Load-induced focal adhesion mechanotransduction is altered with aging in the Fischer 344/NNiaHSd × Brown Norway/BiNia rat aorta

The focal adhesion kinase (FAK) pathway has emerged as a critical component for mediating numerous cellular responses including control of cell growth, differentiation, and adaptation. Here we compared the expression, basal activation, and the ability of increased intraluminal pressure to activate FAK and focal adhesion-associated proteins in the aorta of adult (6 months old) and very aged (36 months old) Fischer 344/NNiaHSd X Brown Norway/BiNia (F344/NXBN) rats. Immunoblot analysis showed increases in the aortic content of FAK (15%), FAK related non-kinase (p41-FRNK) (28%), Src (92%), RhoA (41%), and paxillin (23%) in the very aged aortae. Increased age significantly changed the basal phosphorylation status of FAK and paxillin. Application of aortic intraluminal pressure (200 mm Hg) amplified the phosphorylation of FAK (Tyr 925), Src (Tyr 416), and paxillin (Tyr 188) in adult animals while aortic loading in the very aged animals failed to induce FAK (Tyr 925) phosphorylation. Aging did not alter the load-induced regulation of RhoA; however, FRNK (p41) translocation between cytosolic and membrane compartments was increased. These results confirm previous observations that FAK and focal adhesion-associated proteins are mechanically regulated and expand these studies to suggest that FAK mechanotransduction is altered with aging.     

Cumulative effects of aging and mechanical ventilation on in vitro diaphragm function

STUDY OBJECTIVE: Unloading the diaphragm, via mechanical ventilation (MV), results in significant diaphragmatic atrophy, contractile dysfunction, and oxidative stress in young adult animals. Since aging increases skeletal muscle susceptibility to atrophy and injury, we tested the hypothesis that MV-induced diaphragmatic contractile dysfunction would be exacerbated in aging rats. METHODS: Fisher 344/Brown Norway hybrid rats (4 months old [young] and 30 months old [old]) were assigned to either control or MV groups. MV rats were anesthetized, tracheostomized, and ventilated with 21% O(2) for 12 h. Arterial BP, pH, and blood gas homeostasis were maintained in the MV animals throughout the experimental period. Animals in the control group were acutely anesthetized, and the diaphragms were immediately removed. Muscle strips from the mid-costal diaphragm were removed from each experimental animal, and contractile properties were studied in vitro. RESULTS: Compared to young control animals, aging (old control animals) was associated with a 13% decrease in maximal isometric tension (24.5 N/cm(2) vs 21.3 N/cm(2)). Although, MV induced similar relative losses (24%) in diaphragmatic isometric tension in both young and old animals receiving MV, the combined effects of aging and MV resulted in a 34% decrement in diaphragmatic isometric tension compared to young control animals (24.5 N/cm(2) vs 16.1 N/cm(2)). CONCLUSIONS: These data do not support the hypothesis that aging exacerbates the relative MV-induced impairment in diaphragmatic isometric tension. Nonetheless, the additive effects of aging and MV have dramatic effects on diaphragmatic force reserve. This could exacerbate weaning difficulties in older individuals receiving MV.     

Augmented contractile response of vascular smooth muscle in a diabetic mouse model

The vasomotor properties of isolated aortae and mesenteric arteries of insulin-resistant ob/ob and 57CBL/6J mice were compared in organ bath studies. Vessels from ob/ob mice were more sensitive to phenylephrine. Pretreatment with L-NAME caused similar leftward shifts of the phenylephrine concentration response curves in diabetic and non-diabetic vessels. The ob/ob aortae contracted in response to phenylephrine with roughly twice the force while they were not stiffer than control aortae. L-NAME caused a greater percentage increase in maximal force in the control than in the ob/ob tissue. Denudation potentiated force in the control aortae, but not in the ob/ob aortae. Endothelium-dependent relaxation in the ob/ob aortae and mesenteric arteries was impaired as manifested by a decreased sensitivity and maximal relaxation to acetylcholine, while the aortic basal eNOS mRNA levels did not differ between the two strains. In addition, ob/ob aortae were less sensitive to the nitric oxide donor sodium nitroprusside. Inhibition of endogenous prostaglandin synthesis with indomethacin (10 microM) partly normalized the contractile response of the ob/ob aortae and enhanced their endothelium-dependent relaxation. Neither blockade of endothelin-1 receptors (bosentan, 10 microM) nor PKC inhibition (calphostin, 1 microM) affected the contractile response to phenylephrine in the mouse aortae of either strain. In conclusion, vascular dysfunction in the aorta and mesenteric artery of ob/ob mice are due to increased smooth muscle contractility and impaired dilation but not to changes in elasticity of the vascular wall. Endothelium-produced prostaglandins contribute to the increased vasoconstriction.     

Vascular responsiveness to phorbol esters in coarctation-hypertensive rats

Recent observations suggest that a phospholipid-sensitive, calcium-dependent protein kinase affects the contractile responses of vascular smooth muscle. Protein kinase C activators such as the tumor-promoting phorbol esters have been used as tools to study protein kinase C function in various intact cells. The present study characterizes vascular reactivity to protein kinase C activation in rats made hypertensive by coarctation of the abdominal aorta. Thoracic aortic strips from hypertensive rats developed greater force than arteries from normotensive rats in response to the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA). Thoracic aortae from hypertensive rats were more responsive (lower threshold dose) to the phorbol ester than those from normotensive rats. Additionally, arteries from hypertensive rats were more responsive to the contractile effects of mezerein, a non-phorbol ester activator of protein kinase C. Removal of the endothelium did not eliminate the difference in responsiveness to TPA in thoracic aortae from normotensive and hypertensive rats. The threshold dose of TPA in abdominal aortae from hypertensive rats was not different from that in normotensive rats. However, the maximal response to 10(-6) mol/l TPA after 60 min in abdominal aortae from hypertensive rats was significantly less than that in aortae from normotensive rats. Thus, contractile responses to TPA appear to be influenced by arterial pressure per se. The inhibitory effects of the calcium antagonist, verapamil, in thoracic aortae from hypertensive rats were greater than in those from normotensive rats. Verapamil inhibited TPA-induced contractions in abdominal aortae from hypertensive rats to the same extent as in those from normotensive rats.(ABSTRACT TRUNCATED AT 250 WORDS)     

Heat stress stimulates hepcidin mRNA expression and C/EBPα protein expression in aged rodent liver

Elevations in hepatic iron content occur with aging and physiological stressors, which may promote oxidative injury to the liver. Since dysregulation of the iron regulatory hormone, hepcidin, can cause iron accumulation, our goal was to characterize the regulation of hepcidin in young (6 mo) and old (24 mo) Fischer 344 rats exposed to environmental heat stress. Liver and blood samples were taken in the control condition and after heating. Hepcidin expression did not differ between young and old rats in the control condition, despite higher levels of hepatic iron and IL-6 mRNA in the latter. Following heat stress, pSTAT3 increased in both groups, but C/EBPα and hepcidin mRNA increased only in old rats. Despite this, serum iron decreased in both age groups 2 h after heat stress, suggesting hepcidin-independent hypoferremia in the young rats. The differential regulation of hepcidin between young and old rats after hyperthermia may be due to the enhanced expression of C/EBPα protein in old rats. These data support the concept of “inflammaging” and suggest that repeated exposures to stressors may contribute to the development of anemia in older individuals.     

Antioxidant Tempol Lowers Age-Related Increases in Insulin Resistance in Fischer 344 Rats

It is well documented that both oxidative stress and insulin resistance increase with advancing age. In the present study, a hypothesis was tested that an increase in oxidative stress leads to an age-associated increase in insulin resistance. Adult (6-month) and old (24-month) Fischer 344 rats were supplemented with vehicle and antioxidant (tempol, 1 mmol/L in drinking water, four weeks). Markers of oxidative stress and insulin resistance were measured. The level of malondialdehyde (MDA) showed an increase in the plasma and renal proximal tubules (RPT) of vehicle-supplemented old rats but not adult rats. Also, the carboxymethyllysine (CML) level increased in the RPT of vehicle-supplemented old rats. Tempol-supplementation to old rats decreased the levels of MDA and CML compared to vehicle-supplemented old rats. Further, plasma glucose, insulin, and triglycerides were higher in the vehicle-supplemented old rats than the adult rats. Tempol-supplementation to old rats decreased plasma glucose, insulin, and triglycerides, unlike vehicle-supplemented old rats. Homeostasis model assessment, an index of insulin resistance, was increased in vehicle-supplemented old rats but decreased following tempol-supplementation. This study suggests that there are age-related increases in oxidative stress and insulin resistance in Fischer 344 rats. It is speculated that increased oxidative stress may be responsible for the development of insulin resistance in old Fischer 344 rats     

Antioxidant tempol lowers age-related increases in insulin resistance in Fischer 344 rats

It is well documented that both oxidative stress and insulin resistance increase with advancing age. In the present study, a hypothesis was tested that an increase in oxidative stress leads to an age-associated increase in insulin resistance. Adult (6-month) and old (24-month) Fischer 344 rats were supplemented with vehicle and antioxidant (tempol, 1 mmol/L in drinking water, four weeks). Markers of oxidative stress and insulin resistance were measured. The level of malondialdehyde (MDA) showed an increase in the plasma and renal proximal tubules (RPT) of vehicle-supplemented old rats but not adult rats. Also, the carboxymethyllysine (CML) level increased in the RPT of vehicle-supplemented old rats. Tempol-supplementation to old rats decreased the levels of MDA and CML compared to vehicle-supplemented old rats. Further, plasma glucose, insulin, and triglycerides were higher in the vehicle-supplemented old rats than the adult rats. Tempol-supplementation to old rats decreased plasma glucose, insulin, and triglycerides, unlike vehicle-supplemented old rats. Homeostasis model assessment, an index of insulin resistance, was increased in vehicle-supplemented old rats but decreased following tempol-supplementation. This study suggests that there are age-related increases in oxidative stress and insulin resistance in Fischer 344 rats. It is speculated that increased oxidative stress may be responsible for the development of insulin resistance in old Fischer 344 rats.     

Moderate hypoxia increases heat shock protein 90 expression in excised rat aorta

We hypothesized that heat shock protein 90 (HSP90) expression would be increased in vascular tissue exposed to a hypoxic stress that resulted in altered contractile function. We tested this hypothesis by subjecting excised rat aortic rings to a hypoxic stress that has been shown to reduce contractile force induced by arginine vasopressin (PO(2) approximately 50 mm Hg for 1 h) and determining the effect on HSP90 expression. Concentration-response curves were determined for control and hypoxic excised rat aortic rings exposed to norepinephrine (n = 8) or KCl (n = 8). Hypoxia reduced the force generated in response to the highest concentration of each agonist. HSP90 expression was evaluated by immunoblotting (n = 6) and immunohistochemistry (n = 7). Both methods documented increased expression of HSP90 in hypoxic aortae as compared to controls. HSP90 expression was increased within the cytoplasm and in conjunction with the nucleus of vascular smooth muscle cells in the tunica media and also within vascular myointimal cells. We conclude that a hypoxic stress sufficient to induce contractile dysfunction increases HSP90 expression in rat aortic smooth muscle cells.     

Elastic properties and composition of the aortic wall in old spontaneously hypertensive rats.

We hypothesized that age-linked changes in the composition and elastic properties of the arterial wall occur earlier in hypertensive than in normotensive rats. We evaluated the consequences of hypertension and aging on aortic mechanics, geometry, and composition in 3-, 9-, and 15-month-old awake Wistar-Kyoto rats (WKY) (normotensive) and spontaneously hypertensive rats (SHR) (hypertensive). The elastic modulus of the thoracic aorta, calculated from aortic pulse wave velocity and geometry, was higher in young and adult SHR than in age-matched WKY, as was wall stress; however, isobaric pulse wave velocity and pulse wave velocity-pressure curves were similar. Elastic modulus, isobaric pulse wave velocity, and the slope of the pulse wave velocity-pressure curve dramatically increased in old SHR compared with age-matched WKY; there was no further elevation of blood pressure or wall thickness. Fibrosis did not develop with age in SHR, and the ratio of elastin to collagen decreased in a similar fashion with aging in both strains. In conclusion, although elastic properties of the aortic wall are not intrinsically modified in young and adult SHR in comparison to age-matched WKY, aging is associated with a dramatic stiffening of the aortic wall in old SHR but not in WKY. Changes in blood pressure, aortic wall geometry, or scleroprotein composition do not appear to explain this age-linked aortic stiffening in SHR, suggesting that other mechanisms of disorganization of the media may be involved.     

Effect of Aging on Tongue Protrusion Forces in Rats

The purpose of this study was to ascertain the effect of aging on muscle contractile properties associated with tongue protrusion in a rat model. Fischer 344/Brown Norway hybrid rats, ten young (9 months old) and ten old (32 months old), were used to measure protrusive contractile properties. Results showed a significant reduction in tetanic forces in the old animals. The following measures of muscle contraction were not different between age groups: mean twitch contraction force, twitch contraction time, twitch contraction half-decay time, and a calculated measure of fatigability. In conclusion, aging influenced protrusive tongue muscle contractions in a rat model such that tetanic forces were reduced. The reduction of tetanus force may parallel findings in human subjects relative to isometric tongue force generation and may be associated with age-related disorders of swallowing.     

Long-term consumption of Western diet contributes to endothelial dysfunction and aortic remodeling in rats: Implication of Rho-kinase signaling

Western diet (WD), rich in saturated fat and sugars, has become a risk factor for obesity and metabolic syndrome, however, its effect on endothelial function and vascular remodeling is not fully elucidated. Recent evidence suggests cross-talk between Rho kinase (ROCK) pathway and cardiovascular system. We aimed to investigate the effect of WD on aortic remodeling and the contribution of ROCK signaling. Eight week old male Sprague-Dawley rats were fed either standard chow diet (SD) or high fructose/ high-fat diet, typically as in WD. After 42 weeks, WD-fed rats showed hyperglycemia, dyslipidemia, and hypertension without marked weight gain, compared to SD-fed rats. Significant up-regulation of ROCK-1 and ?2, along with a decline in eNOS expression were found in the aortic tissue of WD-fed rats. Additionally, WD-fed rats displayed oxidative stress and fibrosis in their aortic tissues versus controls. Our findings suggest that long-term feeding of WD contributes to endothelial dysfunction and aortic remodeling in adult male rats. ROCK activation seems to be involved in WD-related vascular disorders and may represent a promising therapeutic target.     

Influence of animal age on the beta-adrenergic system in cultured rat aortic and mesenteric artery smooth muscle cells.

It has previously been reported that aortic smooth muscle cells cultured from old rats have a marked decline in beta-adrenergic stimulated cAMP accumulation. We wished to confirm this observation and determine whether this decline was secondary to loss of beta-adrenergic receptors (BAR). Primary cultures of aortic and mesenteric artery smooth muscle cells were obtained by enzymatic digestion from young and old male Fischer 344 rats. In aortic cells from old animals, there was a decline in beta-adrenergic receptor density and a rightward shift in the dose response curve to isoproterenol without a change in maximal cAMP accumulation. In mesenteric artery cells, there were no age changes in these parameters. Beta-adrenergic receptor subtype distribution was determined and was similar between all age groups and vessel types. These findings differ from whole tissue studies and suggest that cultured smooth muscle cells have limitations as a model for the aging adrenergic system.     

Decreased vascular glucose transporter expression and glucose uptake in DOCA-salt hypertension

OBJECTIVE : Because glucose uptake and metabolism can affect vascular smooth muscle cell function, we proposed that animals with hypertension might develop alterations in glucose transporter expression in vascular smooth muscle cells that were responsible for some of the vascular abnormalities characteristic of hypertension. DESIGN AND METHOD : Male Sprague-Dawley rats (250-300 g) were left uni-nephrectomized and either implanted or not with deoxycorticosterone acetate (DOCA, 200 mg/kg) impregnated silastic. All animals were fed normal rat chow. The DOCA-implanted rats were given water supplemented to 1% NaCl and 0.2% KCl for 7, 14 or 28 days. RESULTS : The insulin-response glucose transporter (GLUT4) polypeptide levels were depressed several-fold in aortae and carotid arteries from DOCA-salt hypertensive rats compared with sham rats. Uptake of the glucose analog, 2-deoxyglucose (2-DOG), was also reduced 53% in hypertensive compared with sham aortae. There were no changes in GLUT4 expression in other tissues in the DOCA-salt animals, nor were there significant changes in aortae from spontaneously hypertensive rat/stroke prone animals. As previously demonstrated, carotid arteries from DOCA-salt animals exhibited a significant increased contractile sensitivity to ergonovine. Inhibition of glucose metabolism with 2-DOG in sham arteries caused a marked enhancement of contractile responsiveness to ergonovine, whereas 2-DOG had no effect on the already enhanced contractility of DOCA-salt arteries, suggesting that reduction in glucose uptake and metabolism substantially increases the contractile response of DOCA-salt arteries. CONCLUSIONS : Alterations in glucose uptake and metabolism in vascular smooth muscle cells may participate in the contractile abnormalities characteristic of certain forms of hypertension.     

The Fischer 344/NNiaHSd X Brown Norway/BiNia is a Better Model of Sarcopenia than the Fischer 344/NNiaHSd: a Comparative Analysis of Muscle Mass and Contractile Properties in Aging Male Rat Models

Sarcopenia, characterized by profound muscle atrophy and the loss of contractile function, contributes significantly to the development of frailty and functional impairment in older age. Although present in aging humans, rat models have failed to clearly demonstrate a similar degree of this age-associated loss of muscle mass and function. This investigation compared two models of rats raised specifically for aging studies, the Fischer 344/NNiaHSd (F344/N) and the Fischer 344/NNiaHSd X Brown Norway/BiNia (F344/NXBN), and sought to determine which model provides the most accurate representation of human sarcopenia. We found that aging had no effect on F344/N muscle mass or contractile function in the extensor digitorum longus (EDL) and soleus (SOL). Conversely, in the F344/NXBN model, aging was found to decrease EDL and SOL mass and contractile function. These changes were sufficient to satisfy the proposed criteria for the diagnosis of human sarcopenia based upon muscle mass and contractile function. Results indicate that the F344/NXBN provides a better model of the alterations seen in aging human muscle than the F344/N rat model.     

老年大鼠主动脉对胰岛素敏感性的改变及其机制

目的观察大鼠主动脉对胰岛素敏感性的增龄改变并分析其可能机制。方法老年组采用老年（18月龄）SD大鼠20只,随机选取成年（15周龄）SD大鼠20只为对照组。采用离体血管灌流技术,观察胸主动脉对胰岛素反应性的变化,并同时测定两组主动脉血管一氧化氮（NO）释放量及血管一氧化氮合酶（eNOS）活性;免疫组织化学法及Western Blot法检测老年组及成年组胸主动脉eNOS的蛋白表达变化。结果胰岛素可以浓度依赖性舒张成年大鼠胸主动脉,舒血管作用具有内皮依赖性。与之相比,老年大鼠主动脉对胰岛素的舒张反应显著下降（P<0.05）。同时发现,与成年组相比,老年组NO释放量以及eNOS活性显著降低（P<0.05）,免疫组织化学染色显示老年组主动脉eNOS的蛋白表达显著降低;而Western Blot检测发现老年组血管eNOS磷酸化水平显著降低（P<0.05）。结论血管组织内源性eNOS-NO系统活性下降可能是衰老导致的血管胰岛素敏感性下降的重要机制。     

High glucose-induced upregulation of Rho/Rho-kinase via platelet-derived growth factor receptor-beta increases migration of aortic smooth muscle cells

Small GTPase Rho and Rho-kinase, the target protein of Rho, play an important role in atherosclerosis. In diabetic macroangiopathy, one of the major pathogenic changes is the migration of vascular smooth muscle cells (SMCs). Platelet-derived growth factor (PDGF) is known to stimulate the migration of SMCs. In the current study, we have investigated the involvement of the Rho/Rho-kinase pathway in the increased migration of cultured human aortic SMCs under a high glucose condition. PDGF stimulated the activation and the protein level of Rho. The protein level of PDGF receptor-β (PDGFR-β) was increased under the high glucose condition concomitant with the increased protein level and activation of Rho. The increased protein level and activity of Rho were suppressed by an anti-PDGF neutralizing antibody or a PDGFR-β inhibitor, AG1433, under the high glucose condition. Furthermore, high glucose significantly increased the migration of SMCs. A specific inhibitor of Rho-kinase, Y-27632, or anti-PDGF neutralizing antibody inhibited increased migration of SMCs under the high glucose condition. The protein levels of Rho were increased in aortae of diabetic rats, which were abolished by the treatment of Imatinib, the inhibitor of PDGFR. These observations indicate that the upregulation of the PDGFR-β / Rho / Rho-kinase pathway increases the migration of SMCs under the high glucose condition. The inhibition of Rho/Rho-kinase may be a new target for the treatment of diabetic macroangiopathy.     

Lack of effect of norfloxacin on hyperdynamic circulation in bile duct‐ligated rats despite reduction of endothelial nitric oxide synthase function: result of unchanged vascular Rho‐kinase?

Background/Aims: In cirrhosis, portal hypertension is maintained by splanchnic vasodilation owing to overproduction of the vasodilator nitric oxide (NO) and defective contractile signalling by Rho‐kinase. NO overproduction is partially caused by bacterial translocation from the gut to mesenteric lymph nodes. However, the effects of intestinal bacterial decontamination on hyperdynamic circulation or vascular contractility are unknown. We investigated the haemodynamic and vascular effects of norfloxacin in rats with secondary biliary cirrhosis. Methods: Cirrhosis was induced by bile duct ligation (BDL). One group was treated with norfloxacin (20 mg/kg/day, 5 days, orally). Bacterial growth in the lymph nodes was determined on blood agar plates. Invasive haemodynamic measurements were combined with coloured microspheres. Aortic contractility was assessed myographically. Protein expression/phosphorylation was examined by Western blot analysis. Results: Norfloxacin treatment of BDL rats abolished bacterial translocation to mesenteric lymph nodes. BDL rats had hyperdynamic circulation, including portal hypertension and splanchnic vasodilation. None of these parameters was changed by norfloxacin, although norfloxacin reduced endothelial NO synthase expression and phosphorylation. The latter was associated with a diminished activity of protein kinase G (PKG), which mediates NO‐induced vasodilation. However, norfloxacin had no effect on aortic contractility to methoxamine or Ca²⁺, or the aortic expression of RhoA, Rho‐kinase and β‐arrestin 2, or the phosphorylation of the Rho‐kinase substrate moesin. Conclusions: Short‐term treatment of BDL rats with norfloxacin does not change hyperdynamic circulation or vascular contractility, despite reduction of PKG activity.     

Loss of expression of the beta subunit of soluble guanylyl cyclase prevents nitric oxide-mediated inhibition of DNA synthesis in smooth muscle cells of old rats

We compared the effects of NO donors and cGMP analogues on the growth of aortic smooth muscle cells (SMCs) derived from newborn, adult (aged 3 months), and old (aged 2 years) rats. We found that the NO donor S-nitroso-N-acetylpenicillamine failed to block DNA synthesis in SMCs from old rats but was effective in SMCs from newborn and adult rats. However, cGMP analogues were inhibitory in all 3 SMC types. We demonstrated that in SMCs from old rats, NO was unable to increase the concentration of intracellular cGMP, suggesting that either cGMP synthesis was defective or cGMP degradation was enhanced. Western blot analysis revealed that SMCs from old rats do not express the beta subunit of soluble guanylyl cyclase. To confirm the importance of this observation in vivo, we balloon-injured the carotid arteries of adult and old rats. Whereas soluble guanylyl cyclase was expressed at the same level in the media of injured vessels and uninjured vessels of both groups, its expression in the intimas of old rats was reduced by 70% compared with intimas from adult animals. Furthermore, N(omega)-nitro-L-arginine, an inhibitor of NO synthesis, enhanced the intimal thickening in injured vessels in adult rats but not in old rats. We conclude that the loss of NO responsiveness in aged rats is due to the lack of the beta subunit of soluble guanylyl cyclase, and we speculate that this defect contributes to the enhanced intimal thickening in response to injury in old animals.