Gap junction protein expression and cellularity: comparison of immature and adult equine digital tendons

Gap junction protein expression and cellularity: comparison of immature and adult equine digital tendons

Injury to the energy‐storing superficial digital flexor tendon is common in equine athletes and is age‐related. Tenocytes in the superficial digital flexor tendon of adult horses appear to have limited ability to respond adaptively to exercise or prevent the accumulation of strain‐induced microdamag...

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Bibliographic Details
Published in:Journal of anatomy Vol. 211; no. 3; pp. 325 - 334
Main Authors: Stanley, Rachael L., Fleck, Roland A., Becker, David L., Goodship, Allen E., Ralphs, Jim R., Patterson‐Kane, Janet C.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-09-2007
Blackwell Science Inc
Subjects:
age
Aging - physiology
Animals
Cell Count
Connexin 43 - analysis
connexins (Cx)
Connexins - analysis
Fluorescent Antibody Technique
Forelimb
Gap Junction beta-1 Protein
gap junctions
horses
Horses - physiology
immunofluorescence
Microscopy, Confocal
Original
Physical Conditioning, Animal
Stress, Mechanical
tendons
Tendons - cytology
Tendons - growth & development
Tendons - metabolism
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Summary:Injury to the energy‐storing superficial digital flexor tendon is common in equine athletes and is age‐related. Tenocytes in the superficial digital flexor tendon of adult horses appear to have limited ability to respond adaptively to exercise or prevent the accumulation of strain‐induced microdamage. It has been suggested that conditioning exercise should be introduced during the growth period, when tenocytes may be more responsive to increased quantities or intensities of mechanical strain. Tenocytes are linked into networks by gap junctions that allow coordination of synthetic activity and facilitate strain‐induced collagen synthesis. We hypothesised that there are reductions in cellular expression of the gap junction proteins connexin (Cx) 43 and 32 during maturation and ageing of the superficial digital flexor tendon that do not occur in the non‐injury‐prone common digital extensor tendon. Cryosections from the superficial digital flexor tendon and common digital extensor tendon of 5 fetuses, 5 foals (1–6 months), 5 young adults (2–7 years) and 5 old horses (18–33 years) were immunofluorescently labelled and quantitative confocal laser microscopy was performed. Expression of Cx43 and Cx32 protein per tenocyte was significantly higher in the fetal group compared with all other age groups in both tendons. The density of tenocytes was found to be highest in immature tissue. Higher levels of cellularity and connexin protein expression in immature tendons are likely to relate to requirements for tissue remodelling and growth. However, if further studies demonstrate that this correlates with greater gap junctional communication efficiency and synthetic responsiveness to mechanical strain in immature compared with adult tendons, it could support the concept of early introduction of controlled exercise as a means of increasing resistance to later injury.
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ISSN:0021-8782
1469-7580
DOI:10.1111/j.1469-7580.2007.00781.x