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2. Identification of differentially expressed genes in rheumatoid arthritis by a combination of complementary DNA array and RNA arbitrarily primed-polymerase chain reaction.

Author

Neumann E, Kullmann F, Judex M, Jüsten HP, Wessinghage D, Gay S, Schölmerich J, and Müller-Ladner U

Subjects
Fibroblasts physiology, Gene Expression, Genes, Tumor Suppressor, Genetic Testing methods, Humans, In Situ Hybridization, Oncogenes genetics, Osteoarthritis genetics, RNA, Synovial Membrane cytology, Arthritis, Rheumatoid genetics, Oligonucleotide Array Sequence Analysis, Polymerase Chain Reaction methods
Abstract

Objective: There is increasing evidence that T cell-independent pathways, such as the up-regulation of protooncogenes and the production of growth factors and matrix-degrading enzymes, lead to progressive destruction of affected joints. Therefore, identification of differentially regulated genes restricted to rheumatoid arthritis (RA) synovial fibroblasts is essential. A combination of RNA arbitrarily primed-polymerase chain reaction (RAP-PCR) and complementary DNA (cDNA) array with defined genes was used for a highly sensitive differential screening using small amounts of RNA., Methods: RNA was extracted from cultured synovial fibroblasts obtained from 6 patients with RA and 6 patients with osteoarthritis (OA). RAP-PCR was performed using different arbitrary primers for first- and second-strand synthesis. PCRs were hybridized to cDNA array membranes. RA samples were compared with OA samples for differentially expressed genes., Results: In contrast to standard cDNA array, the identification of 12 differentially expressed genes in RA compared with OA (approximately 6%) was possible. Differentially expressed genes of interest were confirmed using semiquantitative RT-PCR and in situ hybridization., Conclusion: Numerous variants of the differential display method and continuous improvements, including RAP-PCR, have proven to be both efficient and reliable for examining differentially regulated genes. Our results show that RAP-PCR combined with cDNA arrays is a suitable method for identifying differentially expressed genes in rheumatoid synovial fibroblasts, using very small amounts of RNA.

Published
2002
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3. Microsatellite analysis in rheumatoid arthritis synovial fibroblasts.

Author

Kullmann F, Widmann T, Kirner A, Jüsten HP, Wessinghage D, Dietmaier W, Rüschoff J, Gay S, Schölmerich J, and Müller-Ladner U

Subjects
Adaptor Proteins, Signal Transducing, Arthritis, Rheumatoid metabolism, Carrier Proteins, DNA Repair, Humans, Immunoenzyme Techniques, MutL Protein Homolog 1, MutS Homolog 2 Protein, Neoplasm Proteins metabolism, Nuclear Proteins, Polymerase Chain Reaction, Proto-Oncogene Proteins metabolism, Arthritis, Rheumatoid genetics, DNA-Binding Proteins, Fibroblasts pathology, Microsatellite Repeats, Synovial Membrane metabolism, Synovial Membrane pathology
Abstract

Objectives: Rheumatoid arthritis (RA) is a chronic disease characterised by irreversible destruction of the affected joints. As aggressive transformed-appearing synovial fibroblasts are commonly found at the site of invasion of the rheumatoid synovium into the adjacent cartilage and bone, the presence of microsatellite instability (MSI) and expression of mismatch repair enzymes as a possible mechanism in the alteration of these cells was examined., Methods: DNA was extracted from the synovial fibroblasts and blood of 20 patients with long term RA undergoing joint replacement, and the presence of MSI was studied at 10 microsatellite loci. In addition, immunohistochemistry was performed to evaluate the expression of the two major mismatch repair enzymes (hMLH1 and hMSH2) in rheumatoid synovium., Results: MSI could not be detected in any of the fibroblast cell populations derived from the 20 different rheumatoid synovial samples. In addition, strong expression of mismatch repair enzymes could be seen in numerous cells, including fibroblasts, throughout the synovium., Conclusions: Applying the currently used and established markers for MSI, the data show for the first time that MSI does not appear to have an important role in alteration of rheumatoid synovial fibroblasts into an aggressive phenotype. On the other hand, strong mismatch repair enzyme synthesis in rheumatoid synovium supports the hypothesis of continuing DNA repair, presumably due to long term, inflammation induced DNA damage.

Published
2000
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4. Differential gene expression in synovium of rheumatoid arthritis and osteoarthritis.

Author

Jüsten HP, Grünewald E, Totzke G, Gouni-Berthold I, Sachinidis A, Wessinghage D, Vetter H, Schulze-Osthoff K, and Ko Y

Subjects
Adult, Aged, Base Sequence, DNA Primers, DNA, Complementary, Female, Humans, Male, Middle Aged, Nucleic Acid Hybridization, Reverse Transcriptase Polymerase Chain Reaction, Subtraction Technique, Arthritis, Rheumatoid genetics, Gene Expression, Osteoarthritis genetics, Proteins genetics, Synovial Membrane metabolism
Abstract

Rheumatoid arthritis (RA) and osteoarthritis (OA) are the major types of arthritis. Although both diseases are characterized by joint destruction, their etiologies are different. To get insights into pathophysiological pathways, we used the suppression subtractive hybridization (SSH) method to identify differentially expressed genes in RA. DNA sequencing identified 12 gene products including cytoskeletal gamma-actin and extracellular matrix components such as fibronectin, collagen III alpha(1), and superficial zone protein. Interferon gamma-inducible genes such as a novel thiol reductase, two genes of unknown function (HSIFNIN4, RING3), and annexin II were also found. Two genes encoded proteins involved in proliferation such as elongation factor 1 alpha and the granulin precursor. Furthermore, the protease cathepsin B and synovial phospholipase A2 group IIA were detected by SSH. To confirm the differential expression of the genes, we performed RT-PCR analyses of RA and OA synovial tissues. Compared to OA patients, 9 of the 12 genes were overexpressed in RA, suggesting that SSH is a powerful tool for the detection of differential gene expression in synovial tissues. Further characterization of the gene products may help to identify pathophysiological mechanisms in arthritic diseases., (Copyright 2000 Academic Press.)

Published
2000
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5. Analysis of the p53 tumor suppressor gene in rheumatoid arthritis synovial fibroblasts.

Author

Kullmann F, Judex M, Neudecker I, Lechner S, Jüsten HP, Green DR, Wessinghage D, Firestein GS, Gay S, Schölmerich J, and Müller-Ladner U

Subjects
Cells, Cultured, Cloning, Organism, DNA Mutational Analysis methods, Deoxyuracil Nucleotides metabolism, Exons, Humans, Immunohistochemistry, Polymorphism, Single-Stranded Conformational, Ribonucleases, Sequence Analysis, DNA, Arthritis, Rheumatoid genetics, Fibroblasts metabolism, Genes, p53 genetics, Synovial Membrane cytology
Abstract

Objective: To determine whether mutations in the tumor suppressor gene p53 may contribute to the transformed-appearing phenotype of rheumatoid arthritis (RA) synovial fibroblasts., Methods: We performed p53 gene mutation analysis using different molecular approaches. Synovial fibroblasts of 10 patients with RA were cultured and RNA and DNA were harvested after 3-5 passages in cell culture. Sequence analysis of all exons of the p53 gene was performed using 3 different techniques: 1) single-strand conformational polymorphism, 2) nonisotopic RNase cleavage assay, and 3) base excision sequence scanning T-scan, followed by sequence analysis of specific gene segments., Results: Although p53 antigen could be detected by immunocytochemistry in numerous cultured fibroblasts, gel electrophoresis analysis of products obtained using all 3 methods and subsequent sequence analysis showed no specific mutation pattern in the genome of the synovial fibroblasts from patients in Germany, including the known "hot spots" within the p53 genome. However, p53 mutations were identified in different clones of 3 additional RA synovial fibroblast populations from the United States. Sequence analysis of the p53 promoter did not reveal mutational base changes., Conclusion: The findings of the study support the hypothesis that the majority of the mutations of the p53 gene observed in RA synovium are not derived from the genome of RA synovial fibroblasts, and that the variability of the mutation pattern reflects, in part, the heterogeneity of the disease.

Published
1999
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6. In vitro superfusion method to study nerve-immune cell interactions in human synovial membrane in long-standing rheumatoid arthritis or osteoarthritis.

Author

Miller LE, Wessinghage D, Müller-Ladner U, Schölmerich J, Falk W, Kerner T, and Straub RH

Subjects
Aged, Electric Stimulation, Humans, Immune System pathology, In Vitro Techniques, Interleukin-6 metabolism, Middle Aged, Nervous System pathology, Norepinephrine metabolism, Arthritis, Rheumatoid physiopathology, Immune System physiopathology, Nervous System physiopathology, Osteoarthritis physiopathology, Perfusion methods, Synovial Membrane immunology, Synovial Membrane innervation
Abstract

Reports on patients with hemiparalysis indicate the importance of the nervous system for the pathophysiology of rheumatoid arthritis (RA) or osteoarthritis (OA). Norepinephrine (NE) and opioids seem to be more antiinflammatory neurotransmitters whereas substance P is proinflammatory. The study aimed to investigate the direct noradrenergic nerve-immune cell interaction in human synovial membrane. We used a recently developed superfusion technique with electrical stimulation of synovial membrane to elicit local NE from synovial membrane slices. The readout parameter of synovial immune cells was interleukin-6 (IL-6). IL-6 was spontaneously secreted from RA and OA synovial membranes. Electrical field stimulation intensively reduced IL-6 secretion. In patients with OA or RA, this electrically induced reduction of IL-6 secretion was not significantly changed by alpha- or beta-adrenergic antagonists. The study demonstrates that local endogenous NE seem to play a minor role, which may be due to a depletion of NE or loss of noradrenergic fibers during chronic RA and OA.

Published
1999
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7. Kinesin-like protein CENP-E is upregulated in rheumatoid synovial fibroblasts.

Author

Kullmann F, Judex M, Ballhorn W, Jüsten HP, Wessinghage D, Welsh J, Yen TJ, Lang B, Hittle JC, McClelland M, Gay S, Schölmerich J, and Müller-Ladner U

Subjects
Adult, Aged, Arthritis, Rheumatoid metabolism, Cells, Cultured, Chromosomal Proteins, Non-Histone biosynthesis, Cloning, Molecular, Culture Media, Serum-Free pharmacology, Female, Gene Expression Regulation physiology, Humans, Male, Middle Aged, Molecular Sequence Data, Osteoarthritis genetics, Osteoarthritis metabolism, Polymerase Chain Reaction, Prednisolone pharmacology, RNA, Messenger metabolism, Arthritis, Rheumatoid genetics, Chromosomal Proteins, Non-Histone genetics, Fibroblasts metabolism, Synovial Membrane metabolism, Up-Regulation genetics
Abstract

Unlabelled: Articular destruction by invading synovial fibroblasts is a typical feature in rheumatoid arthritis (RA),. Recent data support the hypothesis that key players in this scenario are transformed-appearing synovial fibroblasts at the site of invasion into articular cartilage and bone. They maintain their aggressive phenotype toward cartilage, even when first cultured and thereafter coimplanted together with normal human cartilage into severe combined immunodeficient mice for and extended period of time. However, little is known about the upregulation of genes that leads to this aggressive fibroblast phenotype. To inhibit this progressive growth without interfering with pathways of physiological matrix remodelling, identification of pathways that operate specifically in RA synovial fibroblasts is required. In order to achieve this goal, identification of genes showing upregulation restricted to RA synovial fibroblasts is essential., Aims: To identify specifically expressed genes using RNA arbitrarily primed (RAP)-polymerase chain reaction (PCR) for differential display in patients with RA., Methods: RNA was extracted from cultured synovial fibroblasts from 10 patients with RA, four patients with osteoarthritis (OA), and one patient with psoriatic arthritis. RAP-PCR was performed using different arbitrary primers for first-strand and second-strand synthesis. First-strand and second-strand synthesis were performed using arbitrary primers: US6 (5'-GTGGTGACAG-3') for first strand, and Nuclear 1+ (5'ACGAAGAAGAG-3'), OPN28 (5'GCACCAGGGGG-3'), Kinase A2+(5'-GGTGCCTTTGG-3') and OPN24 (5'AGGGGCACCA-3') for second strand synthesis. PCR reactions were loaded onto 8 mol/l urea/6% polyacrylamide-sequencing gels and electrophoressed. Gel slices carrying the target fragment were then excised with a razor blade, eluated and reamplified. After verifying their correct size and purity on 4% agarose gels, the reamplified products derived from the single-strand confirmation polymorphism gel were cloned, and five clones per transcript were sequenced. Thereafter, a genbank analysis was performed. Quantitative reverse transcription PCRj of the segments was performed using the PCR MIMIC technique. In-situ expression of centromere kinesin-like protein-E (CENP-E) messenger (m)RNA in RA synovium was assessed using digoxigenin-labelled riboprobes, and CENP-E protein expression in fibroblasts and synovium was performed by immunogold-silver immunohistochemistry and cytochemistry. Functional analysis of CENP-E was done using different approaches (eg glucocorticoid stimulation, serum starvation and growth rate analysis of synovial fibroblasts that expressed CENP-E)., Results: In RA, amplification of a distinct PCR product suitable for sequencing could be observed. The indicated complementary DNA fragment of 434 base pairs from RA mRNA corresponded to nucleotides 6615-7048 in the human centromere kinesin-like protein CENP-E mRNA (GenBank accession No. emb/Z15005). The isolated sequence shared greater than 99% nucleic acid (P=2.9e(-169)) identify with the human centromere kinesin-like protein CENP-E. Two base changes at positions 6624 (A to C) and 6739 (A to G) did not result in alteration in the amino acid sequence, and therefore 100% amino acid identity could be confirmed. The amplification of 10 clones of the cloned RAP product revealed the presence of CENP-E mRNA in every fibroblast culture examined, showing from 50% (271.000 +/- 54.000 phosphor imager arbitrary units) up to fivefold (961.000 +/- 145.000 phosphor image arbitrary units) upregulation when compared with OA fibroblasts. Neither therapy with disease-modifying antirheumatic drugs such as methotrexate, gold, resochine or cyclosporine A, nor therapy with oral steroids influenced CENP-E expression in the RA fibroblasts. Of the eight RA fibroblast populations from RA patients who were receiving disease-modifying antirheumatic drugs, five showed CENP-E upregulation; and of the eight fibroblast populations from RA patients receiving steroids, four showed CENP-E upregulation. Numerous synovial cells of the patients with RA showed a positive in situ signal for the isolated CENP-E gene segment confirming CENP-E mRNA production in rheumatoid synovium, whereas in OA synovial tissue CENP-E mRNA could not be detected. In addition, CENP-E expression was independent from medication. This was further confirmed by analysis of the effect of prednisolone on CENP-E expression, which revealed no alteration in CENP-E mRNA after exposure to different (physiological) concentrations of prednisolone. Serum starvation also could not suppress CENP-E mRNA completely., Discussion: Since its introduction in 1992, numerous variants of the differential display method and continuous improvements including RAP-PCR have proved to have both efficiency and reliability in examination of differentially regulated genes. The results of the present study reveal that RAP-PCR is a suitable method to identify differentially expressed genes in rheumatoid synovial fibroblasts. The mRNA, which has been found to be upregulated in rheumatoid synovial fibroblasts, codes for a kinesin-like motor protein named CENP-E, which was first characterized in 1991. It is a member of a family of centromere-associated proteins, of which six (CENP-A to CENP-F) are currently known. CENP-E itself is a kinetochore motor, which accumulates transiently at kinetochores in the G2 phase of the cell cycle before mitosis takes place, appears to modulate chromosome movement and spindle elongation,and is degraded at the end of mitosis. The presence or upregulation of CENP-E has never been associated with RA.The three-dimensional structure of CENP-E includes a coiled-coil domain. This has important functions and shows links to known pathways in RA pathophysiology. Coiled-coil domains can also be found in jun and fos oncogene products, which are frequently upregulated in RA synovial fibroblasts. They are also involved in DNA binding and transactivation processes resembling the situation in AP-1 (Jun/Fos)-dependent DNA-binding in rheumatoid synovium. Most interestingly, these coiled-coil motifs are crucial for the assembly of viral proteins, and the upregulation of CENP-E might reflect the influence of infectious agents in RA synovium. We also performed experiments showing that serum starvation decreased, but did not completely inhibit CENP-E mRNA expression. This shows that CENP-E is related to, but does not completely depend on proliferation of these cells. In addition, we determined the growth rate of CENP-E high and low expressors, showing that it was independent from the amount of CENP-E expression. supporting the statement that upregulation of CENP-E reflects an activated RA fibroblast phenotype. In summary, the results of the present study support the hypothesis that CENP-E, presumably independently from medication, may not only be upregulated, but may also be involved in RA pathophysiology.

Published
1999
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8. Deposition of amyloid of unknown origin in articular cartilage.

Author

Mohr W, Kuhn C, Linke RP, and Wessinghage D

Subjects
Aging, Amyloid analysis, Amyloid ultrastructure, Cartilage, Articular pathology, Humans, Immunohistochemistry, Metatarsal Bones chemistry, Metatarsal Bones ultrastructure, Amyloid metabolism, Cartilage, Articular metabolism, Hallux Valgus metabolism, Metatarsal Bones metabolism
Abstract

Articular cartilage, obtained from the large toe during hallux valgus operations in 37 patients, was investigated for the presence of amyloid by using the Congo red staining method. Amyloid deposits were demonstrated, particularly in the superficial layer of the cartilage, in 30 cases. This amyloid did not react immunohistochemically with any of the antibodies against the known five major amyloid types (AA, A lambda, A kappa, AF, AB). From these data it is concluded that hyaline cartilage in older individuals is prone to infiltration by an amyloid of a hitherto unidentified class. From the morphological observations there seems to be no correlation between amyloid deposits and the development of osteoarthrosis.

Published
1991
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9. Proliferation of pannus tissue cells in rheumatoid arthritis.

Author

Mohr W, Hummler N, Pelster B, and Wessinghage D

Subjects
Autoradiography, Bone Marrow pathology, Cartilage, Articular pathology, Cell Cycle, Humans, Thymidine, Arthritis, Rheumatoid pathology, Joints pathology
Abstract

Proliferation of pannus tissue cells has been investigated under in vitro conditions after labeling of joint tissues with 3H-thymidine. It was demonstrated that there is only a minimal proliferation of chondrocytes as well as of pannus tissue cells. Slight increased proliferation was observed in granulation tissue poor in lymphocytes and plasma cells, and perhaps in those areas of destroying pannus tissue that exhibited polymorphonuclear granulocytes (PMNs) at the pannus-cartilage junction. These results are in contrast to the idea that pannus tissue is a tumor-like lesion, for the present observations, even within the limits of autoradiographic investigations on a heterogeneous tissue, and indicate that pannus tissue has to be regarded as an inflammatory granulation tissue.

Published
1986
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10. Polymorphonuclear granulocytes in rheumatic tissue destruction. III. an electron microscopic study of PMNs at the pannus-cartilage junction in rheumatoid arthritis.

Author

Mohr W, Westerhellweg H, and Wessinghage D

Subjects
Female, Humans, Male, Metacarpophalangeal Joint ultrastructure, Metatarsophalangeal Joint ultrastructure, Microscopy, Electron, Middle Aged, Necrosis, Arthritis, Rheumatoid pathology, Cartilage, Articular ultrastructure, Neutrophils ultrastructure
Abstract

Metatarsophalangeal and metacarpophalangeal joints from 3 patients with rheumatoid arthritis were investigated electron microscopically with regard to the occurrence of polymorphonuclear granulocytes (PMNs) at the pannus-cartilage junction. In all 3 cases PMNs could be detected at the junction and within the cartilaginous matrix. PMN cytoplasmic processes surrounded collagenous islands in the cartilage. From the morphological findings it is deduced that PMNs are cells capable of destroying cartilage in inflammatory joint diseases, in particular in rheumatoid arthritis.

Published
1981
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11. Polymorphonuclear granulocytes in rheumatic tissue destruction. II. Demonstration of PMNs in rheumatoid nodules by electron microscopy.

Author

Mohr W, Köhler G, and Wessinghage D

Subjects
Collagen physiology, Humans, Microscopy, Electron, Necrosis, Neutrophils ultrastructure, Rheumatoid Nodule pathology
Abstract

Necrotic areas of rheumatoid nodules were investigated electron microscopically. PMNs in different stages of disintegration were present in all cases. Granular material, sometimes in a fiberlike orientation, and small fibrils without periodicity were detected between the collagenous fibers. It is assumed that granular material and fibrillar remnants represent degraded collagen. Often these degradation products were present in the neighborhood of disintegrating PMNs. From this morphological relationship it is concluded that enzymes of PMNs may in part be responsible for the fibrinoid necrosis in rheumatoid nodules.

Published
1981
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13. Granulocyte elastase at the site of cartilage erosion by rheumatoid synovial tissue.

Author

Menninger H, Putzier R, Mohr W, Wessinghage D, and Tillmann K

Subjects
Arthritis, Rheumatoid blood, Cytoplasmic Granules enzymology, Humans, Arthritis, Rheumatoid enzymology, Cartilage, Articular pathology, Neutrophils enzymology, Pancreatic Elastase metabolism
Abstract

Elastase, an enzyme in the azurophilic granules of polymorphonuclear cells (PMN), is like other granular PMN proteases characterized by its degradative activity at physiological pH towards native macromolecules as shown in a serum free medium. Joint tissue specimen obtained during elective surgery in cases of various rheumatic conditions were examined in order to elucidate the role of this enzyme during joint cartilage destruction. An indirect immunofluorescence microscopic technique utilizing a rabbit immunoglobulin G preparation raised against purified elastase was used for this purpose. Immunoreactive elastase was seen bound to cells which were recognized as PMN by their nuclear characteristics and staining in a histochemical reaction with naphtol AS-D chloroacetate. PMN were encountered more or less often in the pannus but clearly accumulated in a significant amount at the pannus-cartilage junction in one case of rheumatic monarthritis and three out of four cases with rheumatoid arthritis. This finding shows that PMN--contrary to other descriptions--belong to the morphologic characteristics of inflammatory rheumatic conditions and directly supports the hypothesis that PMN enzymes play an active role in rheumatoid cartilage destruction.

Published
1980

14. S-100 protein in normal, osteoarthrotic, and arthritic cartilage.

Author

Mohr W, Kuhn C, Pelster B, and Wessinghage D

Subjects
Adult, Histocytochemistry, Humans, Arthritis, Rheumatoid metabolism, Cartilage, Articular analysis, Osteoarthritis, Hip metabolism, S100 Proteins analysis
Abstract

The occurrence of the S-100 protein was studied in normal and pathological cartilage from patients with osteoarthrosis and rheumatoid arthritis. In normal cartilage all cells of the different zones exhibit immunoreactivity for this protein. An identical distribution is observed in cases of osteoarthrosis and rheumatoid arthritis. Cellular pannus tissue usually is devoid of the S-100 protein. However, if chondroid metaplasia occurs in this tissue the cells become positive for the S-100 protein. From these results it is concluded that a chondroid metaplasia not only leads to a matrix comparable to cartilage but also contains cells that gain further characteristics of original chondrocytes.

Published
1985
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15. The relationship between polymorphonuclear granulocytes and cartilage destruction in rheumatoid arthritis.

Author

Mohr W and Wessinghage D

Subjects
Arthritis, Rheumatoid blood, Arthritis, Rheumatoid complications, Cartilage Diseases blood, Cartilage Diseases etiology, Histocytochemistry, Humans, Neutrophils pathology, Arthritis, Rheumatoid pathology, Cartilage, Articular pathology, Granulocytes pathology, Leukocytes pathology
Abstract

The pannus-cartilage junction was investigated in cases of rheumatoid joint destruction. By a histochemical method for demonstrating the presence of neutrophil granulocytes, it became obvious that these cells in some cases were found in high numbers in the immediate vicinity of the cartilage in the process of being destroyed. It is concluded that these blood-carried cells may also participate in cartilage destruction in acute phases of chronic rheumatoid disease.

Published
1978

17. Polymorphonuclear granulocytes in rheumatic tissue destruction. VI. The occurrence of PMNs in menisci of patients with rheumatoid arthritis.

Author

Mohr W, Pelster B, and Wessinghage D

Subjects
Fibrin, Humans, Joint Diseases pathology, Microscopy, Electron, Staining and Labeling, Synovial Membrane pathology, Arthritis, Rheumatoid pathology, Menisci, Tibial pathology, Neutrophils pathology
Abstract

The meniscal surfaces from patients with and without inflammatory joint diseases were investigated for the presence of superficially located polymorphonuclear granulocytes (PMNs). In histochemically stained tissue sections as well as in electron microscopic investigations on previously paraffin-embedded menisci, PMNs were observed in cases with inflammatory rheumatoid joint diseases. The inflammatory cells were located in fibrin adhering to the meniscal surface and in the fibrous meniscal tissue just beneath the fibrin. From these observations it is concluded that PMNs in the inflammatory synovial fluid may gain access to the fibrous structures of the joint, thus participating in tissue destruction, as has been assumed from in vitro investigations by other authors.

Published
1984
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