Procollagen intermediates during tendon fibrillogenesis

The purpose of this study was to correlate ultrastructural features of tendon collagen fibrils at various stages of development with the presence of procollagen, pN-collagen, pC-collagen, and the free amino propeptides and carboxyl propeptide of type I procollagen. Tendons from 10-, 14-, and 18-day chicken embryos reveal small, well-defined intercellular compartments containing collagen fibrils with diameters showing a unimodal distribution. At 21 days (hatching) and 9 days (post hatching) and at 5 weeks (post hatching), the compartments are larger, less well-defined, and there is multimodal distribution of tendon fibril diameters. Procollagen and the intermediates pN-collagen and pC-collagen are present in tendons up to 18 days. Thereafter there is a marked reduction in procollagen, whereas the intermediates persist throughout all stages of development. Similarly, free amino propeptides and carboxyl propeptides of type I procollagen were found at all stages. The amino propeptide of type III procollagen was restricted to the peritendineum until 7 weeks post hatching. At that time, a network of fibrils containing the amino propeptide of type III procollagen was seen delineating well-circumscribed compartments of collagen fibrils throughout the entire tendon. This study supports the notion that pN- and pC-collagen have an extracellular role and participate in collagen fibrillogenesis.     

Extracellular protein fibrils in Chrysochromulina breviturrita (Prymnesiophyceae) and their serological relationship to fungal fimbriae

An extensive network of extracellular fibrils was revealed by negative staining in the greenish gold algal flagellate, Chrysochromulina breviturrita. These fibrils were of uniform diameter (4–5 nm), sometimes exceeding 5 m in length. In addition there were short, narrower fibrils (2–3 nm) on the surface of the flagella. Six protein bands were isolated from spent culture medium by SDS-PAGE and one of 80,000 Da was found to polymerize after dialysis into 4–5 nm fibrils identical to those found on the cell surface. Two other proteins of 58,000 Da and 65,000 Da also formed 4–5 nm fibrils but these were either rare or of a shorter length and different appearance. An antiserum directed against the surface 7 nm fibrils (fimbriae) of fungi agglutinated cells of C. breviturrita and some other Prymnesiophyceae and Chrysophyceae, but did not agglutinate cells of algal species in other groups. Immunofluorescence and protein A gold labelling confirmed that antigens related to fungal fimbriae were present on the surface of cells of C. breviturrita. Only the 80,000 and 58,000 Da proteins labelled heavily following protein A gold labelling. Some individual 4–5 nm fibrils labelled with gold were observed in the material prepared from the 80,000 Da band. These results therefore establish that C. breviturrita produces a surface network of fibrils that are serologically related to the fimbriae of fungi, and suggest a previously unrecognized relationship between members of the Prymnesiophyceae, Chrysophyceae and fungal groups.     

Collagen remodeling during decidualization in the mouse

Summary An ultrastructural study of the features and distribution of collagen fibrils was performed in the endometrium of virgin and pregnant (2nd to 11th day) mice. Collagen-containing structures were observed in the cytoplasm of fibroblasts on the 2nd day of pregnancy. Treatment of tissues with lanthanum nitrate established that these structures were intracytoplasmic. Their association with lysosome-like bodies suggested the occurrence of intracellular digestion of collagen, probably connected with remodeling of the endometrial stroma prior to decidualization. On the 4th day of pregnancy, very few collagen fibrils were present in the intercellular space. From the 6th day of pregnancy onwards, thick collagen fibrils were observed between decidual cells. The diameter of these fibrils measured up to 300 nm whereas the fibrils present in the endometrium of virgin mice measured 40–68 nm.     

Type III collagen can be present on banded collagen fibrils regardless of fibril diameter

Monoclonal antibodies that recognize an epitope within the triple helix of type III collagen have been used to examine the distribution of that collagen type in human skin, cornea, amnion, aorta, and tendon. Ultrastructural examination of those tissues indicates antibody binding to collagen fibrils in skin, amnion, aorta, and tendon regardless of the diameter of the fibril. The antibody distribution is unchanged with donor age, site of biopsy, or region of tissue examined. In contrast, antibody applied to adult human cornea localizes to isolated fibrils, which appear randomly throughout the matrix. These studies indicate that type III collagen remains associated with collagen fibrils after removal of the amino and carboxyl propeptides, and suggests that fibrils of skin, tendon, and amnion (and presumably many other tissues that contain both types I and III collagens) are copolymers of at least types I and III collagens.     

Fibronectin in basement membrane of hertwig's epithelial sheath

Summary The distribution of fibronectin throughout the basement membrane of Hertwig's epithelial sheath was studied using specific antibodies with the immunoperoxidase technique in both light and electron microscopy.—Our results demonstrate that, after collagenase digestion in situ, the basement membrane was strongly labelled by antifibronectin antibodies on the lamina lucida, the lamina densa and the lamina (pars) fibroreticularis which contained aperiodic fibrils of 5–10 nm in diameter.     

Collagen fibrillogenesis in a three-dimensional fibroblast cell culture system

The purpose of this study was to follow collagen fibril formation in a newly developed three dimensional cell culture system. Human neonatal foreskin fibroblasts were grown on a nylon mesh in Dulbecco's Modified Eagles Medium (DMEM) supplemented with 10% fetal calf serum and antibiotics. Fibrillogenesis was initiated by the addition of 50 micrograms/ml ascorbate to confluent cultures. Sample meshes were processed for electron microscopy or immuno-electron microscopy. Fibrils 20–30 nm in diameter, with 67 nm periodicity, were first detected five days after the addition of ascorbate. As cultures progressed, cells organized into parallel layers between which collagen fibers continued to form and increase in diameter. By day 50, fiber diameter ranged from 30 to 80 nm and large bundles were seen. No collagen fibril formation occurred in control cultures to which no ascorbate was added. However, large amounts of microfibrils were observed. Antibodies against the aminopropeptide of type I procollagen were found to bind to fibrils with diameters less than 34 nm while antibodies against the aminopropeptide of type III collagen bound primarily to fibers which ranged from 35–54 nm in diameter. We believe that this system, which morphologically resembles a normal dermis, will werve as an excellent model for the study of collagen fibrillogenesis.     

Electron microscopic observations on pulmonary connective tissue stained by Ruthenium Red

Summary Ultrastructural studies on human lung were performed with special attention to the interstitial acid mucopolysaccharides by Ruthenium Red staining and several enzyme digetion tests withStreptomyces hyaluronidase, chondroitinase ABC, chondroitinase AC, heparinase, trypsin and collagenase.Periodic lateral granules on the major cross bands of collagen fibrils and amorphous coats on them became visible by Ruthenium Red staining. The surface of elastic fibres, associated microfibrils, and some fine fibrils 10–20 nm in diameter were stained. Ruthenium Red also stained the surface of fibroblast and smooth muscle cells, basement membrane and filamentous long segments. In the interstructural space, granular substances 10–80 nm in diameter and fine filaments 3–4 nm thick, which formed a fine reticular network, were clearly observed. They were not visible on the usual thin section. The granular substances were located on the cross points of the fine filaments. They spread continuously and connected with each of the cells and extracellular structures in the pulmonary interstitium. The results of the enzyme digestion tests on the Ruthenium Red-positive material are discussed.     

Ultrastructure of the basement membrane and its precursor in developing rat submandibular gland as shown by alcian blue staining

Summary The ultrastructure of the epithelial basement membrane and membrane precursor was studied in rat submandibular rudiment and a model system of the reconstructed basement membrane, by transmission electron microscopy following alcian blue staining. Directly beneath the epithelial plasma membrane, a meshwork layer was found to consist of anastomosing thin fibers arranged as a three-dimensional meshwork (100–400 nm in thickness). Straight strands (5–10 nm in diameter) could sometimes be seen to pass through the meshwork. Adjacent to this layer, a coarse network composed of threads (20–40 nm in diameter) connected the meshwork layer with collagen fibers of the underlying connective tissue. The earliest precursors recognized in the reconstruction-model system were part of the fine-meshwork structure, and showed this structure to be a fundamental component of the basement membrane.     

Assembly and processing of procollagen type III in chick embryo blood vessels

The processing of [3H]proline-labeled procollagen III in excised chick embryo blood vessels was found to differ significantly from that of procollagen I in the same tissue. While first the amino propeptides and then the carboxyl propeptides were fairly rapidly cleaved from procollagen I, only the carboxyl propeptides were split off procollagen III, leaving pN-collagen III. This intermediate, which is only slowly converted to collagen III by loss of amino propeptides, was characterized by its sedimentation properties, isolation of the amino propeptide, and reaction with purified antibodies that are specific against bovine amino propeptide III. It is interchain disulfide-linked, both through the amino propeptide and the carboxyl ends of the collagen chains. The conversion of procollagen III to pN-collagen III either in blood vessels, or after isolation by a carboxyl procollagen peptidase obtained from chick tendon fibroblast cultures, is inhibited by 50 mM arginine. Underhydroxylated procollagen III was isolated from blood vessels treated with alpha, alpha'-dipyridyl. Its amino propeptides reacted with the above antibodies but were not linked to each other. In contrast, its carboxyl propeptides were interchain disulfide-bridged, supporting previous suggestions that the carboxyl propeptides play a role in the assembly of procollagen trimer.     

Functions of lumican and fibromodulin: lessons from knockout mice

Lumican and fibromodulin are collagen-binding leucine-rich proteoglycans widely distributed in interstitial connective tissues. The phenotypes of lumican-null (Lum ^–/–), Fibromodulin-null (Fmod ^–/–) and compound double-null (Lum ^–/– Fmod ^–/–) mice identify a broad range of tissues where these two proteoglycans have overlapping and unique roles in modulating the extracellular matrix and cellular behavior. The lumican-deficient mice have reduced corneal transparency and skin fragility. The Lum ^–/– Fmod ^–/– mice are smaller than their wildtype littermates, display gait abnormality, joint laxity and age-dependent osteoarthritis. Misaligned knee patella, severe knee dysmorphogenesis and extreme tendon weakness are the likely cause for joint-laxity. Fibromodulin deficiency alone leads to significant reduction in tendon stiffness in the Lum ^+/+ Fmod ^–/– mice, with further loss in stiffness in a lumican gene dose-dependent way. At the level of ultrastructure, the Lum ^–/– cornea, skin and tendon show irregular collagen fibril contours and increased fibril diameter. The Fmod ^–/– tendon contains irregular contoured collagen fibrils, with increased frequency of small diameter fibrils. The tendons of Lum ^–/– Fmod ^–/– have an abnormally high frequency of small and large diameter fibrils indicating a de-regulation of collagen fibril formation and maturation. In tissues like the tendon, where both proteoglycans are present, fibromodulin may be required early in collagen fibrillogenesis to stabilize small-diameter fibril-intermediates and lumican may be needed at a later stage, primarily to limit lateral growth of fibrils Published in 2003.     

Structural model of the amino propeptide of collagen XI alpha1 chain with similarity to the LNS domains

Fibrillar collagens are the principal structural molecules of connective tissues. The assembly of collagen fibrils is regulated by quantitatively minor fibrillar collagens, types V and XI. A unique amino-terminal propeptide domain of these collagens has been attributed this regulatory role. The structure of the amino terminal propeptide has yet to be determined. Low sequence similarity necessitated a secondary structure-based method to carry out homology modeling based upon the determined structure of LNS family members, named for a common structure in the laminin LG5 domain, the neurexin 1B domain and the sex hormone binding globulin. Distribution of amino acids within the model suggested glycosaminoglycan interaction and calcium binding. These activities were tested experimentally. Sequence analyses of existing genes for collagens indicate that 16 known collagen alpha chains may contain an LNS domain. A similar approach may prove useful for structure/function studies of similar domains in other collagens with similar domains. This will provide mechanistic details of the organization and assembly of the extracellular matrix and the underlying basis of structural integrity in connective tissues. The absolute requirement for collagen XI in skeletal growth is indicated by collagen XI deficiencies such as chondrodystrophies found in the cho/cho mouse and in humans with Stickler syndrome.     

Fine structure of P-protein filaments from Ricinus communis

Summary Exudate from the phloem of Ricinus communis L. was negatively stained, examined in the electron microscope, and the filamentous components compared with those in fixed, sectioned material. In the exudate, two main fibrillar components were observed. One component has a diameter of 20±0.35 (standard error) nm, the other of 14.1±0.34 nm. This second compoent has projections along its length measuring 5 by 14 nm and spaced at intervals of 6.5–10 nm. Fibrils have been found possessing characteristics of both fibril types, suggesting some structural relationship between the two, possibly an interconvertibility. Several other types of fibrils occurred less frequently in the exudate. The exudate also contains torus-shaped structures measuring 13.5–15 nm in diameter. Sections of mature sieve elements of Ricinus and Acer rubrum L. contain fibrils structurally similar to the 14-nm fibrils from the exudate of Ricinus. Ricinus exudate was also fixed and pelleted in the ultracentrifuge. Thin sections of the pellet afforded cross-sectional views of the 20-nm fibrils, and showed that these fibrils apparently have a solid core. Possible models for the structure of the 20-nm filaments are described.     

Formation of Chromoneme-like Fibrils Induced in Infusorian Somatic Nuclei by Magnesium Ions

A study was made of the effect of Mg²⁺ on higher-order chromatin structure in macronuclei (Ma) of infusoria Paramecium aurelia and Bursaria truncatella. In infusorian Ma, inactive chromatin is commonly packed in chromatin bodies sized 60–200 nm. When isolated chromatin or Ma were treated with Mg²⁺ (about 3 mM), chromatin bodies arranged into fibrils 100–300 nm in diameter, which resembled higher eukaryotic chromonemes. The dynamics of chromoneme-like fibril formation was described. The results testified to the similarity of chromatin bodies to chromomeres of higher eukaryotes. Structurally intact central chromomere cores proved to be essential for the formation of chromoneme-like fibrils. Chromatin organization in infusoria was shown to follow the discrete-level model (nucleosomes–nucleomeres–chromomeres–chromonemes) assumed for higher eukaryotes.     

Architecture of the cell wall of a green alga,Oocystis apiculata

Summary The cell wall of a green alga,Oocystis apiculata, was visualized by electron microscopy after preparation of samples by rapid-freezing and deep-etching techniques. The extracellular spaces clearly showed a random network of dense fibrils of approximately 6.4 nm in diameter. The cell wall was composed of three distinct layers: an outer layer with a smooth appearance and many protuberances on its outermost surface; a middle layer with criss-crossed cellulose microfibrils of approximately 15–17 nm in diameter; and an inner layer with many pores between anastomosing fibers of 8–10 nm in diameter. Both the outer and the inner layer seemed to be composed of amorphous material. Cross-bridges of approximately 4.2 nm in diameter were visualized between adjacent microfibrils by the same techniques. The cross-bridges were easily distinguished from cellulose microfibrils by differences in their dimensions.     

Ultrastructural observations on the lung of the emperor penguin (Aptenodytes forsten)

Summary Of all avian species the emperor penguin is the best adapted bird to attain the greatest diving depths and diving durations. Therefore the lung of this bird was investigated with electron-microscopic, i.e., freeze-fracture and thin-section methods. The parabronchi are surrounded by bundles of smooth muscle cells innervated by varicosities of autonomic nerves. The parabronchial epithelium is flat, bears a few microvilli and does not show any conspicuous ultrastructural specializations; only individual cells contain secretory granules. The atrial epithelial cells bear apical microvilli and are interconnected by adhering and tight junctions (5–10 sealing strands), the latter presumably forming an effective barrier against paracellular fluid movements. The cells contain lamellar inclusions of two types: (i) round membrane-bounded granules, the lamellar content of which is fixation-labile, and (ii) large polymorphic compact deposits of well-preserved lamellae. In both types of inclusions the individual lamellae can be of trilaminar appearance, whereas their fracture faces are smooth. Lamellar material also covers the epithelium of atria, infundibula and air capillaries. In thin areas the diameter of the morphological blood-air barrier measures 220–330 nm. Usually the endothelium of the blood capillaries is thicker (40–180 nm) than the air capillary epithelium (25–150 nm). Both epithelium and endothelium are interconnected by tight junctions, which seem to be more extensive and presumably tighter in the epithelium than in the endothelium. Frequently the common basal lamina is the thickest individual component of the blood-air barrier, measuring between 170–230 nm. Often collagen fibrils occur in this area of the barrier. In comparison with that of other birds the entire blood-air barrier of the emperor penguin is relatively thick, probably owing to an adaptation of the lung tissue which must resist high hydrostatic pressure during diving excursions.     

Ultrastructural characteristics of immunolabelled,corticotropin releasing factor (CRF)-synthesizing neurons in the rat brain

Summary The corticotropin releasing factor (CRF)-synthesizing perikarya and neural processes were detected at ultrastructural level in the hypothalamic paraventricular nucleus and in the median eminence of control and colchicine-pretreated rats. The unlabelled antibody peroxidase-antiperoxidase complex (PAP) immunohistochemical method was used in a pre-embedding manner, on thick, non-frozen sections. In CRF-perikarya, neurosecretory granules (80–120 nm in diameter), free ribosomes, and the rough endoplasmic reticulum were labelled. Unlabelled axon terminals formed asymmetric synapses on CRF-containing perikarya and dendrites. Immunolabelled axons terminated in the palisadic zone of the median eminence.     

Increase in activation rate of Pro‐Tk‐subtilisin by a single nonpolar‐to‐polar amino acid substitution at the hydrophobic core of the propeptide domain

Tk‐subtilisin (Gly70‐Gly398) is a subtilisin homolog from Thermococcus kodakarensis. Active Tk‐subtilisin is produced from its inactive precursor, Pro‐Tk‐subtilisin (Gly1‐Gly398), by autoprocessing and degradation of the propeptide (Tk‐propeptide, Gly1‐Leu69). This activation process is extremely slow at moderate temperatures owing to high stability of Tk‐propeptide. Tk‐propeptide is stabilized by the hydrophobic core. To examine whether a single nonpolar‐to‐polar amino acid substitution at this core affects the activation rate of Pro‐Tk‐subtilisin, the Pro‐Tk‐subtilisin derivative with the Phe17→His mutation (Pro‐F17H), Tk‐propeptide derivative with the same mutation (F17H‐propeptide), and two active‐site mutants of Pro‐F17H (Pro‐F17H/S324A and Pro‐F17H/S324C) were constructed. The crystal structure of Pro‐F17H/S324A was nearly identical to that of Pro‐S324A, indicating that the mutation does not affect the structure of Pro‐Tk‐subtilisin. The refolding rate of Pro‐F17H/S324A and autoprocessing rate of Pro‐F17H/S324C were also nearly identical to those of their parent proteins (Pro‐S324A and Pro‐S324C). However, the activation rate of Pro‐F17H greatly increased when compared with that of Pro‐Tk‐subtilisin, such that Pro‐F17H is efficiently activated even at 40°C. The far‐UV circular dichroism spectrum of F17H‐propeptide did not exhibit a broad trough at 205–230 nm, which is observed in the spectrum of Tk‐propeptide. F17H‐propeptide is more susceptible to chymotryptic degradation than Tk‐propeptide. These results suggest that F17H‐propeptide is unfolded in an isolated form and is therefore rapidly degraded by Tk‐subtilisin. Thus, destabilization of the hydrophobic core of Tk‐propeptide by a nonpolar‐to‐polar amino acid substitution is an effective way to increase the activation rate of Pro‐Tk‐subtilisin.     

The normal fine structure and aging changes of the human zonular fibers

Summary The normal zonular fibrils of the human eye do not differ from the fibrils of the zonula Zinnii of the rat. Furthermore, there is no difference between the single zonular fibrils and the fibrils of the vitreous body in rat and man. The average diameter of the human zonular fibrils is 109 Å. They are transversely striated at intervals with a periodicity of 70–150 Å. Over periods of mostly 400–440 å, but also of 500–640 Å were observed. At a few places over periods similar to those of the long spacing-type packing were found. Like in the rat eye, the zonular fibrils of the human eye must be regarded as a special form of collagen.An indirect proof for the collageneous nature of the zonular fibrils is the occurence in advanced age of degenerative alterations which are exclusively observed in connective tissue (hyalinization, elastoid degeneration).Supported by the Deutsche Forschungsgemeinschaft. Acknowledgement: I wish to thank Dr. H. Faßl, Institut für Medizinische Statistik und Dokumentation der Universität Mainz, for the statistical analysis.     

Electron microscopic study on the gel of the central part of the corpus vitreum in the ox

Summary The central part of the corpus vitreum in the ox possesses a relative firmness. Electron microscopically it has been shown to consist of collagen fibrils with interfibrillar spaces containing 8 nm thick granules. The granules are made up of chains of macromolecules (hyaluronic acid in an oligomer state) 130–200 nm in length and of an oval shape. The collagen fibrils are tightly covered with 8.5 nm thick macromolecules which represent highly polymerized hyaluronic acid. These macromolecules can be stained with ruthenium-red.Dedicated to Prof. Dr. med. Drs. h.c. W. Bargmann, Kiel, on the occasion of his 70th birthday