Postnatal maturation attenuates pressure-evoked myogenic tone and stretch-induced increases in Ca<sup>2+</sup>in rat cerebral arteries

Charles, Shelton M.; Zhang, Li; Longo, Lawrence D.; Buchholz, John N.; Pearce, William J.

doi:10.1152/ajpregu.00869.2006

Cited by 12 publications

(16 citation statements)

References 55 publications

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“…Developmental stage-dependent changes in myogenic tone have been reported in rat coronary arterioles, mouse and rat cerebral arteries, and porcine mesenteric arteries [4,7,14,15]. Together with our present findings, these studies suggest that myogenic response is maturation-dependent across species and vascular beds.…”

Section: Pressure-induced Vasoconstriction and Arterial Wall [Ca 2+ ]supporting

confidence: 88%

Postnatal kidney maturation regulates renal artery myogenic constriction

Soni

Buddington²,

Adebiyi

2014

Journal of Perinatal Medicine

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Section: Pressure-induced Vasoconstriction and Arterial Wall [Ca 2+ ]supporting

confidence: 88%

Postnatal kidney maturation regulates renal artery myogenic constriction

Soni

Buddington²,

Adebiyi

2014

Journal of Perinatal Medicine

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“…Arterial diameters were recorded with the SoftEdge Acquisition Subsystem (Ion-Optix, Milton, MA). All methods used in this study have been previously described in detail (12,13).…”

Section: Methodsmentioning

confidence: 99%

“…Once cannulated and equilibrated at 21°C, the artery segments were loaded with Fura-2 AM (Molecular Probes, Eugene, OR) for 20 min at a concentration of 1 M, as previously described (12,13). After loading, the arteries were washed with PSS, and the bath temperature was increased to 37°C.…”

Section: Methodsmentioning

confidence: 99%

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Maternal food restriction modulates cerebrovascular structure and contractility in adult rat offspring: effects of metyrapone

Durrant

Khorram

Buchholz

et al. 2014

American Journal of Physiology-Regulatory, Integrative and Comp

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Although the effects of prenatal undernutrition on adult cardiovascular health have been well studied, its effects on the cerebrovascular structure and function remain unknown. We used a pair-fed rat model of 50% caloric restriction from day 11 of gestation to term, with ad libitum feeding after birth. We validated that maternal food restriction (MFR) stress is mediated by glucocorticoids by administering metyrapone, a corticosterone synthesis inhibitor, to MFR mothers at day 11 of gestation. At age 8 mo, offspring from Control, MFR, and MFR + Metyrapone groups were killed, and middle cerebral artery (MCA) segments were studied using vessel-bath myography and confocal microscopy. Colocalization of smooth muscle α-actin (SMαA) with nonmuscle (NM), SM1 and SM2 myosin heavy-chain (MHC) isoforms was used to assess smooth muscle phenotype. Our results indicate that artery stiffness and wall thickness were increased, pressure-evoked myogenic reactivity was depressed, and myofilament Ca(2+) sensitivity was decreased in offspring of MFR compared with Control rats. MCA from MFR offspring exhibited a significantly greater SMαA/NM colocalization, suggesting that the smooth muscle cells had been altered toward a noncontractile phenotype. MET significantly reversed the effects of MFR on stiffness but not myogenic reactivity, lowered SMαA/NM colocalization, and increased SMαA/SM2 colocalization. Together, our data suggest that MFR alters cerebrovascular contractility via both glucocorticoid-dependent and glucocorticoid-independent mechanisms.

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“…Evidence of such temporal changes in myogenic behavior comes mostly from studies on vessels upstream from the arterioles. For example, the myogenic responsiveness of mesenteric arteries from 10-day-old piglets is significantly less than that of arteries from 1-day-old piglets (44), and middle cerebral arteries from 6-mo-old rats exhibit weaker myogenic responses than those from 14-day-old rats (9). In contrast, there is no difference between neonatal mice (4 -8 days old) and adult mice (42-56 days old) in the intrinsic responsiveness of middle cerebral artery smooth muscle to myogenic stimuli, although the adult arteries develop less tone over a wide pressure range due to greater opposition of myogenic behavior by endothelium-derived vasodilators (17).…”

Section: Discussionmentioning

confidence: 97%

Increased myogenic responsiveness of skeletal muscle arterioles with juvenile growth

Samora¹,

Frisbee²,

Boegehold³

2008

American Journal of Physiology-Heart and Circulatory Physiology

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Previous studies from this laboratory suggest that during juvenile growth, structural changes in the arteriolar network are accompanied by changes in some of the mechanisms responsible for regulation of tissue blood flow. To test the hypothesis that arteriolar myogenic behavior is altered with growth, we studied gracilis muscle arterioles isolated from Sprague-Dawley rats at two ages: 21-28 and 42-49 days. When studied at their respective in vivo pressures, the myogenic index (instantaneous slope of the active pressure-diameter curve) of arterioles from 42-49-day-old rats was more negative than that of arterioles from 21-28-day-old rats, indicating greater myogenic responsiveness. Endothelial denudation, or prostaglandin H(2) (PGH(2))/thromboxane A(2) (TxA(2)) receptor antagonism without denudation, significantly reduced the myogenic responsiveness of arterioles from the older rats over a wide range of pressures but had no consistent effects on the myogenic responsiveness of arterioles from the younger rats. The heme oxygenase inhibitor chromium (III) mesoporphyrin IX chloride had no effect on the myogenic activity of arterioles from either age group. These findings indicate that microvascular growth in young animals is accompanied by an increase in the myogenic behavior of arterioles, possibly because PGH(2) or TxA(2) assumes a role in reinforcing myogenic activity over this period. As a result, the relative contribution of myogenic activity to blood flow regulation in skeletal muscle may increase during rapid juvenile growth.

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Postnatal maturation attenuates pressure-evoked myogenic tone and stretch-induced increases in Ca²⁺in rat cerebral arteries

Cited by 12 publications

References 55 publications

Postnatal kidney maturation regulates renal artery myogenic constriction

Postnatal kidney maturation regulates renal artery myogenic constriction

Maternal food restriction modulates cerebrovascular structure and contractility in adult rat offspring: effects of metyrapone

Increased myogenic responsiveness of skeletal muscle arterioles with juvenile growth

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Postnatal maturation attenuates pressure-evoked myogenic tone and stretch-induced increases in Ca2+in rat cerebral arteries

Cited by 12 publications

References 55 publications

Postnatal kidney maturation regulates renal artery myogenic constriction

Postnatal kidney maturation regulates renal artery myogenic constriction

Maternal food restriction modulates cerebrovascular structure and contractility in adult rat offspring: effects of metyrapone

Increased myogenic responsiveness of skeletal muscle arterioles with juvenile growth

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Resources

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Postnatal maturation attenuates pressure-evoked myogenic tone and stretch-induced increases in Ca²⁺in rat cerebral arteries