Distinct agonist responsibilities of the first and second branches of mouse mesenteric artery.

The mesenteric artery (MA) is suitable for consideration as a typical micro-resistant artery for examination of arteriosclerosis. The MA is comprised of the first (MA1), second (MA2), and additional fine structural branches; however, differences in terms of responsibilities of these branches have not been assessed. The objective of this study was to differentiate contractile responses in the MAs of mice. MA2 rings (100 microm diameter, 1 mm length) displayed maximal force development (846.8 +/- 55.6 microN; n = 5) upon stimulation with 50 mM KCl under 400 microN resting tension. However, both MA1 and aorta required resting tension exceeding 600 microN. Treatment of MA2 with phenylephrine (PE; 10 microM), norepinephrine (NE; 10 microM), thromboxane A(2) (analog U46619; 100 nM), or prostaglandin F(2a) (PG; 10 microM) induced sustained contractions. Responses were 1507.8 +/- 88.8, 1543 + 5 +/- 149.6, 2088.6 +/- 151.6, and 1441.9 +/- 103.6 microN (n = 7), respectively. These values were markedly larger than those of the KCl-induced response. In MA1 and aorta, PE-induced and NE-induced responses were indistinct from the KCl response. This investigation revealed that MA1 exhibits responsibilities similar to those of the aorta, whereas MA2 possesses distinct responsibilities. MA2 might serve as a micro-resistant artery model.