scholarly journals Domain and basement membrane specificity of a monoclonal antibody against chicken type IV collagen.

1982 ◽  
Vol 95 (2) ◽  
pp. 641-647 ◽  
Author(s):  
J M Fitch ◽  
E Gibney ◽  
R D Sanderson ◽  
R Mayne ◽  
T F Linsenmayer
Keyword(s):  
Monoclonal Antibody ◽  
Basement Membrane ◽  
Type Iv Collagen ◽  
Helical Structure ◽  
Immunohistochemical Localization ◽  
Basement Membranes ◽  
Optical Rotatory Dispersion ◽  
Collagen Molecule ◽  
Type Iv ◽  
Triple Helical Domain

A monoclonal antibody, IV-IA8, generated against chicken type IV collagen has been characterized and shown to bind specifically to a conformational-dependent site within a major, triple helical domain of the type IV molecule. Immunohistochemical localization of the antigenic determinant with IV-IA8 revealed that the basement membranes of a variety of chick tissues were stained but that the basement membrane of the corneal epithelium showed little, if any, staining. Thus, basement membranes may differ in their content of type IV collagen, or in the way in which it is assembled. The specificity of the antibody was determined by inhibition ELISA using purified collagen types I-V and three purified molecular domains of chick type IV collagen ([F1]2F2, F3, and 7S) as inhibitors. Only unfractionated type IV collagen and the (F1)2F2 domain bound the antibody. Antibody binding was destroyed by thermal denaturation of the collagen, the loss occurring at a temperature similar to that at which previous optical rotatory dispersion studies had shown melting of the triple helical structure of (F1)2F2. Such domain-specific monoclonal antibodies should prove to be useful probes in studies involving immunological dissection of the type IV collagen molecule, its assembly within basement membranes, and changes in its distribution during normal development and in disease.

scholarly journals Monoclonal antibodies against chicken type IV and V collagens: electron microscopic mapping of the epitopes after rotary shadowing.

1984 ◽  
Vol 98 (5) ◽  
pp. 1637-1644 ◽  
Author(s):  
R Mayne ◽  
H Wiedemann ◽  
M H Irwin ◽  
R D Sanderson ◽  
J M Fitch ◽  
...  
Keyword(s):  
Monoclonal Antibody ◽  
Monoclonal Antibodies ◽  
Cleavage Site ◽  
Type Iv Collagen ◽  
Collagen Molecule ◽  
Electron Microscopic ◽  
Type V Collagen ◽  
Type Iv ◽  
Type V ◽  
Rotary Shadowing

The location of the epitopes for monoclonal antibodies against chicken type IV and type V collagens were directly determined in the electron microscope after rotary shadowing of antibody/collagen mixtures. Three monoclonal antibodies against type IV collagen were examined, each one of which was previously demonstrated to be specific for only one of the three pepsin-resistant fragments of the molecule. The three native fragments were designated (F1)2F2, F3, and 7S, and the antibodies that specifically recognize each fragment were called, respectively, IA8 , IIB12 , and ID2 . By electron microscopy, monoclonal antibody IA8 recognized an epitope located in the center of fragment (F1)2F2 and in tetramers of type IV collagen at a distance of 288 nm from the 7S domain, the region of overlap of four type IV molecules. Monoclonal antibody IIB12 , in contrast, recognized an epitope located only 73 nm from the 7S domain. This result therefore provides direct visual evidence that the F3 fragment is located closest to the 7S domain and the order of the fragments must be 7S-F3-(F1)2F2. The epitope for antibody ID2 was located in the overlap region of the 7S domain, and often several antibody molecules were observed to binding to a single 7S domain. The high frequency with which antibody molecules were observed to bind to fragments of type IV collagen suggests that there is a single population of type IV molecules of chain organization [alpha 1(IV)]2 alpha 2(IV), and that four identical molecules must form a tetramer that is joined in an antiparallel manner at the 7S domain. The monoclonal antibodies against type V collagen, called AB12 and DH2 , were both found to recognize epitopes close to one another, the epitopes being located 45-48 nm from one end of the type V collagen molecule. The significance of this result still remains uncertain, but suggests that this site is probably highly immunoreactive. It may also be related to the specific cleavage site of type V collagen by selected metalloproteinases and by alpha-thrombin. This cleavage site is also known to be located close to one end of the type V molecule.

scholarly journals Developmental acquisition of basement membrane heterogeneity: type IV collagen in the avian lens capsule.

1983 ◽  
Vol 97 (3) ◽  
pp. 940-943 ◽  
Author(s):  
J M Fitch ◽  
R Mayne ◽  
T F Linsenmayer
Keyword(s):  
Basement Membrane ◽  
Type Iv Collagen ◽  
Lens Capsule ◽  
Basement Membranes ◽  
Developmentally Regulated ◽  
Membrane Heterogeneity ◽  
Domain Specific ◽  
Type Iv ◽  
Anterior Lens Capsule ◽  
Immunohistochemical Analyses

To investigate potential heterogeneity and developmental changes in basement membranes during embryogenesis, we performed immunohistochemical analyses on lens capsules in chicken embryos of different ages using domain-specific monoclonal antibodies against type IV collagen. We found that the capsule of the newly formed lens stained uniformly with antibodies against this component of basement membranes, but with increasing age and differentiation of the lens cells the anterior lens capsule remained brightly fluorescent while staining of the posterior capsule became relatively much less intense. This antero-posterior gradient of anti-type IV collagen antibody reactivity demonstrated that developmentally-regulated changes can occur within a single, continuous basement membrane.

Platelet Interaction With Basement Membrane Proteins

1981 ◽  
Author(s):  
L Balleisen ◽  
J Rauterberg ◽  
J Risteli ◽  
H Rohde ◽  
R Timpl
Keyword(s):  
Membrane Proteins ◽  
Basement Membrane ◽  
Type Iv Collagen ◽  
Fibrin Clot ◽  
Basement Membranes ◽  
Plastic Substrate ◽  
Acid Extraction ◽  
Clot Retraction ◽  
Type Iv ◽  
Basement Membrane Proteins

Basement membranes consist mainly of two components: non-fibrillar type IV collagen and the non-collagenous glycoprotein laminin (m.w.900.000) which is capable to interact with cell surfaces. The collagenous protein was studied in form of two major fragments comprising together the total mass of the molecule. 7-S collagen which resembles the crosslinking domain of type IV collagen was isolated after collagenase digestion and consisted of four triple helices aligned in a parallel fasion (m.w.360.000). The major triple helical domain of type IV collagen (m.w.450.000) could be obtained by a acid extraction but had lost most of the 7-S domain.Interaction with platelets was examined in aggregation, cell spreading and fibrin clot retraction assays including the determination of malondialdehyde formation. 7-S collagen was the most active component in all three assays. Aggregation was induced by as little as 25 µg/ml and was confirmed by electronmicroscopy. When compared to interstitial collagens, however, 10-20 fold higher amounts of 7-S collagen are required to produce the same effects. Acid extracted type IV collagen possessed virtually no activity. Laminin did not aggregate platelets but promoted strongly their attachment and spreading on a plastic substrate. Thus both basement membrane proteins apparently interact with platelets in different ways via distinct domains of the molecules.

scholarly journals Formation of basement membranes in the embryonic kidney: an immunohistological study

1981 ◽  
Vol 91 (1) ◽  
pp. 1-10 ◽  
Author(s):  
P Ekblom
Keyword(s):  
Extracellular Matrix ◽  
Basement Membrane ◽  
Type Iv Collagen ◽  
Basement Membranes ◽  
Glomerular Endothelial Cell ◽  
Type Iv ◽  
Endothelial Cell Differentiation ◽  
Inductive Interaction ◽  
Immunohistological Study

Specific antibodies to laminin, type IV collagen, basement-membrane proteoglycan, and fibronectin have been used in immunofluorescence microscopy to study the development of basement membranes of the embryonic kidney. Kidney tubules are known to form from the nephrogenic mesenchyme as a result of an inductive tissue interaction. This involves a change in the composition of the extracellular matrix. The undifferentiated mesenchyme expresses in the composition of the extracellular matrix. The undifferentiated mesenchyme expresses fibronectin but no detectable laminin, type IV collagen, or basement-membrane proteoglycan. During the inductive interaction, basement-membrane specific components (laminin, type IV collagen, basement membrane proteoglycan) become detectable in the induced area, whereas fibronectin is lost. While the differentiation to epithelial cells of the kidney requires an inductive interaction, the development of the vasculature seems to involve an ingrowth of cells which throughout development deposits basement-membrane specific components, as well as fibronectin. These cells form the endothelium and possibly also the mesangium of the glomerulus, and contribute to the formation of the glomerular basement membrane. An analysis of differentiation of the kidney mesenchyme in vitro in the absence of circulation supports these conclusions. Because a continuity with vasculature is required for glomerular endothelial cell differentiation, it is possible that these cells are derived from outside vasculature.

scholarly journals Thermal stability of the helical structure of type IV collagen within basement membranes in situ: determination with a conformation-dependent monoclonal antibody.

1984 ◽  
Vol 99 (4) ◽  
pp. 1405-1409 ◽  
Author(s):  
T F Linsenmayer ◽  
E Gibney ◽  
J M Fitch ◽  
J Gross ◽  
R Mayne
Keyword(s):  
Thermal Stability ◽  
Type Iv Collagen ◽  
Helical Structure ◽  
Basement Membranes ◽  
Enzyme Linked Immunosorbent Assay ◽  
Tissue Sections ◽  
Type Iv ◽  
The Stability ◽  
Thermal Stability Of

To examine the thermal stability of the helical structure of type IV collagen within basement membranes in situ, we have employed indirect immunofluorescence histochemistry performed at progressively higher temperatures using a conformation-dependent antibody, IV-IA8. We previously observed by competition enzyme-linked immunosorbent assay that, in neutral solution, the helical epitope to which this antibody binds undergoes thermal denaturation over the range of 37-40 degrees C. In the present study, we have reacted unfixed cryostat tissue sections with this antibody at successively higher temperatures. We have operationally defined denaturation as the point at which type IV-specific fluorescence is no longer detectable. Under these conditions, the in situ denaturation temperature of this epitope in most basement membranes is 50-55 degrees C. In capillaries and some other small blood vessels the fluorescent signal is still clearly detectable at 60 degrees C, the highest temperature at which we can confidently use this technique. We conclude that the stability of the helical structure of type IV collagen within a basement membrane is considerably greater than it is in solution, and that conformation-dependent monoclonal antibodies can be useful probes for investigations of molecular structure in situ.

scholarly journals Immunohistochemical evidence for the intracellular formation of basement membrane collagen (type IV) in developing tissues.

1980 ◽  
Vol 28 (12) ◽  
pp. 1267-1274 ◽  
Author(s):  
G W Laurie ◽  
C P Leblond ◽  
I Cournil ◽  
G R Martin
Keyword(s):  
Basement Membrane ◽  
Type Iv Collagen ◽  
Early Stage ◽  
Basement Membranes ◽  
Incisor Tooth ◽  
Rat Incisor ◽  
Type Iv ◽  
Stage Of Development ◽  
Basement Membrane Collagen ◽  
Membrane Collagen

Antibodies to type IV collagen obtained from the basement membrane of the mouse EHS tumor were incubated with sections of rat incisor teeth and other tissues for immunostaining by direct or indirect methods. In all locations, the immunostaining was pronounced in basement membranes in which it was restricted to the "basal lamina" layer, from which "bridges" often extended to nearby basal laminae. Usually no immunostaining was detectable in the cells associated with the basement membranes. However, examination of the capillaries at the posterior extremity of the rat incisor tooth, where tissues are at an early stage of development, showed immunostaining not only of the basement membrane, but also of the endothelial cells. The staining was localized in rough endoplasmic reticulum cisternae, some Golgi saccules and their peripheral distensions, and structures believed to be secretory granules. These findings suggest that the synthesis of type IV collagen proceeds along the classical secretory pathways through rough endoplasmic reticulum and Golgi apparatus. At the same time, immunostaining was usually lacking in the cells of the capillaries that had migrated about 2 mm away from the posterior end of the incisor tooth and also in the cells of most other tissues examined, even though the associated basal laminae were reactive. It is, therefore, presumed that the production of type IV collagen may be high in cells at an early stage of development and that any later production and turnover of basement membrane collagen can only be minimal.

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