The Kallikrein-Kinin System as a Regulator of Cardiovascular and Renal Function

“…The renal kallikrein-kinin system is believed to operate in concert with the renin-angiotensin system to regulate physiologically the distribution of renal blood flow (1,11,12) and the metabolism of water and electrolytes (1). Urinary kallikrein activity (UKLKa) is influenced by hereditary factors (13,14) and by dietary Na + and K + intake (1). Family studies have demonstrated familial aggregation of UKLKa and have suggested that a large part of the observed population variance is attributable to a major gene effect (14).…”

“…Tissue kallikrein (TK), a serine protease synthesized in many organs, cleaves low-and high-molecular-weight kininogens, thus releasing the vasodilator peptides known as kinins (1)(2)(3)(4). The kallikrein-kinin system is present in the endothelium and in the smooth muscle of vascular walls (5)(6)(7), where locally generated kinins have potent endothelium-mediated vasodilatory and antithrombotic properties through activation of bradykinin B 2 receptors, triggering NO release and other endothelial mediators (1,8,9).…”

“…TK is also synthesized in large amounts in the kidney connecting tubule and cortical collecting tubule and is released in the urine and the peritubular interstitium (10). The renal kallikrein-kinin system is believed to operate in concert with the renin-angiotensin system to regulate physiologically the distribution of renal blood flow (1,11,12) and the metabolism of water and electrolytes (1). Urinary kallikrein activity (UKLKa) is influenced by hereditary factors (13,14) and by dietary Na + and K + intake (1).…”

Arterial and renal consequences of partial genetic deficiency in tissue kallikrein activity in humans

“…The renal kallikrein-kinin system is believed to operate in concert with the renin-angiotensin system to regulate physiologically the distribution of renal blood flow (1,11,12) and the metabolism of water and electrolytes (1). Urinary kallikrein activity (UKLKa) is influenced by hereditary factors (13,14) and by dietary Na + and K + intake (1). Family studies have demonstrated familial aggregation of UKLKa and have suggested that a large part of the observed population variance is attributable to a major gene effect (14).…”

“…Tissue kallikrein (TK), a serine protease synthesized in many organs, cleaves low-and high-molecular-weight kininogens, thus releasing the vasodilator peptides known as kinins (1)(2)(3)(4). The kallikrein-kinin system is present in the endothelium and in the smooth muscle of vascular walls (5)(6)(7), where locally generated kinins have potent endothelium-mediated vasodilatory and antithrombotic properties through activation of bradykinin B 2 receptors, triggering NO release and other endothelial mediators (1,8,9).…”

“…TK is also synthesized in large amounts in the kidney connecting tubule and cortical collecting tubule and is released in the urine and the peritubular interstitium (10). The renal kallikrein-kinin system is believed to operate in concert with the renin-angiotensin system to regulate physiologically the distribution of renal blood flow (1,11,12) and the metabolism of water and electrolytes (1). Urinary kallikrein activity (UKLKa) is influenced by hereditary factors (13,14) and by dietary Na + and K + intake (1).…”

Arterial and renal consequences of partial genetic deficiency in tissue kallikrein activity in humans

“…The kallikrein-kinin system is present in the endothelium and in the smooth muscle of vascular walls (5-7), where locally generated kinins have potent endothelium-mediated vasodilatory and antithrombotic properties through activation of bradykinin B 2 receptors, triggering NO release and other endothelial mediators (1,8,9). TK is also synthesized in large amounts in the kidney connecting tubule and cortical collecting tubule and is released in the urine and the peritubular interstitium (10).…”

Arterial and renal consequences of partial genetic deficiency in tissue kallikrein activity in humans

“…Kinins release potent vasodilators, such as prostaglandins (PG), nitric oxide (NO), and endothelial-derived hyperpolarizing factor (EDHF) (3)(4)(5), which influence blood pressure and vessel tone, but they can cause pain and enhance capillary permeability in inflammation as well (3). The beneficial effects of angiotensin I-converting enzyme (ACE) (18,40), or kininase II are attributed at least in part to prolongation of the half-life of bradykinin (BK) (6)(7)(8)(20)(21)(22) and potentiation of its effects on the B 2 receptor (15,(33)(34)(35). Although plasma kininogen is the primary substrate of kallikreins, these serine proteases can cleave other proteins as well, such as Factor XII, the activator of prokallikrein (12,41,42).…”

Kallikrein activates bradykinin B₂ receptors in absence of kininogen