Cardiovascular abnormalities with normal blood pressure in tissue kallikrein-deficient mice

Meneton, Pierre; Bloch-Faure, May; Hagege, Albert; Ruetten, Hartmut; Wei, Huang; Bergaya, Sonia; Ceiler, Debbie L.; Gehring, Doris; Martins, Isabel; Salmon, Georges; Boulanger, Chantal M.; Nussberger, Jürg; Crozatier, Bertrand; Gasc, Jean Marie; Heudes, Didier; Bruneval, Patrick; Doetschman, Tom; Ménard, Joël; Alhenc-Gélas, François

doi:10.1073/pnas.051619598

Cited by 152 publications

(154 citation statements)

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“…Thus, the absence of TK decreases ENaC proteolysis and activation (34), but it up-regulates ENaC-independent electroneutral NaCl absorption presumably through a decrease in the local production of bradykinin. The combination of these two opposite effects can explain why TK −/− mice do not have a significantly altered sodium balance (34,36), but it might have important implications for renal potassium handling. Because K + secretion strictly depends on electrogenic Na + transport by ENaC, by favoring ENaC-mediated Na + absorption over electroneutral NaCl absorption, TK is expected to indirectly stimulate K + secretion by PCs (Fig.…”

Section: Discussionmentioning

confidence: 99%

“…Aldosterone synthase-deficient mice (AS −/− ) (38) were obtained from O. Smithies (University of North Carolina, Chapel Hill). Mice heterozygous for TK or AS gene disruption were crossed, and wild-type (TK +/+ or AS +/+ ) and homozygous knock-out mice (TK −/− or AS −/− ) were identified in their offspring by genotyping tail DNA as described in ref (36,38). In all experiments, controls consisted in wild-type littermates.…”

Section: Methodsmentioning

confidence: 99%

“…TK −/− mice have been generated in our laboratory (34,36,37). Aldosterone synthase-deficient mice (AS −/− ) (38) were obtained from O. Smithies (University of North Carolina, Chapel Hill).…”

Section: Methodsmentioning

confidence: 99%

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Tissue kallikrein permits early renal adaptation to potassium load

Moghrabi

Houillier

Picard

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

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Tissue kallikrein (TK) is a serine protease synthetized in renal tubular cells located upstream from the collecting duct where renal potassium balance is regulated. Because secretion of TK is promoted by K + intake, we hypothesized that this enzyme might regulate plasma K + concentration ([K + ]). We showed in wild-type mice that renal K + and TK excretion increase in parallel after a single meal, representing an acute K + load, whereas aldosterone secretion is not modified. Using aldosterone synthase-deficient mice, we confirmed that the control of TK secretion is aldosterone-independent. Mice with TK gene disruption ( TK −/− ) were used to assess the impact of the enzyme on plasma [K + ]. A single large feeding did not lead to any significant change in plasma [K + ] in TK +/+ , whereas TK −/− mice became hyperkalemic. We next examined the impact of TK disruption on K + transport in isolated cortical collecting ducts (CCDs) microperfused in vitro. We found that CCDs isolated from TK −/− mice exhibit net transepithelial K + absorption because of abnormal activation of the colonic H + ,K + -ATPase in the intercalated cells. Finally, in CCDs isolated from TK −/− mice and microperfused in vitro, the addition of TK to the perfusate but not to the peritubular bath caused a 70% inhibition of H + ,K + -ATPase activity. In conclusion, we have identified the serine protease TK as a unique kalliuretic factor that protects against hyperkalemia after a dietary K + load.

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Tissue kallikrein permits early renal adaptation to potassium load

Moghrabi

Houillier

Picard

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

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“…Thus the components of the KKS are present in vascular tissue, where they could play an important role in regulation of vascular resistance. Arteries isolated from mice lacking the kallikrein gene reportedly exhibited significantly reduced flow-induced dilatation compared to controls, suggesting that the KKS in the arterial wall participates in this process (25,168). Moreover, in humans a partial genetic deficiency of TK (R53H) was associated with inward remodeling of the brachial artery that renders it incapable of adapting to a chronic increase in wall shear stress, a form of arterial dysfunction that affects 5% to 7% of Caucasians (13).…”

Section: The Kallikrein-kinin System In Inflammationmentioning

confidence: 99%

“…However, mice lacking TK have normal blood pressure and yet both the structure and function of the heart are clearly abnormal (168). Chronic blockade of B 2 receptors with a potent and selective antagonist, icatibant, did not increase blood pressure under normal conditions or in situations that favor hypertension in rats, such as (i) chronic infusion of a subpressor or pressor dose of angiotensin II (Ang II), (ii) a high salt diet, or (iii) mineralocorticoids and salt (148,229).…”

Section: Kinins In Blood Pressure Regulation and The Pathogenesis Of mentioning

confidence: 99%