CYTOKINE EXPRESSION IN RAT TENDINOPATHY MODEL AND TORN HUMAN SUPRASPINATUS TENDON

Abstract

Aim: The purpose of this study was to evaluate the cytokine molecules present in a rat tendinopathy model and in the torn edge of human rotator cuff tendon in an attempt to understand their role in tendon degeneration.

Methods: A rat tendon overuse model was used with custom microarrays consisting of 5760 rat oligonucleotide features in duplicate. Seventeen torn supraspinatus tendon and matched intact subscapularis tendon samples were collected from patients undergoing arthroscopic shoulder surgery.Control samples of subscapularis tendon were collected from ten patients undergoing arthroscopic stabilisation surgery.Specimens were analysed for the presence of interleukins 18, 15, 12, 11, 6, 2, macrophage inhibitory factor (MIF), and tumour necrosis factor Ą by semiquantitative RT-PCR and immunohistochemistry. Tendinopathy was assessed on a basic histological scale.

Results: Rat Microarray analysis: Upregulation of IL-6, IL-11 and IL18 receptor was noted in the degenerated rat supraspinatus tendon. Downregulation of IL-2 was noted. No other cytokine signal was expressed. Histological analysis: All torn human supraspinatus tendons changes consistent with marked tendinopathy. Matched subscapularis tendon showed appearances of moderate-advanced degenerative change. Cytokine mRNA expression: TNF-£\ mRNA expression was found to be significantly elevated (p< 0.01) in subscapularis tendon compared to torn supraspinatus samples. The expression levels of IL-18, IL-15, IL-6 and MIF was significantly higher in the torn edges of supraspinatus when compared to matched subscapularis tendon and normal control tendon (p< 0.001).

Immunohistochemical analysis: Presence of IL-18, IL-15, Il-6, MIF and TNF-£\ was confirmed in all samples of torn supraspinatus tendon. Significantly increased levels of IL-18, IL-15, IL-6 and MIF were found in torn supraspinatus. (p< 0.01) compared to matched and normal subscapularis.

Conclusions: Cytokines have been shown to promote the intensive production of reactive O2 metabolites ¹ and are potent agonists of protein kinases ². Our finding of significantly increased cytokine levels may suggest that these molecules when expressed during the degenerate and healing phases of tendon injury result in the subsequent production of reactive O2 species and protein kinases³ causing tendon damage or failure of the normal reparative process. Our finding of marked tendinopathy in matched subscapularis tendon may also provide a useful human tendinopathy model.