OBJECTIVEThe aim of this study was to investigate the expression of collagen in the process of masseter muscle reattachment to the cortical and cancellous bones of mandible.

METHODSA total of nine adult goats were used in the study. One was the control. The other eight were treated with bilateral detachment of the masseter muscles. The biopsies of bone and muscle were taken at 2, 4, 8 and 12 weeks after the operation. The characteristics of the healing muscle-bone interfaces were examined using immunohistochemical techniques.

RESULTSImmunohistochemical analysis illustrated that the locations of collagen type I, II and III were different during the healing process, but similar in the cortical and cancellous bones.

CONCLUSIONThis study demonstrates that the distribution of the three types of collagens at the muscle-bone interfaces is associated with time, but not related with their locations.

Animals ; Collagen ; biosynthesis ; genetics ; Collagen Type I ; biosynthesis ; genetics ; Collagen Type II ; biosynthesis ; genetics ; Collagen Type III ; biosynthesis ; genetics ; Female ; Goats ; Male ; Mandible ; metabolism ; pathology ; surgery ; Masseter Muscle ; metabolism ; pathology ; surgery ; Wound Healing ; physiology

OBJECTIVETo study the adaptive alteration in bilaminar zone of rabbits' temporomandibular joint following disc displacement.

METHODSTwenty-six Japanese white rabbits were used in this study. Among these rabbits,6 were used as controls. The right discs of other 20 rabbits were displaced anteriorly by operation. Four of these rabbits were killedatn 1, 2, 4, 6 and 8 weeks respectively after surgery. The TMJS were studied by HE staining, Alcin bluen staining and in situ detection of type II collagen mRNA expression.

RESULTSThere appeared cartilage metaplasia after one week following disc displacement. Typical chondrocytes could be found in the bilaminar zone. The new chondrocytes expressed type II collagen.

CONCLUSIONSThe bilaminar zone of TMJ will be remodeled following disc displacement and become a disc-like tissue to function as a disc.

Animals ; Collagen Type II ; biosynthesis ; genetics ; Female ; Joint Dislocations ; metabolism ; Male ; RNA, Messenger ; biosynthesis ; Rabbits ; Temporomandibular Joint Disc ; metabolism ; pathology ; Temporomandibular Joint Disorders ; metabolism ; pathology

OBJECTIVETo observe the effects of low-intensity pulsed ultrasound (LIPUS) on repairing extracellular matrix in rabbit knee osteoarthritis and analyze its mechanism.

METHODSSixty adult female rabbits with an average weight of (2.0 ± 0.2) kg, were divided randomly into two groups (experimental group and control group, 30 rabbits in each group). All rabbits were replicated in right knees by Hulth method for knee osteoarthritis model. Two weeks after operation, the rabbits in experimental group were treated with LIPUS, and the ultrasonic frequency was (800 ± 5%)KHz and the maximum intensities of spatially averaged and time averaged (SATA) was (50 ± 10%) mw/cm2, for 1 time a day and every time 20 min, while the rabbits in control group were treated with sham LIPUS,the same operation with experimental group but without energy output. At the 2, 4, 8 weeks after treatment, 10 rabbits in each group were randomly killed for each time. The general changes of cartilage and its histopathological changes by HE staining were observed; the expression of collagen type II, proteoglycan, MMP-3, 7, 13 in cartilage were analyzed by immunohistochemical and RT-PCR technique; and the expression of NO in cartilage was analyzed by nitrate reduction method.

RESULTSOn the same observed time point, the damage degree of cartilage in experimental group was slighter than that of control group (P < 0.01), the expression of MMP-3, 7, 13 and NO in cartilage in experimental group was lower than that of control group (P < 0.01) while collagen type II and proteoglycan was higher than that of control group (P < 0.01).

CONCLUSIONLow-intensity pulsed ultrasound can repair the damaged cartilage by reducing the expression of MMP-3, 7, 13, inhibiting the secretion of NO and promoting the synthesis of collagen type II and proteoglycan in cartilage.

Animals ; Cartilage, Articular ; pathology ; Collagen Type II ; biosynthesis ; Extracellular Matrix ; metabolism ; Female ; Matrix Metalloproteinases ; analysis ; Nitric Oxide ; biosynthesis ; Osteoarthritis, Knee ; metabolism ; therapy ; Rabbits ; Ultrasonic Therapy ; methods

BACKGROUND: The mechanism by which mutant cartilage oligomeric matrix protein (COMP) induces a pseudoachondroplasia phenotype remains unknown, and the reason why a mutation of a minor protein of the growth plate cartilage causes total disruption of endochondral bone formation has not yet been determined. The current study was performed to investigate the effects of mutated COMP on the synthesis of the cartilage-specific major matrix proteins of Swarm rat chondrosarcoma chondrocytes. METHODS: The Swarm rat chondrosarcoma chondrocytes transfected with a chimeric construct, which consisted of a mutant gene of human COMP and an amino acid FLAG tag sequence, were cultured in agarose gel. Formation of extracellular proteoglycan and type-II collagen by the cells was evaluated by immunohistochemical staining and measuring the (35)S-sulfate incorporation. RESULTS: No difference was observed for the detection of type-II collagen among the cell lines expressing mutant COMP and the control cell lines. Histochemical staining of sulfated proteoglycans with safranin-O showed that lesser amounts of proteoglycans were incorporated into the extracellular matrix of the chondrocytes transfected with the mutant gene. (35)S-sulfate incorporation into the cell/matrix fractions demonstrated markedly lower radiolabel incorporation, as compared to that of the control cells. CONCLUSIONS: Mutation of COMP has an important impact on the processing of proteoglycans, rather than type-II collagen, in the three-dimensional culture of Swarm rat chondrosarcoma chondrocytes.
Aggrecans/analysis/*biosynthesis ; Animals ; Cells, Cultured ; Chondrocytes/*metabolism ; Chondrosarcoma/metabolism ; Collagen Type II/*biosynthesis ; Extracellular Matrix/*metabolism ; Extracellular Matrix Proteins/*genetics ; Glycoproteins/*genetics ; Humans ; Mutation ; Rats ; Transfection

OBJECTIVETo investigate the effects of excessive intake of fluoride on the expression of type II collagen gene and types and morphological change of collagen fiber in the bone tissues of rats.

METHODSA rat model with fluorosis was established by adding 221 mg/L of sodium fluoride (NaF) to drinking water for the rats for 15 days, 30 days and two months, respectively. Type II collagen alpha1 (II) cDNA probe was prepared, and cDNA-mRNA in-situ hybridization was employed to detect change in expression of type II collagen mRNA in the bone tissues of rats with excessive intake of fluoride (221 mg/L NaF). Picrosirius-polarization method was used to observe types of collagen and morphology of collagen fiber in the bone tissues.

RESULTSChondroblasts were found in the femur and other bone tissues of the rats after exposure to fluoride. cDNA-mRNA in-situ hybridization showed that expression of type II collagen gene could be observed in the cytoplasm of chondrocytic lacuna and chondrified bone tissues. mRNA in collagen of chondrocytes of the rib cartilage reached the peak level 15 days after exposure to fluoride, and decreased gradually one month and two months after exposure. Polychromatic type II collagen, breakage of collagen fiber, disorder array and reduced content of type II collagen could be found in the bone tissues with picrosirius-polarization method.

CONCLUSIONSExcessive intake of fluoride could lead to changes in types and structure of collagen (cross-linkage) of bone tissues, which caused expression of type II collagen gene in the chondrified bone tissues and enhanced its expression in the rib cartilage tissues.

Animals ; Bone Diseases ; metabolism ; pathology ; Chondrocytes ; metabolism ; Collagen Type II ; biosynthesis ; genetics ; Fluoride Poisoning ; genetics ; metabolism ; pathology ; Male ; RNA, Messenger ; biosynthesis ; genetics ; Rats ; Rats, Wistar

Angiotensin II Type 1 Receptor Blockers ; pharmacology ; Animals ; Cell Proliferation ; drug effects ; Cells, Cultured ; Collagen Type I ; biosynthesis ; Hepatocytes ; cytology ; metabolism ; Tetrazoles ; pharmacology ; Valine ; analogs & derivatives ; pharmacology ; Valsartan

BACKGROUNDAngiotensin II (Ang II) is a very important vasoactive peptide that acts upon hepatic stellate cells (HSCs), which are major effector cells in hepatic cirrhosis and portal hypertension. The present study was aimed to investigate the effects of Ang II and angiotensin II type 1 receptor antagonist (AT(1)RA) on the proliferation, contraction and collagen synthesis in HSCs.

METHODSHSC-T6 rat hepatic stellate cell line was studied. The proliferation of the HSC cells was evaluated by MTT colorimetric assay while HSC DNA synthesis was measured by (3)H-thymidine incorporation. The effects of angiotensin II and AT(1)RA on HSCs contraction were studied by analysis of the contraction of the collagen lattice. Cell culture media were analyzed by RT-PCR to detect secretion of collagen I (Col I), collagen III (Col III) and transforming growth factor beta1 (TGF-beta1) by enzyme linked immunosorbent assay. HSC was harvested to measure collagen I, collagen III and tissue inhibitor of metalloproteinase-1 (TIMP-1) mRNA expression.

RESULTSAng II ((1 x 10(-10) - 1 x 10(-4)) mol/L) stimulated DNA synthesis and proliferation in HSCs compared with untreated control cells. AT(1)RA inhibited angiotensin II induced proliferation of HSCs. A linear increase in the contractive area of collagen lattice correlated with the concentration of angiotensin II (1 x 10(-9) - 1 x 10(-5) mol/L) and with time over 48 hours. AT(1)RA blocks angiotensin II induced contraction of collagen lattice. Col I, Col III and TGF-beta1 levels of the Ang II group were higher than those of control group and this increase was downregulated by AT(1)RA. The mRNA expressions of Col I, Col III and TIMP-1 were higher in HSCs from the Ang II group than the control group and downregulated by AT(1)RA.

CONCLUSIONSAngiotensin II increased DNA synthesis and proliferation of HSCs in a dose-dependent manner, stimulated the contraction of HSCs dose- and time-dependently. Angiotensin also promoted excretion of Col I, Col III and TGF-beta1 levels and stimulated Col I, Col III and TIMP-1 expression in HSCs. Angiotensin acts via the angiotensin II receptor because all of these effects are blocked by angiotensin II type 1 receptor antagonist.

Angiotensin II ; pharmacology ; Angiotensin II Type 1 Receptor Blockers ; pharmacology ; Animals ; Calcium ; metabolism ; Cell Proliferation ; drug effects ; Cells, Cultured ; Collagen ; biosynthesis ; Dose-Response Relationship, Drug ; Liver ; cytology ; drug effects ; metabolism ; Rats ; Transforming Growth Factor beta1 ; biosynthesis

Rheumatoid arthritis (RA) is a chronic inflammatiory disease that mainly destroys cartilages or bones at the joints. This inflammatory disorder is initiated by self-attack using own immune system, but the detail of pathological mechanism is unclear. Features of autoantigens leading to autoimmune disease are also under veil although several candidates including type II collagen have been suggested to play a role in pathogenesis. In this report, we tried to identify proteins responding to antibodies purified from RA patients and screen proteins up-regulated or down-regulated in RA using proteomic approach. Fibronectin, semaphorin 7A precursor, growth factor binding protein 7 (GRB7), and immunoglobulin mu chain were specifically associated with antibodies isolated from RA synovial fluids. In addition, some metabolic proteins such as adipocyte fatty acid binding protein, galectin-1 and apolipoprotein A1 precursor were overexpressed in RA synovium. Also, expression of peroxiredoxin 2 was up-regulated in RA. On the contrary, expression of vimentin was severely suppressed in RA synoviocytes. Such findings might give some insights into understanding of pathological mechanism in RA.
Synovial Fluid/metabolism ; Sepharose/chemistry ; Proteomics/methods ; Middle Aged ; Male ; *Inflammation ; Humans ; *Gene Expression Regulation ; Female ; Collagen Type II/biosynthesis ; Autoantigens/metabolism ; Arthritis, Rheumatoid/*metabolism ; Aged ; Adult

Nitric oxide (NO) has been considered as an important mediator in inflammatory phases and in loss of cartilage. In inflammatory arthritis, NO levels are correlated with disease activity and articular cartilage is able to produce large amounts of NO with the appropriate inducing factor such as cytokines. The old animals are shown to have a greater sensitivity to NO than young animals. This study evaluated the basal production of NO in normal and OA-affected chondroyctes from young and old patients and compared the levels of NO formation in response to IL-1beta. The results showed that the basal levels were 7-fold higher in old chondrocytes than those of young cells. However, the IL-1beta induced NO production was seen to decrease with age. Aminoguianidine (AG), a competitive inhibitor of iNOS, inhibited NO formation completely in both chondrocytes from young and old individuals. However, at the same concentration of AG it caused partial inhibition of NO and iNOS formation in chondrocytes from OA-affected individuals. In addition, although the IL-1beta induced NO production was much lesser than that of young chondrocytes, the inhibition of collagen production by IL-1beta was prominent in old chondrocytes and OA-affected chondrocytes. These results suggest that age-related differences in the regulation of NO production and collagen production, which may affect the ageing cells and osteoarthritic changes in some way.
Aging/*physiology ; Cartilage, Articular/*physiopathology ; Cells, Cultured ; Chondrocytes/*metabolism ; Collagen Type II/metabolism ; Enzyme Inhibitors/pharmacology ; Guanidines/pharmacology ; Human ; Interleukin-1/pharmacology ; Nitric Oxide/*biosynthesis ; Osteoarthritis/*metabolism

Nitric oxide (NO) has been considered as an important mediator in inflammatory phases and in loss of cartilage. In inflammatory arthritis, NO levels are correlated with disease activity and articular cartilage is able to produce large amounts of NO with the appropriate inducing factor such as cytokines. The old animals are shown to have a greater sensitivity to NO than young animals. This study evaluated the basal production of NO in normal and OA-affected chondroyctes from young and old patients and compared the levels of NO formation in response to IL-1beta. The results showed that the basal levels were 7-fold higher in old chondrocytes than those of young cells. However, the IL-1beta induced NO production was seen to decrease with age. Aminoguianidine (AG), a competitive inhibitor of iNOS, inhibited NO formation completely in both chondrocytes from young and old individuals. However, at the same concentration of AG it caused partial inhibition of NO and iNOS formation in chondrocytes from OA-affected individuals. In addition, although the IL-1beta induced NO production was much lesser than that of young chondrocytes, the inhibition of collagen production by IL-1beta was prominent in old chondrocytes and OA-affected chondrocytes. These results suggest that age-related differences in the regulation of NO production and collagen production, which may affect the ageing cells and osteoarthritic changes in some way.
Aging/*physiology ; Cartilage, Articular/*physiopathology ; Cells, Cultured ; Chondrocytes/*metabolism ; Collagen Type II/metabolism ; Enzyme Inhibitors/pharmacology ; Guanidines/pharmacology ; Human ; Interleukin-1/pharmacology ; Nitric Oxide/*biosynthesis ; Osteoarthritis/*metabolism