller, 1931; Kronfeld, 1932;Henry and Weinmann, 1951;Furseth, 1968;Schroeder, 1986;Sasaki et al., 1990;Sahara et al., 1992Sahara et al., , 1993Bosshardt and Schroeder, 1994;Kimura et al., 2003). This site-specific localization of repair seems to resemble that found in bone formation during bone remodeling. In bone remodeling, osteoclastic bone resorption is always followed by osteoblastic bone formation. A basophilic and electron-dense cement line/reversal line can be detected at the interface between the residual ...

show abstract

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Cementum‐like tissue deposition on the resorbed enamel surface of human deciduous teeth prior to shedding

Sahara

Ozawa

2004

Anat. Rec.

View full text Add to dashboard Cite

show abstract

“…These data indicate that although SC express early osteogenic markers, their differentiation to a classic fully osteoblastic phenotype cannot be achieved even after appropriate induction. To verify if SC might be considered similar to another cell type, the socalled ''bone lining cell'' [12], expressing very low levels of Type I collagen and osteocalcin and known to contribute to bone collagen degradation, we analyzed the mRNA for ICAM-1, the expression of which is increased in this osteoblast subtype [12,43]. Interestingly, ICAM-1 plays a pivotal role in osteoclastogenesis, because osteoblasts expressing ICAM-1 support bone resorption activity [44,45].…”

Section: Cell Culturesmentioning

confidence: 99%

Histogenetic Characterization of Giant Cell Tumor of Bone

Salerno

Avnet

Alberghini

et al. 2008

Clin Orthop Relat Res

View full text Add to dashboard Cite

The unpredictable behavior of giant cell tumor (GCT) parallels its controversial histogenesis. Multinucleated giant cells, stromal cells, and CD68 + monocytes/ macrophages are the three elements that interact in GCT. We compared the ability of stromal cells and normal mesenchymal stromal cells to differentiate into osteoblasts. Stromal cells and mesenchymal cells had similar proliferation rates and lifespans. Although stromal cells expressed early osteogenic markers, they were unable to differentiate into osteoblasts but they did express intracellular adhesion molecule-1, a marker of bone-lining cells. They were unable to form clones in a semisolid medium and unable to promote osteoclast differentiation, although they exerted a strong chemotactic effect on osteoclast precursors. Stromal cells may be either immature proliferating osteogenic elements or specialized osteoblast-like cells that fail to show neoplastic features but can induce the differentiation of osteoclast precursors. They might be secondarily induced to proliferate by a paracrine effect induced by monocytemacrophages and/or giant cells. The increased number of giant cells in GCT may be secondary to an autocrine circuit mediated by the receptor activator of nuclear factor kB.

show abstract

“…Further studies have implied that MMP-mediated collagen proteolysis may be physiologically important in removing any remaining matrix from areas vacated by osteclasts at the end of the resorption cycle (Everts et al, 2002). This enzyme appears to be MMP-13 derived from cells other than osteoclasts (Delaissé et al, 2003;Fuller & Chambers, 1995).…”

Section: Bone: Altered Metabolism and Extracellular Matrix Proteolysismentioning

confidence: 99%

“…A number of degenerative changes have been reported including, hypoxia, loss Drake et al (1996), Everts et al (1992), Garnero et al (1998), Hou et al (1999), Kamiya et al (1998) MMP-13 Metallo Cleavage of matrix from demineralised zones Delaissé et al (2003), Everts et al (2002), Fuller and Chambers (1995) Osteoclast activation and migration MMP-13 Metallo Cleavage of type I collagen generating an activation factor for osteoclasts Millar et al (1998), Riley et al (2002) of fibrillar collagen structure, glycosaminoglycan accumulation between the collagen fibres and cell rounding together with an absence of inflammatory cells (Kannus & Józsa, 1991). Similar changes have been reported in chronic tendinopathy, including an abnormal fibre structure and arrangement, focal changes in cellularity, rounded cells and an increase in proteoglycan content (Movin, Gad, Reinholt, & Rolf, 1997).…”

Section: Tendon: Tenocyte Apoptosis and Increased Collagen Turnovermentioning

confidence: 99%

The role of proteases in pathologies of the synovial joint

Jones¹,

Riley²,

Buttle³

2008

The International Journal of Biochemistry & Cell Biology

View full text Add to dashboard Cite

Synovial (diarthrodial) joints are employed within the body to provide skeletal mobility and have a characteristic structure adapted to provide a smooth almost frictionless surface for articulation. Pathologies of the synovial joint are an important cause of patient morbidity and can affect each of the constituent tissues. A common feature of these pathologies is degenerative changes in the structure of the tissue which is mediated, at least in part, by proteolytic activity. Most tissues of the synovial joint are composed primarily of extracellular matrix and key pathological roles in the degeneration of this matrix are performed by metalloproteinases such as matrix metallproteinases (MMPs) and a disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS). However, other proteases such as cathepsin K are likely to play an important role, especially in bone turnover. In addition to the cleavage of structural proteins, proteolytic activities are employed to regulate the activity of other proteases, growth factors, cytokines and other inflammatory mediators. Proteases combine to form complex regulatory networks, the correct functioning of which is required for tissue homeostasis and the imbalance of which may be a feature of pathology. A precise understanding of the proteases involved in these networks is required for a true understanding of the associated pathology.

show abstract

The Bone Lining Cell: Its Role in Cleaning Howship's Lacunae and Initiating Bone Formation

Cited by 323 publications

References 54 publications

Cementum‐like tissue deposition on the resorbed enamel surface of human deciduous teeth prior to shedding

Cementum‐like tissue deposition on the resorbed enamel surface of human deciduous teeth prior to shedding

Histogenetic Characterization of Giant Cell Tumor of Bone

The role of proteases in pathologies of the synovial joint

Contact Info

Product

Resources

About