Bradykinin and kallidin levels in the trapezius muscle in patients with work-related trapezius myalgia, in patients with whiplash associated pain, and in healthy controls - A microdialysis study of women.

The origins of chronic muscle pain development and maintenance are debated regarding the relative contributions of peripheral nociception and central pain processing. Bradykinin (BKN) and kallidin (KAL) have been suggested to be algesic kinins involved in muscle pain. This in vivo study investigates whether there were significant differences in interstitial muscle concentrations of BKN and KAL between chronic work-related trapezius myalgia (TM), chronic whiplash associated disorders (WAD), and healthy controls (CON).

Ca2+ signalling of kinins in cells expressing rat, mouse and human B1/B2-receptor.

With respect to functional aspects, the kallikrein-kinin-system can be divided into a plasma kallikrein-kinin-system and a tissue kallikrein-kinin-system. At least four functional kinin peptides act via two different G-protein-coupled receptors, an inducible B1-receptor and a constitutively expressed B2-receptor. B1R and B2R couple to G(q/11) and lead via phospholipase C to Ca2+ mobilization.

Kallidin-like peptide mediates the cardioprotective effect of the ACE inhibitor captopril against ischaemic reperfusion injury of rat heart.

1. The potential cardioprotective effect of ACE inhibitors has been attributed to the inhibition of bradykinin degradation. Recent data in rats documented a kallidin-like peptide, which mimics the cardioprotective effect of ischaemic preconditioning.

A kallidin-like peptide is a protective cardiac kinin, released by ischaemic preconditioning of rat heart.

Bradykinin is thought to play a major role among the endogenous cardioprotective candidates of ischaemic preconditioning (IPC). Little attention has been paid to the fact that in the tissue kallidin (KAL), rather than bradykinin might be the physiological mediator of the kallikrein-kinin system. In order to evaluate the importance of one or the other peptide the release and effect of both kinins has been investigated in isolated rat hearts following IPC.

Rat tissue kallikrein releases a kallidin-like peptide from rat low-molecular-weight kininogen.

The kallikrein-kinin system is subdivided into the plasma and tissue-kallikrein-kinin system, with bradykinin (BK) and kallidin (KAL) (Lys(0)-bradykinin) as functional peptides. This occurs in both humans and other mammals. Both peptides are released by plasma and tissue-kallikrein.