Analysis of age-associated changes in collagen crosslinking in the skin and lung in monkeys and rats.

The present study was designed to address a specific question: can we define collagen aging in vivo in terms of alterations in collagen crosslinking? In order to assess the complete spectrum of change throughout life, tissues from rats, monkeys and (where available) humans were examined at ages ranging from fetal to old. Skin and lung were selected in order to include all of the crosslinks derived from lysyl oxidase-generated aldehydes that have been identified thus far, both reducible and nonreducible. Crosslinks analyzed included hydroxylysinonorleucine, dihydroxylysinorleucine, histidinohydroxymerodesmosine, hydroxypyridinium, lysyl pyridinium, and a deoxy analogue of hydroxypyridinium found in skin that differs structurally from lysyl pyridinium. Tissues from both a short-lived species (rats) and a long-lived species (monkeys) were analyzed to test further the hypothesis that changes in crosslinking are linked predominantly to biological age of the animal, rather than temporal aging. We found that biological aging seems to regulate certain predictable changes during the first part of the lifespan: the disappearance postnatally of dihydroxylysinonorleucine in skin, the rapid decrease in difunctional crosslink content in lung and skin during early growth and development, and the gradual rise in hydroxypyridinium and lysyl pyridinium in lung tissue. Changes in crosslinking were far less predictable during the second half of the lifespan. Although hydroxypridinium content continued to rise or reached a plateau in rat and monkey lungs, respectively, it showed a decrease in human lungs. The analogous trifunctional crosslink in skin, the so-called 'pyridinoline analogue', decreased dramatically in both rats and monkeys in later life. Our data suggest that caution must be taken in drawing inferences about human connective tissue aging from experiments performed in short-lived species such as rodents. Furthermore, the finding that there may be fewer total lysyl oxidase-derived crosslinks per collagen molecule in very old animals as compared with young animals suggests that we may need to expand our concepts of collagen crosslinking.

[1]  M. Barnes,et al.  Age-related variations in hydroxylation of lysine and proline in collagen. , 1974, The Biochemical journal.

[2]  P. Gallop,et al.  Cross-linking in collagen and elastin. , 1984, Annual review of biochemistry.

[3]  J. Last,et al.  Long-term consequences of exposure to ozone. II. Structural alterations in lung collagen of monkeys. , 1987, Toxicology and applied pharmacology.

[4]  T. Koob,et al.  Quantitation of hydroxypyridinium crosslinks in collagen by high-performance liquid chromatography. , 1984, Analytical biochemistry.

[5]  Y. Kawanishi,et al.  A novel fluor in insoluble collagen: a crosslinking moiety in collagen molecule. , 1982, Biochemical and biophysical research communications.

[6]  Z. Deyl,et al.  Aging of the connective tissue: collagen cross linking in animals of different species and equal age. , 1971, Experimental Gerontology.

[7]  J. Uitto,et al.  Connective tissue biochemistry of the aging dermis. Age-related alterations in collagen and elastin. , 1986, Dermatologic clinics.

[8]  B. Rigby,et al.  Oxygen participation in the in vivo and in vitro aging of collagen fibres. , 1977, Biochemical and biophysical research communications.

[9]  J. Last,et al.  Biosynthesis of collagen crosslinks: in vivo labelling of neonatal skin, tendon, and bone in rats. , 1986, Connective tissue research.

[10]  T. Moriguchi,et al.  Age-related changes in the content of the collagen crosslink, pyridinoline. , 1978, Journal of biochemistry.

[11]  C. Lieber,et al.  Aldehyde content of collagen from alcoholic cirrhotic and noncirrhotic human livers. , 1979, Experimental and molecular pathology.

[12]  J. Last,et al.  Type I collagen content is increased in lungs of patients with adult respiratory distress syndrome. , 1983, Thorax.

[13]  J. F. Woessner,et al.  The determination of hydroxyproline in tissue and protein samples containing small proportions of this imino acid. , 1961, Archives of biochemistry and biophysics.

[14]  J. Last,et al.  Long-term consequences of exposure to ozone. I. Lung collagen content. , 1984, Toxicology and applied pharmacology.

[15]  A. Shuttleworth,et al.  A comparison between the reducible intermolecular crosslinks of the collagens from mature dermis and young dermal scar tissue of the guinea pig. , 1972, Biochemical and biophysical research communications.

[16]  O. Blumenfeld,et al.  Isolation and identification of alpha-amino aldehydes in collagen. , 1968, Biochemistry.

[17]  P. Bornstein Disorders of connective tissue function and the aging process: A synthesis and review of current concepts and findings , 1976, Mechanisms of Ageing and Development.

[18]  C. Hamlin,et al.  Partial characterization of the age-related stabilizing factor of post-mature human collagen—I. by the use of bacterial collagenase , 1978, Experimental Gerontology.

[19]  C. Hamlin,et al.  Aging of collagen: Comparative rates in four mammalian species , 1980, Experimental Gerontology.

[20]  F. Verzár The aging of collagen. , 1963, Scientific American.

[21]  M. Barber,et al.  The structure(s) of pyridinoline(s). , 1982, Biochemical and biophysical research communications.

[22]  J. Last,et al.  Collagen crosslinking in lungs of rats with experimental silicosis. , 1986, Collagen and related research.

[23]  J. Bjorksten AGING, PRIMARY MECHANISM. , 1963, Gerontologia.

[24]  S. Robins Analysis of the crosslinking components in collagen and elastin. , 1982, Methods of biochemical analysis.

[25]  R. Cotter,et al.  Partial characteristics of an analog of pyridinoline isolated from human skin. , 1985, Biochemical and biophysical research communications.

[26]  J. Papadimitriou The Sanctuary of Artemis at Brauron , 1963 .

[27]  D. Eyre,et al.  Vitreous structure. VI. Age-related changes in the thermal stability and crosslinks of vitreous, articular cartilage and tendon collagens. , 1982, Biochimica et biophysica acta.

[28]  H. Vogel Influence of maturation and aging on mechanical and biochemical properties of connective tissue in rats , 1980, Mechanisms of Ageing and Development.