Rats with metabolic syndrome resist the protective effects of N-acetyl l-cystein against impaired spermatogenesis induced by high-phosphorus/zinc-free diet

Consumption of relatively high amounts of processed food can result in abnormal nutritional status, such as zinc deficiency or phosphorus excess. Moreover, hyperphosphatemia and hypozincemia are found in some patients with diabetic nephropathy and metabolic syndrome. The present study investigated the effects of high-phosphorus/zinc-free diet on the reproductive function of spontaneously hypertensive rats/NDmcr-cp (SHR/cp), a model of the metabolic syndrome. We also investigated the effects of antioxidant, N-acetyl-l-cysteine (NAC), on testicular dysfunction under such conditions. Male SHR/cp and control rats (Wistar Kyoto rats, WKY) were divided into three groups; rats fed control diet (P 0.3%, w/w; Zn 0.2%, w/w), high-phosphorus and zinc-deficient diet (P 1.2%, w/w; Zn 0.0%, w/w) with vehicle, or high-phosphorus and zinc-deficient diet with NAC (1.5 mg/g/day) for 12 weeks (n = 6 or 8 rats/group). The weights of testis and epididymis were significantly reduced by high-phosphate/zinc-free diet in both SHR/cp and WKY. The same diet significantly reduced caudal epididymal sperm count and motility and induced histopathological changes in the testis in both strains. Treatment with NAC provided significant protection against the toxic effects of the diet on testicular function in WKY, but not in SHR/cp. The lack of the protective effects of NAC on impaired spermatogenesis in SHR/cp could be due to the more pronounced state of oxidative stress observed in these rats compared with WKY.     

Cardiac design and pressure-volume characteristics of the left ventricle in normotensive (WKY) and hypertensive (SHR) rats after various dietary sodium treatments

Normotensive (WKY) and hypertensive rats (SHR) from 5 to 13-14 weeks of age were given 'low' (LNa; 0.5 mmol Na 100 g-1 food), 'control' (CNa; 5 or 12 mmol), 'high' (HNa; 50 mmol) and in SHR also 'medium low' (mLNa; 2 mmol) and 'very high' (vHNa; 120 mmol) sodium diets, to explore how such 240-fold variations in Na intake affect cardiac design. This was assessed in isolated perfused, temporarily-arrested hearts by recordings of left ventricular (LV) diastolic pressure-volume relationships (P/V), LV and RV weights, and by calculations of the ratio between LV wall thickness and internal radius (w/ri), after in vivo recordings of awake mean arterial pressure (MAP) and heart rate (HR). In WKY, where MAP was the same in all diet groups, the HNa group showed an increased w/ri due to a 20% reduction of LV diastolic volume, with signs of reduced wall compliance compared with CNa. The LNa WKY showed less marked changes in the same direction. In the SHR LNa group, where MAP was lowered about 20 mmHg, LV diastolic volume was reduced nearly 20% at a modest w/ri increase, while HNa and Cna SHR had equal MAP, LV weights, P/V and w/ri relationships. However, in vHNa SHR, where MAP was elevated about 25 mmHg, the LV showed a mainly eccentric hypertrophy with 15% increase of diastolic volume at a slight increase of w/ri. These differentiated, and in WKY and SHR partially differing structural cardiac adaptations consequent to changes in Na intake, can hardly be ascribed only to the respective pre- and afterload alterations, suggesting that also altered neuro-hormonal profiles may have contributed with 'trophic' influences.(ABSTRACT TRUNCATED AT 250 WORDS)     

SHR心肌细胞内钙离子浓度改变与左室肥厚和功能的关系

目的:探讨自发性高血压大鼠(SHR)心肌细胞内钙离子浓度的动态演变规律及其与左室肥厚和功能的相互关系。方法:应用Ca²⁺荧光指示剂Fura-2/AM分别测定了10周龄、22周龄、34周龄SHR心肌细胞内Ca²⁺浓度以及导管法测定了大鼠心功能,并以同龄京都-Wistar(WKY)大鼠作对照。结果:各周龄SHR收缩压(SBP)、心肌细胞内Ca²⁺浓度([Ca⁺]_i)、左室重量/体重(LVM/BW)均明显高于同龄正常血压WKY大鼠,22周龄SHR左室压力最大下降速率(-dp/dt_max)低于、左室松弛时间常数(τ)长于同龄WKY大鼠,34周龄SHR±dp／dt_max和左室收缩指数均显著低于同龄WKY大鼠,τ进一步延长;心肌细胞内[Ca⁺]_i与大鼠LVM/BW、SBP-dp／dt_max、τ呈显著正相关(r=0.47-0.83,P＜0.01),与dp／dt_max和收缩指数呈显著负相关(r=-0.46,P<0.05和-0.81,P<0.01)。结论:SHR心肌细胞内钙离子超负荷不仅介导了心肌肥厚的形成,还导致了心肌的收缩和舒张功能障碍。     

Blood pressure and heart rate responses to mental stress in spontaneously hypertensive (SHR) and normotensive (WKY) rats on various sodium diets

Normotensive (WKY) and hypertensive rats (SHR) were, from 5 to 12 weeks of age, given ‘low’ (LNa), ‘control’ and ‘high’ (HNa) Na diets (0.5, 5 and 50 mmol-100 g^-1 food, respectively, during weekly recordings of body weight, conscious indirect systolic blood pressure (SBP) and heart rate (HR). During the last week, mean arterial pressure (MAP) and HR responses to standardized stress stimuli (air jet) were recorded before and after sequential cardiac nerve blockade. While resting, SBP was about equal in all WKY groups, but it was significantly reduced in SHR-LNa (152 mmHg versus 174 and 178 mmHg in SHR controls and HNa; P < 0.05). In both LNa groups HR was elevated nearly 25% compared with controls, being in SHR 513 versus 419 bpm (P < 0.01) and in WKY 489 versus 393 bpm (P < 0.01). Cardiac nerve blockade indicated that this HR elevation was about equally due to elevations of sympathetic activity and ‘intrinsic’ pacemaker activity. SHR-LNa also showed attenuated MAP elevations to acute mental stress. There were, however, no significant differences between groups concerning haematocrit or plasma Na-K levels. The results suggest that SHR have a greater salt requirement than WKY, as Na restriction to one-tenth of normal led to a considerable MAP reduction in SHR despite compensatory sympathetic activation, and also to attenuated pressor responses to mental stress. Further, the cardiovascular effects in SHR were much more extensive when on a low-Na diet than when Na intake was increased tenfold above normal.     

Structural adaptation of the rat left ventricle in response to changes in pressure and volume loads

Female Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) were used to explore the structural changes of cardiac dimensions in connection with a sustained hyperkinetic circulation, as induced by pregnancy or thyroxine administration. Cardiac design was assessed by recordings of the diastolic left ventricular pressure-volume relationships in isolated arrested hearts. Left ventricular weight: body weight and end-diastolic volume (EDV) for given end-diastolic pressures (EDP), were both increased about 50% in control SHR, with a marginal reduction of the wall:lumen ratio (w:ri) compared with control WKY. During the hyperkinetic circulatory states of pregnancy and hyperthyroidism, EDV was in WKY increased about 30% and 50%, respectively, with concomitant w:ri reductions. In SHR pregnancy did not significantly alter left ventricular dimensions, whereas EDV was increased by about 20% in hyperthyroid SHR. Thus, the rat left ventricle can, within 3 weeks, markedly alter not only the wall mass but also, and independently, the luminal design in response to different haemodynamic interventions. Early established SHR hypertension is characterized mainly by eccentric left ventricular hypertrophy, despite the elevated arterial pressure. Volume overloads in WKY due to pregnancy or hyperthyroidism can induce marked structural widening of the left ventricle. In SHR these structural luminal changes were only minor, perhaps because considerable eccentric hypertrophy is already present. Such a structural cardiac enlargement may allow delivery of an increased stroke volume for a given myocardial fibre shortening.     

Mechanical function,glycolysis, and ultrastructure of perfused working mouse hearts following thoracic aortic constriction

BackgroundGlycolytic flux in the mouse heart during the progression of left ventricular hypertrophy (LVH) and mechanical dysfunction has not been described.MethodsThe main objectives of this study were to characterize the effects of thoracic aortic banding, of 3- and 6-week duration, on: (1) left ventricular (LV) systolic and diastolic function of perfused working hearts quantified by analysis of pressure–volume loops; (2) glycolytic flux in working hearts expressed as the rate of conversion of ³H-glucose to ³H₂O, and (3) ultrastructure of LV biopsies assessed by quantitative and qualitative analysis of light and electron micrographs.ResultsResults revealed that (1) indexes of systolic function, including LV end-systolic pressure, cardiac output, and rate of LV pressure development and decline, were depressed to similar degrees at 3 and 6 weeks post-banding; (2) diastolic dysfunction, represented by elevated LV end-diastolic pressure and volume, was more severe at 6 than at 3 weeks, consistent with a transition to failure; (3) a progressive decline in glycolytic flux that was roughly half the control rate by 6 weeks post-banding; and (4) structural derangements, manifested by increases in interstitial collagen content and myocyte Z-band disruption, that were more marked at 3 weeks than at 6 weeks.ConclusionThe results are consistent with the view that myocyte damage, fibrosis, and suppressed glycolytic flux represent maladaptive structural and metabolic remodeling that contribute to the development of failure in high pressure load-induced LVH in the mouse.     

Expression and activity of the glutamate transporter EAAT2 in cardiac hypertrophy: implications for ischaemia reperfusion injury

The expression and activity of the glutamate transporter, excitatory amino acid transporter 2 (EAAT2), in cardiac hypertrophy were investigated with respect to glutamate’s potential as a cardioprotective agent. Sarcolemmal vesicles (SV) isolated from hypertrophic hearts of male spontaneously hypertensive rats (SHR) or normotrophic hearts from age-matched male Wistar Kyoto rats (WKY) were used to measure the relative level of EAAT2 expression by Western blotting and the initial rate of 0–0.3 mM l-[¹⁴C]glutamate uptake. The effects of 20-min global normothermic ischaemia ±0.5 mM glutamate on cardiac function were measured in isolated working SHR/WKY hearts. In a separate series of hearts, glutamate, lactate and ATP levels were measured. Both the level of EAAT2 expression and the V _max for sodium-dependent l-[¹⁴C]glutamate uptake were significantly greater in SHR SV compared to WKY SV. The reperfusion cardiac output (CO) of SHR hearts was significantly worse than that of the WKY hearts (24.3±2.2 ml/min vs 39.8±3.3 ml/min, n=7/9±SE, p<0.01). The addition of 0.5 mM l-glutamate improved the SHR reperfusion CO to 45.2±5 ml/min, (n=6±SE, p<0.01) but had no effect on WKYs (46.2±3.8 ml/min, n=6±SE). SHR with 0.5 mM l-glutamate had higher glutamate levels at the start of ischaemia, plus higher glutamate and ATP levels at the end of ischaemia compared to any other group. These results suggest that increased glutamate transporter expression and activity in the SHR hearts helped facilitate glutamate entry into the SHR cardiomyocytes leading to improved myocardial metabolism during ischaemia and better functional recovery on reperfusion.     

Blood pressure and heart rate responses to mental stress in spontaneously hypertensive (SHB) and normotensive (WKY) rats on various sodium diets

Normotensive (WKY) and hypertensive rats (SHR) were, from 5 to 12 weeks of age, given 'low' (LNa), 'control' and 'high' (HNa) Na diets (0.5, 5 and 50 mmol X 100 g-1 food, respectively, during weekly recordings of body weight, conscious indirect systolic blood pressure (SBP) and heart rate (HR). During the last week, mean arterial pressure (MAP) and HR responses to standardized stress stimuli (air jet) were recorded before and after sequential cardiac nerve blockade. While resting, SBP was about equal in all WKY groups, but it was significantly reduced in SHR-LNa (152 mmHg versus 174 and 178 mmHg in SHR controls and HNa; P less than 0.05). In both LNa groups HR was elevated nearly 25% compared with controls, being in SHR 513 versus 419 bpm (P less than 0.01) and in WKY 489 versus 393 bpm (P less than 0.01). Cardiac nerve blockade indicated that this HR elevation was about equally due to elevations of sympathetic activity and 'intrinsic' pacemaker activity. SHR-LNa also showed attenuated MAP elevations to acute mental stress. There were, however, no significant differences between groups concerning haematocrit or plasma Na-K levels. The results suggest that SHR have a greater salt requirement than WKY, as Na restriction to one-tenth of normal led to a considerable MAP reduction in SHR despite compensatory sympathetic activation, and also to attenuated pressor responses to mental stress. Further, the cardiovascular effects in SHR were much more extensive when on a low-Na diet than when Na intake was increased tenfold above normal.     

Recovery of hypertrophied rat hearts after global ischemia and reperfusion at different perfusion pressures

The ability to resist transient ischemia was studied in isolated hearts of 18 months old spontaneously hypertensive (SHR) and Wistar-Kyoto (WKY) rats. Both types of hearts showed optimal performance during the preischemic period when perfused at a diastolic perfusion pressure of 8.0 (WKY) and 13.3 (SHR) kPa. Hemodynamic recovery of WKY hearts during reperfusion at 8.0 kPa, following 45 min global ischemia, was satisfactory. Coronary perfusion completely normalized, contractility (dP _lv/dt _max) was slightly depressed and cardiac output returned, on the average, to 40% of the preischemic values. In contrast, hemodynamic function of SHR hearts reperfused at 13.3 kPa was greatly depressed, as evidenced by almost complete abolition of cardiac output, severe reduction ofdP _lv/dt _max and persistent underperfusion of the endocardial layers. In addition, the postischemic release of lactate dehydrogenase was retarded and enhanced. The release patterns of degradation products of adenine nucleotides showed a shift to the endstage produets xanthine and uric acid. The enhanced vulnerability of the hypertrophied heart to ischemia was even more expressed when the SHR hearts were reperfused at 8.0 kPa. Postischemic function was characterized by electrical instability, loss of contractility and cardiac output, and noreflow in the endocardial layers. Persistent accumulation of lactate and degradation products of adenine nucleotides in the postischemic hearts are in line with the lack of reperfusion. The present results indicate that a detailed mechanistic explanation for the reduced ability to withstand ischemia of SHR cannot be based on differences in ATP content or an altered anaerobic glycolitic activity prior and during ischemia. It is suggested that a defect on the circulatory level, probably caused by enhanced reactivity of the coronary vessels towards ischemia-elicited factors, is responsible for the higher vulnerability of hypertrophied heart to an ischemia insult.Supported by Medigon/NWO (grant number 900516091)     

纤维粘连蛋白对培养的自发性高血压大鼠心肌成纤维细胞增殖及胶原合成的影响

目的:观察纤维粘连蛋白(FN)对培养的SHR和WKY大鼠心肌成纤维细胞(CFb, CFb_SHR, CFb_WKY)增殖及胶原合成的影响。方法:CFb取自12周的SHR和WKY大鼠, 采用组织块贴壁法培养, 以直接细胞计数法和 [³H]-TdR掺入率反映细胞增殖, 以[³H]-脯氨酸([³H]-proline)掺入率反映胶原合成。使用FN(5 μg/cm²)预先处理24孔培养板。 结果: 与0.4% FCS对照组相比, 经72 h孵育FN明显促进CFb_SHR和CFb_WKY细胞数增多, 分别为对照组的163.75%(CFb_SHR)和170.42%(CFb_WKY)。FN促进CFb_SHR和CFb_WKY [³H]-TdR掺入增加。FN促进CFb_SHR和CFb_WKY[³H]-proline掺入增加。 结论:FN促进SHR和WKY大鼠的CFb增殖及胶原合成。     

Diastolic properties of the hypertrophied left ventricle in spontaneously hypertensive rats

The influence of myocardial hypertrophy on left ventricular volume compliance was studied in vitro in isolated hearts of 4 and 19 month old spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto rats (WKY). In both SHR groups diastolic volume compliance was similar to that in the controls, despite the presence of left ventricular hypertrophy. This seems to be mainly due to an altered geometric situation, since with increased wall thickness to internal radius ratio (w/ri), which was at hand, the less are outer myocardial layers stretched at a given increase in ventricular volume. This may imply that these layers will only little interfere with luminal distension (and thereby with diastolic volume compliance) in SHR. It was also observed that the progressive increase of ventricular hypertrophy from 4 to 19 months of age did not further increase w/ri in SHR, indicating an increase in overall ventricular size with age. Left ventricular end diastolic pressure (LVEDP) was also measured in conscious 5 week and 4 month old SHR compared with matched controls. LVEDP increased with the development of hypertension and was significantly elevated in 4 month old SHR. This will increase also the average diastolic pre-stretch of the SHR left ventricle and mobilize the "Starling mechanism" to maintain a normal stroke volume against the increased afterload for the heart in established hypertension. This seems particularly important since the hypertrophic w/ri increase (about 20%) is smaller than the great elevation of mean arterial pressure (40-50%) in SHR.     

Renal dopamine and noradrenaline excretion during CNS‐induced natriuresis in spontaneously hypertensive rats: influence of dietary sodium

Abnormalities in dopamine (DA) and noradrenaline (NA) activities and sodium handling may be involved in the pathogenesis of hypertension. The present study was designed to investigate whether any differences exist between normotensive Wistar–Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) in urinary excretion of DA, NA and sodium after 15 weeks on a low, medium or high sodium diet and during a subsequent elevation of the cerebroventricular fluid sodium concentration (CNS‐induced natriuresis). Seven features were noted: (1) Basal sodium and DA excretion after the diet regimen was correlated to the dietary sodium content in both strains, except that sodium and DA excretion in SHR showed no further increase after the high sodium diet over and above that after medium sodium diet. (2) For any given sodium diet, SHR excreted more DA and NA as compared with WKY. (3) Blood pressure in SHR, as opposed to that in WKY, was higher after medium and high sodium diet than after low sodium diet. (4) During CNS‐induced natriuresis NA excretion decreased or remained unchanged in WKY, but increased in SHR. (5) The DA/NA excretion ratio during CNS‐induced natriuresis increased in WKY while decreased in SHR, which would not favour a natriuretic/vasodilatory response in the latter. (6) The ability of SHR to respond with CNS‐induced natriuresis was attenuated after high sodium diet. (7) The magnitude of CNS‐induced natriuresis was in both strains correlated to the sodium diet; the higher the dietary sodium content, the greater the natriuretic response. In conclusion, the study shows some clear differences in the catecholamine and sodium handling between WKY and SHR which may be involved in the pathogenesis of hypertension in SHR. Furthermore, increased sodium in the diet sensitizes the brain and kidney to increase the ability to respond with natriuresis for a given sodium stimulus.     

Myocardial vasoactive intestinal peptide and fibrosis induced by nitric oxide synthase inhibition in the rat

AIMS: In both normotensive and hypertensive rats, the degree of myocardial fibrosis is inversely correlated with the concentration of vasoactive intestinal peptide (VIP) in the myocardium. Treatment with nitric oxide (NO) synthase inhibitors also causes myocardial fibrosis. In this study, we sought to determine whether the myocardial fibrosis induced by treatment with the NO synthase inhibitor N(G)-nitro-l-arginine methyl ester (l-NAME) was also associated with depletion of VIP in the myocardium. METHODS: Male Wistar Kyoto (WKY) and spontaneous hypertensive rats (SHR) rats treated with l-NAME were randomized to low, intermediate or high salt content diets. After 4 weeks, the hearts were harvested, the degree of fibrosis quantified and VIP concentration measured. RESULTS: In WKY, systolic blood pressure increased with increasing dietary sodium (P < 0.05). Myocardial fibrosis also increased with increasing dietary sodium (P < 0.005). Myocardial VIP concentration decreased with increasing dietary sodium (P < 0.025). In contrast, in the SHR treated with l-NAME, systolic blood pressure increased but the increase was not affected by sodium intake. Further, myocardial fibrosis and myocardial VIP were unchanged by increased dietary sodium. Higher doses of l-NAME in the SHR did not increase the systolic blood pressure, increase the degree of myocardial fibrosis or decrease the myocardial concentration of VIP. These differences in myocardial VIP concentration may reflect differing effects of l-NAME on VIP metabolism, as l-NAME increased VIP metabolism in the WKY (P < 0.05) but did not change VIP metabolism in the SHR. CONCLUSIONS: We conclude that depletion of VIP in the myocardium is associated with increasing myocardial fibrosis in l-NAME treated WKY. As VIP depletion occurs in other models of myocardial fibrosis, it appears to be a common mechanism. Myocardial VIP depletion may therefore be a new and important factor in the pathogenesis of cardiac fibrosis.     

Lithium chloride stabilizes systolic blood pressure and increases adrenal catecholamines in the spontaneously hypertensive rat

The effects of daily, intraperitoneal injections of LiCl (3 mEq/kg) on systolic blood pressure (SBP) and adrenal catecholamine levels were measured in spontaneously hypertensive rats (SHR) and in normotensive Wistar-Kyoto rats (WKY). Control animals from each strain were injected with equivalent volumes (0.1 ml/100 g b.wt.) of 0.9% saline (0.15 mEq/kg). SBP in LiCl-treated SHR was significantly lower (p less than 0.05) than that of saline-treated SHR (177 +/- 7 vs. 196 +/- 4 mm Hg, respectively) after one week. After two weeks SBP was lower in LiCl SHR than in saline controls, but this difference was not significant. While SBP of both LiCl and saline treated WKY was not significantly different (146 +/- 4 vs. 147 +/- 8 mm Hg, respectively), SBP in both WKY groups remained lower than the SBP for either group of SHR. LiCl induced a significant weight loss in the SHR, but not in the WKY. Adrenal norepinephrine and epinephrine were significantly (p less than 0.05) higher in LiCl-treated rats of both strains; dopamine was also higher in LiCl-treated rats of both strains, but significant only between SHR-LiCl and SHR controls. It appears that LiCl's effect in slowing the development of hypertension is independent of its action on adrenal catecholamines. The SHR's increased sensitivity to LiCl, relative to weight loss and SBP, may reflect differences in genetic or physiological status of the animal compared to WKY. These differences may be associated with alterations in membrane ion transport systems.     

The effects of running exercise on oxidative capacity and PGC-1α mRNA levels in the soleus muscle of rats with metabolic syndrome

Skeletal muscles in animals with metabolic syndrome exhibit reduced oxidative capacity. We investigated the effects of running exercise on fiber characteristics, oxidative capacity, and mRNA levels in the soleus muscles of rats with metabolic syndrome [SHR/NDmcr-cp (cp/cp); CP]. We divided 5-week-old CP rats into non-exercise (CP) and exercise (CP-Ex) groups. Wistar-Kyoto rats (WKY) were used as the control group. CP-Ex rats were permitted voluntary exercise on running wheels for 10 weeks. Triglyceride levels were higher and adiponectin levels lower in the CP and CP-Ex groups than in the WKY group. However, triglyceride levels were lower and adiponectin levels higher in the CP-Ex group than in the CP group. The soleus muscles in CP-Ex rats contained only high-oxidative type I fibers, whereas those in WKY and CP rats contained type I, IIA, and IIC fibers. Muscle succinate dehydrogenase (SDH) activity was higher in the CP-Ex group than in the CP group; there was no difference in SDH activity between the WKY and CP-Ex groups. Muscle proliferator-activated receptor γ coactivator-1α (PGC-1α) mRNA levels were higher in the CP-Ex group than in the CP group; there was no difference in PGC-1α mRNA levels between the WKY and CP-Ex groups. In CP-Ex rats, longer running distance was associated with increased muscle SDH activity and PGC-1α mRNA levels. We concluded that running exercise restored decreased muscle oxidative capacity and PGC-1α mRNA levels and improved hypertriglyceridemia in rats with metabolic syndrome.     

Renal sodium excretion after oral or intravenous sodium loading in sodium-deprived normotensive and spontaneously hypertensive rats

Spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) rats that had been on a low sodium diet for 3 days were given 1.5 mmol sodium chloride kg^-1 body weight either orally or intravenously. The rats receiving an oral sodium load showed a greater natriuresis than those receiving the same saline load intravenously. No increase of renal sodium excretion was observed when the rats received a hypertonic mannitol solution orally. The cumulative sodium excretion during the 8 h following oral loading was two to three times larger in SHR than in WKY, whereas no difference between strains could be demonstrated after giving saline intravenously. Furthermore, after switching from normal to low sodium diet the rate of decrease of renal sodium excretion was greater in SHR than in WKY rats. It is proposed that there exists a gastrointestinal sensory mechanism for sodium controlling the renal sodium excretion. Furthermore, it is suggested that the function of this mechanism differs between SHR and WKY.     

Traits of the metabolic syndrome alter corpulent obesity in LAN, SHR and DSS rats: behavioral and metabolic interactions with adrenalectomy

Obesity results from a complex interaction of genes with environmental factors. Our experimental design compared obesity in three rat strains with the corpulent (cp) mutation. The three strains included Lister and Albany NIH (LAN) rats, Spontaneously Hypertensive Rats (SHR) and Dahl Salt Sensitive (DSS) rats that were congenically bred. The strains were selected because of different reported metabolic complications generally clustered with obesity, and defined as the metabolic syndrome. Body weight, food intake, carcass composition, plasma hormones and hypothalamic expression of Y5 receptors were assessed in obese (cp) and lean (wt) rats after adrenalectomy (ADX) or sham surgeries. Plasma corticosterone in sham-operated wtDSS and cpDSS were significantly higher (approx. 165 ng/ml) than that in cpLAN and cpSHR (~ 77 and 68 ng/ml respectively). All cp groups had a higher % carcass fat than wt groups. The % carcass fat was greater in cpDSS > cpLAN > cpSHR but plasma leptin was greatest in cpLAN > cpSHR > cpDSS. Hypothalamic expression of the Y5R after ADX resulted in a phenotype × surgery interaction since Y5R expression was slightly increased in cp rats and slightly decreased in wt rats. The strain with greatest number of metabolic syndrome traits, SHR, was not the fattest of the strains and had little response to ADX. The strains with fewer metabolic syndrome traits LAN and DSS had more extreme obesities which were attenuated after ADX. The results of the current experiment provide evidence that the corpulent mutation is not fully characterized in one strain.