Philippe de Souza scite author profile

We previously have reported that the mitogen-activated protein kinase (MAPK) pathway is stimulated by adhesion of human chondrocytes to anti-␤ 1 -integrin antibodies or collagen type II in vitro. These mechanisms most likely prevent chondrocyte dedifferentiation to fibroblast-like cells and chondrocyte death. To investigate whether this pathway plays an essential role for the differentiation, phenotype, and survival of chondrocytes, we blocked mitogen-activated protein kinase/extracellular signal-regulated kinase (Erk) (MEK), a kinase upstream of the kinase Erk by using U0126. Exposure of chondrocytes to U0126 caused activation of caspase-3 in a dose-dependent manner. Western blot analysis with an antibody specific for dually phosphorylated Erk shows that collagen type II induced phosphorylation of Erk1/2 was specifically blocked by U0126 in a dose-dependent manner. Immunohistochemical analysis showed that treated chondrocytes were caspase-3 positive. In treated chondrocytes, the cleavage of 116-kDa poly(ADP-ribose)polymerase resulted in the 85-kDa apoptosis-related cleavage fragment and was associated with caspase-3 activity. Analysis by electron microscopy showed typical morphological signs of apoptosis, such as crescent-shaped clumps of heterochromatin, and a degraded pericellular matrix. Thus, these results indicate that the MEK/Erk signal transduction pathway is involved in the maintenance of chondrocytes differentiation and survival. These data stimulate further investigations on the role of mitogen-activated protein kinase pathways in human chondrocytes.Apoptosis, or programmed cell death, plays a key role in embryogenesis, immunological competence and tissue homeostasis for cell removal and can distinguished biochemically and morphologically from cell necrosis, which is a passive, energyindependent form of cell death. Chondrocyte degradation and death occurs in enchondral ossification as well as in age-associated athropathies such as osteoarthritis (1, 2). Chondrocyte apoptosis, can be induced in vitro by a variety of agents, such as nitric oxide, oxygen radical scavengers (3), tumor necrosis factor (4), and interleukin-1␤ (5).It is known that many cell types including chondrocytes require integrin mediated interactions with the extracellular matrix to survive, differentiate, and proliferate (6, 7). Cells undergo a specific cell death or apoptosis in the absence of specific matrix components (8). Interaction between chondrocytes and cartilage matrix components or anti-␤ 1 -integrin antibodies leads to a rearrangement of cytoskeletal and signaling proteins localized at focal adhesions and focal adhesion kinase (6 -9). These stimulate docking proteins such as Src-homology collagen. Src-homology collagen then associates with growth factor receptor-bound protein 2, and extracellular signal-regulated kinase (Erk) 1 (7). These mechanisms most likely prevent chondrocyte dedifferentiation to fibroblast-like cells and chondrocytes death (7)(8)10).It is well known that one of the early reactions occurring in the c...

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Loss of chondrogenic potential in dedifferentiated chondrocytes correlates with deficient Shc–Erk interaction and apoptosis

Schulze‐Tanzil

Mobasheri

Souza

et al. 2004

Osteoarthritis and Cartilage

125

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We conclude that the loss of chondrogenic potential by chondrocytes maintained in monolayer culture is associated with a decrease in the synthesis of cartilage markers and with a suppressed activation of key signaling proteins in the Ras-mitogen-activated protein kinase pathway (Shc and Erk1/2). These events lead to apoptosis. A decrease in Shc/Erk expression/interaction could serve as a recognition marker for irreversibly dedifferentiated chondrocytes in tissue engineering.

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Signal transduction by β1 integrin receptors in human chondrocytes in vitro: collaboration with the insulin-like growth factor-I receptor

SHAKIBAEI¹,

John²,

Souza³

et al. 1999

Biochem. J.

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We have examined the mechanism by which collagen-binding integrins co-operate with insulin-like growth factor-I (IGF-I) receptors (IGF-IR) to regulate chondrocyte phenotype and differentiation. Adhesion of chondrocytes to anti-beta1 integrin antibodies or collagen type II leads to phosphorylation of cytoskeletal and signalling proteins localized at focal adhesions, including alpha-actinin, vinculin, paxillin and focal adhesion kinase (FAK). These stimulate docking proteins such as Shc (Src-homology collagen). Moreover, exposure of collagen type II-cultured chondrocytes to IGF-I leads to co-immunoprecipitation of Shc protein with the IGF-IR and with beta1, alpha1 and alpha5 integrins, but not with alpha3 integrin. Shc then associates with growth factor receptor-bound protein 2 (Grb2), an adaptor protein and extracellular signal-regulated kinase. The expression of the docking protein Shc occurs only when chondrocytes are bound to collagen type II or integrin antibodies and increases when IGF-I is added, suggesting a collaboration between integrins and growth factors in a common/shared biochemical signalling pathway. Furthermore, these results indicate that focal adhesion assembly may facilitate signalling via Shc, a potential common target for signal integration between integrin and growth-factor signalling regulatory pathways. Thus, the collagen-binding integrins and IGF-IR co-operate to regulate focal adhesion components and these signalling pathways have common targets (Shc-Grb2 complex) in subcellular compartments, thereby linking to the Ras-mitogen-activated protein kinase signalling pathway. These events may play a role during chondrocyte differentiation.

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Integrin Expression and Collagen Type Ii Implicated in Maintenance of Chondrocyte Shape in Monolayer Culture: An Immunomorphological Study

Shakibaei

Souza

Merker

1997

Cell Biology International

107

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Chondrocytes grown in monolayer culture at low density, with serum added, either dedifferentiate after several days whereby their cell shape or they are overgrown by fibroblast-like cells. The aim of this study was to optimize the cultivation of chondrocytes in monolayer culture and to slow down their transformation or their overgrowth by fibroblast-like cells. For this purpose freshly isolated chondrocytes of cartilage anlagen from 17-day-old mouse embryos were grown on plastic or collagen type II-coated substrates. With this model: (a) chondrocytes grown on plastic substrates had almost completely changed to fibroblast-like cells after 5 days in culture. (b) When grown on collagen type II, the chondrocytes maintained their round phenotype for more than 2 weeks in culture. (c) Immunomorphological investigations showed that chondrocytes produce collagen type II and fibronectin and express specific surface receptors (integrins of the beta 1-group) on the membrane from day 1 until the end of the culture period when grown on collagen type II. (d) Treatment with beta 1-integrin antibodies clearly reduces chondrocyte adhesion on collagen type II by about 70%. Hence, these data indicate that the most probable influence of collagen type II on cellular behaviour depends on the integrins participating in a chondrocyte-collagen type II interaction, and this model represents a pure chondrocyte culture which allows cell growth for an extended period.

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Differentiation of Mesenchymal Limb Bud Cells to Chondrocytes in Alginate Beads

Shakibaei

Souza

1997

Cell Biology International

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Many in vitro models of embryonic material used for the cultivation of chondrocytes yield mixed cultures consisting of chondrocytes and fibroblast-like cells. For the optimization of cartilage cell cultures, alginate, a semisolid medium, was employed to obtain pure chondrocyte cultures. Isolated mesenchymal cells from 12-day-old mouse limb buds were grown in alginate for up to 4 weeks. A sub-population of the cells differentiated to chondrocytes and exhibited a stable phenotype until the end of the culture period. After 3 to 4 days a cartilage-specific matrix started to develop. Fibroblast-like cells from this mixed culture did not survive; they became necrotic. When alginate was later on dissolved by chelating agents, only chondrocytes were isolated. During dissolution of alginate and centrifugation, chondrocytes did not lose their contact with their new matrix present on their surfaces. Cultivation of these chondrocytes or chondrones in mass culture yields a pure chondrocyte population. Immunoelectron microscopic investigations revealed collagen type II, fibronectin, decorin and chondroitin sulfate-proteoglycans in the chondrocyte capsules and in mass culture.

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