BIOMAT Database Logo BIOMAT Database Logo

Differential distribution of annexins-I, -II, -IV, and -VI in synovium. 1995

N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Medical College of St. Bartholomew's Hospital, London, United Kingdom.

OBJECTIVE To examine the distribution of four annexins in non-inflamed rheumatoid arthritic and osteoarthritic synovial tissue. METHODS Frozen sections were stained with monoclonal antibodies (MAb) specific for annexins-I, -II, -IV, and -VI, and for cell lineage related markers including CD68 and CD14 (macrophages), prolyl hydroxylase (fibroblasts), and CD3 (T cells). RESULTS Each of the annexins was present in synovial tissues in significant amounts in the three groups studied. Annexin-I was predominantly found within the synovial lining layer and double labelling showed it to be present predominantly in cells of the macrophage lineage. In rheumatoid specimens there was increased staining within the lining layer, perivascularly and on macrophages within the tissue stroma. Annexin-II was present in a distribution similar to that of annexin-I, but with more prominent perivascular staining. Annexins-IV and -VI were seen chiefly in association with areas of lymphocyte infiltration in rheumatoid tissue, whereas annexins-I and -II were absent from these areas. Endothelial cells stained weakly positive for annexins-I and -II, and more strongly for -IV and -VI. CONCLUSIONS This study demonstrates that annexins (particularly annexin-I, a putative mediator of the anti-inflammatory activities of glucocorticoids) are abundant in rheumatoid and non-rheumatoid synovial tissue, annexins-IV and -VI having a distribution distinct from that of -I and -II.

UI MeSH Term Description Entries
D007124 Immunoenzyme Techniques Immunologic techniques based on the use of: (1) enzyme-antibody conjugates; (2) enzyme-antigen conjugates; (3) antienzyme antibody followed by its homologous enzyme; or (4) enzyme-antienzyme complexes. These are used histologically for visualizing or labeling tissue specimens. Antibody Enzyme Technique, Unlabeled,Enzyme Immunoassay,Enzyme-Labeled Antibody Technique,Immunoassay, Enzyme,Immunoperoxidase Techniques,Peroxidase-Antiperoxidase Complex Technique,Peroxidase-Labeled Antibody Technique,Antibody Enzyme Technic, Unlabeled,Enzyme-Labeled Antibody Technic,Immunoenzyme Technics,Immunoperoxidase Technics,Peroxidase-Antiperoxidase Complex Technic,Peroxidase-Labeled Antibody Technic,Antibody Technic, Enzyme-Labeled,Antibody Technic, Peroxidase-Labeled,Antibody Technics, Enzyme-Labeled,Antibody Technics, Peroxidase-Labeled,Antibody Technique, Enzyme-Labeled,Antibody Technique, Peroxidase-Labeled,Antibody Techniques, Enzyme-Labeled,Antibody Techniques, Peroxidase-Labeled,Enzyme Immunoassays,Enzyme Labeled Antibody Technic,Enzyme Labeled Antibody Technique,Enzyme-Labeled Antibody Technics,Enzyme-Labeled Antibody Techniques,Immunoassays, Enzyme,Immunoenzyme Technic,Immunoenzyme Technique,Immunoperoxidase Technic,Immunoperoxidase Technique,Peroxidase Antiperoxidase Complex Technic,Peroxidase Antiperoxidase Complex Technique,Peroxidase Labeled Antibody Technic,Peroxidase Labeled Antibody Technique,Peroxidase-Antiperoxidase Complex Technics,Peroxidase-Antiperoxidase Complex Techniques,Peroxidase-Labeled Antibody Technics,Peroxidase-Labeled Antibody Techniques,Technic, Enzyme-Labeled Antibody,Technic, Immunoenzyme,Technic, Immunoperoxidase,Technic, Peroxidase-Antiperoxidase Complex,Technic, Peroxidase-Labeled Antibody,Technics, Enzyme-Labeled Antibody,Technics, Immunoenzyme,Technics, Immunoperoxidase,Technics, Peroxidase-Antiperoxidase Complex,Technics, Peroxidase-Labeled Antibody,Technique, Enzyme-Labeled Antibody,Technique, Immunoenzyme,Technique, Immunoperoxidase,Technique, Peroxidase-Antiperoxidase Complex,Technique, Peroxidase-Labeled Antibody,Techniques, Enzyme-Labeled Antibody,Techniques, Immunoenzyme,Techniques, Immunoperoxidase,Techniques, Peroxidase-Antiperoxidase Complex,Techniques, Peroxidase-Labeled Antibody
D010003 Osteoarthritis A progressive, degenerative joint disease, the most common form of arthritis, especially in older persons. The disease is thought to result not from the aging process but from biochemical changes and biomechanical stresses affecting articular cartilage. In the foreign literature it is often called osteoarthrosis deformans. Arthritis, Degenerative,Osteoarthrosis,Osteoarthrosis Deformans,Arthroses,Arthrosis,Arthritides, Degenerative,Degenerative Arthritides,Degenerative Arthritis,Osteoarthritides,Osteoarthroses
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D001172 Arthritis, Rheumatoid A chronic systemic disease, primarily of the joints, marked by inflammatory changes in the synovial membranes and articular structures, widespread fibrinoid degeneration of the collagen fibers in mesenchymal tissues, and by atrophy and rarefaction of bony structures. Etiology is unknown, but autoimmune mechanisms have been implicated. Rheumatoid Arthritis
D013583 Synovial Membrane The inner membrane of a joint capsule surrounding a freely movable joint. It is loosely attached to the external fibrous capsule and secretes SYNOVIAL FLUID. Synovium,Membrana Synovialis Capsulae Articularis,Membrane, Synovial,Membranes, Synovial,Synovial Membranes
D017302 Annexins Family of calcium- and phospholipid-binding proteins which are structurally related and exhibit immunological cross-reactivity. Each member contains four homologous 70-kDa repeats. The annexins are differentially distributed in vertebrate tissues (and lower eukaryotes) and appear to be involved in MEMBRANE FUSION and SIGNAL TRANSDUCTION. Annexin,Annexin A11,Annexin A8,Annexin B10,Annexin B9,Annexin IX,Annexin VIII,Annexin X,Annexin XI,Calcimedin,Calcimedins,Calelectrins,Calpactins,Lipocortins,Calelectrin,Calpactin,Chromobindins,Lipocortin
D017305 Annexin A1 Protein of the annexin family exhibiting lipid interaction and steroid-inducibility. Annexin I,Calpactin II,Lipocortin I,Chromobindin 9,Lipocortin 1,Renocortin
D017306 Annexin A2 A member of the annexin family that is a substrate for a tyrosine kinase, ONCOGENE PROTEIN PP60(V-SRC). Annexin A2 occurs as a 36-KDa monomer and in a 90-KDa complex containing two subunits of annexin A2 and two subunits of S100 FAMILY PROTEIN P11. The monomeric form of annexin A2 was formerly referred to as calpactin I heavy chain. Annexin II,Calpactin I,Lipocortin II,Annexin A2, P90 Complex,Annexin II, P36,Annexin II, P90 Complex,Capactin I Heavy Chain,P36 Annexin II
D017314 Annexin A4 Protein of the annexin family originally isolated from the electric organ of the electric ray Torpedo marmorata. It has been found in a wide range of mammalian tissue where it is localized to the apical membrane of polarized EPITHELIAL CELLS. Annexin IV,Calelectrin 32-kDa,Lipocortin IV,Placental Anticoagulant Protein II,32-kDa, Calelectrin,Calelectrin 32 kDa
D017317 Annexin A6 Protein of the annexin family with a probable role in exocytotic and endocytotic membrane events. Annexin VI,Calcimedin 67-kDa,Calelectrin 67-kDa,Calphobindin II,Lipocortin VI,Calcium and Phospholipid-Binding Protein p68,Calcimedin 67 kDa,Calcium and Phospholipid Binding Protein p68,Calelectrin 67 kDa

Related Publications

N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Distribution of annexins I, II, and IV in bovine mammary gland.
November 1995, Journal of dairy science,
N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Differential expression of annexins I, II and IV in human tissues: an immunohistochemical study.
August 1998, Histochemistry and cell biology,
N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Cellular and subcellular localizations of annexins I, IV, and VI in lung epithelia.
May 1996, The American journal of physiology,
N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Differential expression of annexins I and II in bovine bronchial epithelial cells.
March 1995, American journal of respiratory cell and molecular biology,
N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Differential expression of annexins I-VI in the rat dorsal root ganglia and spinal cord.
May 1996, The Journal of comparative neurology,
N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Annexins II, IV, V and VI relocate in response to rises in intracellular calcium in human foreskin fibroblasts.
January 1996, Journal of cell science,
N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Annexins I-VI in secretory ameloblasts and odontoblasts of rat incisor.
December 1990, Journal de biologie buccale,
N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Differential expression of annexins I and II in normal and malignant human mammary epithelial cells.
March 1993, Differentiation; research in biological diversity,
N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Localization of annexins I, II, IV and VII in whole prostate sections from radical prostatectomy patients.
July 2005, Histology and histopathology,
N J Goulding, and J Dixey, and E F Morand, and R A Dodds, and L S Wilkinson, and A A Pitsillides, and J C Edwards
Polarized localizations of annexins I, II, VI and XIII in epithelial cells of intestinal, hepatic and pancreatic tissues.
October 1998, Journal of cell science,
Copied contents to your clipboard!