Edward G. Cleary

Further Characterization of Proteins Associated with Elastic Fiber Microfibrils Including the Molecular Cloning of MAGP-2 (MP25)

Together with the 31-kDa microfibril-associated glycoprotein (MAGP), four polypeptides designated MP340 (340 kDa), MP78 (78 kDa), MP70 (70 kDa), and MP25 (25 kDa) have previously been identified in tissue extracts designed specifically to solubilize the microfibrillar component of elastic fibers. In the present study, both MP78 and MP70 were shown to be forms of a protein which is closely related to the human protein βig-h3, and MP340 was confirmed to be the bovine form of fibrillin-1. Peptide sequences from MP25 proved to be unique, and affinity-purified anti-MP25 antibodies were shown, by immunofluorescence and immunoelectron microscopy, to localize specifically to the elastin-associated microfibrils. This confirmed that MP25 was a distinct component of these structures. Expression screening of nuchal ligament cDNA libraries yielded a cDNA, cM10A (770 base pairs) which encodes amino acid sequences matching those of the MP25 peptides. Further library screening with cM10A identified cDNAs which encode the complete primary structures of bovine and human MP25. Bovine and human MP25 were found to be around 80% homologous and contain 170 and 173 amino acids, respectively. Data base searches revealed that MP25 had significant similarity of structure only with MAGP, indicating that the two proteins form a new family of microfibrillar proteins. In acknowledgment, MP25 has been formally renamed MAGP-2, and MAGP is referred to as MAGP-1. The close similarity between the two proteins (57%) is confined to a central region of 60 amino acids where there is precise alignment of 7 cysteine residues. Elsewhere the MAGP-2 molecule is rich in serine and threonine residues and contains an RGD motif. MAGP-2 lacks the proline-, glutamine-, and tyrosine-rich sequences and a hydrophobic carboxyl terminus, characteristic of MAGP-1. These structural differences suggest that MAGP-2 has some functions which are distinct from those of MAGP-1. The locus of the human MAGP-2 gene was identified on chromosome 12 in the region of 12p12.3-12p13.1.

Microfibril-associated Glycoprotein-2 (MAGP-2) Is Specifically Associated with Fibrillin-containing Microfibrils but Exhibits More Restricted Patterns of Tissue Localization and Developmental Expression Than Its Structural Relative MAGP-1

SUMMARY We developed an affinity-purified anti-MAGP-2 peptide antibody that specifically identified MAGP-2 on Western blots of purified matrix proteins and extracts of nuchal ligament. Immunolocalization studies on tissues from a 210-day-old fetus and a mature bovine showed that MAGP-2 was located in similar regions to MAGP-1 and fibrillin-1 but that the distribution of MAGP-2 was more restricted. In fetal nuchal ligament, skeletal muscle, and spleen the distribution of MAGP-2 was indistinguishable from that of MAGP-1. In contrast to MAGP-1, MAGP-2 was not detected in the medial layer of fetal thoracic aorta and in much of the peritubular matrix of fetal and mature kidney and in the mature ocular zonule. Some differences in the immunolocalization patterns were also evident in fetal lung, cartilage, skin, and heart. Immunoelectron microscopy confirmed that MAGP-2 was specifically associated with fibrillin-containing microfibrils in nuchal ligament, dermis, adventitia of aorta, glomerular mesangium and perimysium. Northern blotting of RNA from tissues of a 210-day-old fetus indicated that steady-state MAGP-2 mRNA levels were highest in nuchal ligament. Significant expression was also detected in lung, heart, skeletal muscle, skin, and Achilles tendon. The tissue pattern of MAGP-2 expression differed significantly from that of MAGP-1. MAGP-2 expression appeared to be higher in nuchal ligament, heart, and skeletal muscle and lower in aorta and kidney. In nuchal ligament, MAGP-2 mRNA expression appeared to peak around 180 days of fetal development, which correlates with the period of onset of elastinogenesis in this tissue. Overall, the immunolocalization and expression patterns of MAGP-2 appeared to be distinct from those of other microfibrillar components. This is consistent with the view that MAGP-2 plays a unique role in the biology of the microfibrils, perhaps by mediating their interaction with cell surfaces at specific stages of development and differentiation.

Immunohistochemical and Ultrastructural Localization of MP78/70 (βig-h3) in Extracellular Matrix of Developing and Mature Bovine Tissues

MP78/70 is a matrix protein, with 78-kD and 70-kD isoforms, which was initially identified in bovine tissue extracts designed to solubilize elastin-associated microfibrils. Peptide analysis has shown that MP78/70 is closely related to the human protein, βig-h3. In the present study an antibody raised to a synthetic βig-h3 peptide was shown specifically to identify MP78/70 in purified form and in bovine tissue extracts. This is consistent with MP78/70 and βig-h3 being the bovine and human forms, respectively, of the same protein. The antibody was further affinity-purified on MP78/70 bound to Sepharose and used to localize the protein in a range of bovine tissues. Immunofluorescence showed that MP78/70 was localized to collagen fibers in tissues such as developing nuchal ligament, aorta and lung, and mature cornea; to reticular fibers in fetal spleen; and to capsule and tubule basement membranes in developing kidney. No general localization to elastic fibers was observed. The staining pattern in most tissues more closely resembled that of Type VI collagen, which occurs as collagen fiber-associated microfibrils, than that of fibrillin-1, a component of elastin-associated microfibrils. However, MP78/70 appeared to be less widely distributed than Type VI collagen. Immunoelectron microscopy showed that MP78/70 was predominantly found in loose association with collagen fibers in most tissues examined and was also located on the surface of the capsule basement membrane in developing kidney. Double labeling experiments indicated that MP78/70 is co-distributed with Type VI collagen microfibrils located in these regions. In some elastic tissues significant immunolabel was detected in regions of interface between collagen fibers and fibrillin-containing microfibrils of adjacent elastic fibers, and at the outer margins of the latter structures. Overall, the evidence points to MP78/70 having a bridging function, perhaps in association with Type VI collagen microfibrils, linking or stabilizing the interaction between interstitial collagen fibrils and other matrix structures, including some basement membranes and elastin-associated microfibrils.

The immunohistochemical localisation of microfibril-associated glycoprotein (MAGP) in elastic and non-elastic tissues

We have previously identified the major antigen of elastin‐associated microfibrils as a 31kD glycoprotein which we named microfibril‐associated glycoprotein or MAGP. Affinity‐purified antibodies to MAGP were shown to localise specifically to elastin‐associated microfibrils in sections of bovine foetal nuchat ligament (20). In the present paper we compare the localisation of anti‐MAGP antibodies and anti‐tropoelaslin antibodies in a range of bovine elastic and non‐elastic tissues. The results show that anti‐MAGP antibodies invariably localised to immuno‐reactive elastic fibres, wherever they occurred. Extensive additional localisation was observed in a number of tissues. This extra distribution of anti‐MAGP antibodies was found to correspond to those structures exhibiting the oxytalan histochemical staining reaction in tissues such as skin, periodontal ligament and ocular zorule. Since these oxytalan fibres have been shown to consist of 12 nm microfibrils which are morphologically similar to those of elastic fibres (and unpublished data from this laboratory confirm this conclusion), the results suggest that MAGP is a component of 12 nm microfibrils in both elastic and non‐elastic tissues. Anti‐tropoelastin antibodies did not localise to these oxytalan fibres, suggesting that tropoetastin is not a component of 12 nm microfibrils. MAGP was also detected in extracellular matrix regions of tissues such as skeletal muscle. Achilles tendon and spleen, suggesting that 12 nm microfibrils, containing one or more macromolecular constituents in common, make up an important structural system within the extracellular matrix in a wide range of elastic and non‐elastic tissues.

Possible Roles of Microfibrils in Elastogenesis

On examination in the electron microscope elastic tissue is seen to consist of an amorphous component surrounded by microfibrillar components. The exact relationship between these components is unknown, although during development the microfibrils appear before the amorphous material. In this report we summarize our recent observations on the microfibrillar material. At high magnification the microfibrils are seen to have a poorly staining central core around the periphery of which are arranged more densely staining filaments which appear to wind around the microfibrils in a spiral fashion. Careful measurements of microfibrillar diameters from the aorta of four large species show that there are significant differences in the mean diameter and population distributions with species. The mean diameter of the microfibrils changes with age during fetal and postnatal development. The results of immunoelectronmicroscopic localization of an antibody to a microfibrillar component are reported and the possible roles of microfibrils in elastic tissue formation are examined.

A collagen-like glycoprotein from elastin-rich tissues

Abstract Extracts of bovine aorta and nuchal ligament contain several large glycoproteins. The major glycoprotein species has been isolated and has been shown to be collagenase sensitive with an apparent molecular weight of 140,000 daltons. The protein exists in disulphide-bonded aggregates, contains hydroxyproline and hydroxylysine in 1:1 ratio and is unlike any of the known collagen types in amino acid analysis. Its presencein ligament extracts indicates that it is not derived from basement membranes. The evidence suggests that this protein is not derived from the microfibrillar components of the elastic tissues.

Development of immunoreagents to ciliary zonules that react with protein components of elastic fiber microfibrils and with elastin-producing cells

We describe the generation of a monoclonal antibody library to ocular zonule components and the characterization of three monoclonal antibodies: 1) one specific for microfibrillar associated glycoprotein (MAGP), a component of both ocular zonules and microfibrils of elastin fibers, 2) an antibody to an as yet unidentified 70,000 dalton antigen that is present in abundance in the extracellular matrix (ECM) of elastin-producing cells, and 3) an antibody reacting with the 67000 dalton subunit of the elastin receptor. The presence of antigenic determinants common to the ocular zonule and elastic fiber microfibrils suggests that zonules, which can be obtained in relatively pure form, can provide a valuable resource for characterizing proteins common to both microfibrillar structures.

Distribution of CL Glycoprotein in Tissues: An Immunohistochemical Study

CL glycoprotein is a collagen-like glycoprotein which we have recently isolated from rapidly growing fetal bovine, elastin-rich tissues. This protein has a molecular weight of approximately 140,000 daltons, contains hydroxyproline and hydroxylysine and is digested by highly purified collagenase to yield three large polypeptides. A specific antibody has been developed against this protein and has been used for immunofluorescence microscopy to study the distribution of CL glycoprotein in a range of tissues. It has been shown that the antibody localized in the intercellular matrix of nuchal ligament and aorta, of the non-elastic Achilles tendon and in complex tissues such as kidney, lung, skin and spleen. The antibody also localized to the surface of aortic smooth muscle cells-presumably to the basement membrane, but did not bind to other basement membranes, including the vascular subendothelial basement membrane. The pattern of distribution was similar in adult bovine tissues. As this antibody showed no avidity for elastic tissue elements, it is most unlikely that CL glycoprotein is a constituent of elastin-associated microfibrils. When the pattern of the CL glycoprotein distribution within the tissues was studied, it was found that, apart from its concentration around vascular smooth muscle cells, CL glycoprotein exhibited considerable overlap in distribution with the interstitial collagens. On the basis of these observations and having regard to its biochemical characteristics, it is proposed that CL glycoprotein has a structural role inter-linking interstitial components to one another and to vascular smooth muscle cells.

Developmental expression of dermatan sulfate proteoglycans in the elastic bovine nuchal ligament.

The nuchal ligament of bovines is a useful system in which to study elastic fibre formation since it contains up to 83% elastin and undergoes a period of rapid elastinogenesis during the last trimester of fetal development and in the first four post-natal months. To identify proteoglycans (PGs) which may be involved in this process we initially investigated changes in the glycosaminoglycan (GAG) profiles during nuchal ligament development. In contrast to the collagenous Achilles tendon, nuchal ligament exhibited: (a) elevated hyaluronan (HA) levels in the peak period of elastin-associated microfibril (fibrillin) synthesis (130-200 days) which precedes elastinogenesis; and (b) markedly increased synthesis of a glucuronate-rich copolymeric form of dermatan sulfate (DS) in the period corresponding to elastin formation (200-270 days). Analysis of DSPGs isolated from 230-day nuchal ligament showed that this copolymer was predominantly associated with a glycoform of biglycan which was specifically elevated at this stage in development. This finding was consistent with Northern blot analysis which showed that steady-state biglycan mRNA levels increased significantly during the elastinogenic period. In contrast, the mRNA levels for decorin, the only other DSPG detected in this tissue, declined rapidly after 140 days of fetal development. In conclusion, the results suggest that HA may play a role in microfibril assembly and that a specific glycoform of biglycan may be associated with the elastinogenic phase of elastic fibre formation.

Attitudes towards community medicine: a comparison of students from traditional and community-oriented medical schools.

 To compare the attitudes towards community medicine of first and final year students from two Australian medical schools.