Cell culture model predicts human disease: Altered expression of junction proteins and matrix metalloproteinases in cervical dysplasia

Background

LAT1/4F2hc heterodimeric complex is a major route for the transport of large neutral essential amino acids through the plasma membrane. Although it has been shown that LAT1/4F2hc is highly expressed in a variety of human tumors including gliomas, and LAT1 over-expression is associated with glioma grade and poor prognosis of glioma patients, the precise tissue location of LAT1/4F2hc in gliomas and the precise role of LAT1/4F2hc in glioma biological features remain unclear.

Methods

In the current study, the expressions of LAT1, 4F2hc, CD34 and Ki-67 were investigated by immunohistochemistry in 62 cases of human brain glioma; LAT1/4F2hc expression level, Ki-67 labeling index (Ki-67 LI) and microvessel density (MVD) were measured semi-quantitatively; and the correlation of LAT1/4F2hc expression with histopathological features, Ki-67 LI and MVD in gliomas was further analyzed.

Results

The results showed that both LAT1 and 4F2hc were expressed in all examined specimens. LAT1 but 4F2hc expression levels significantly correlated with the pathological grade and both expression levels significantly correlated with Ki-67 LI of gliomas. We also demonstrated that both LAT1 and 4F2hc immunoreactivity were observed in tumor cells as well as vascular endothelia; furthermore, the LAT1 expression level was markedly associated with glioma MVD as well.

Conclusion

LAT1/4F2hc over-expression is closely correlates with the malignant phenotype and proliferation of gliomas, and LAT1 was associates with glioma angiogenesis. LAT1/4F2hc, especially LAT1, may become a novel potential molecular target for glioma biological therapy.     

Brain dopamine D2 receptor mRNA levels are elevated in young spontaneously hypertensive rats

Levels of brain dopamine D2 receptor expression were compared between spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) controls by quantitative in situ hybridisation, using a complementary RNA probe for D2 receptor mRNA. In SHR which were 6 weeks of age, significantly higher levels of D2 receptor mRNA were found in the caudate-putamen (42%), nucleus accumbens (23%), olfactory tubercle (17%) and substantia nigra (38%) compared to age-matched WKY controls. D2 receptor mRNA levels were also higher in the substantia nigra (27%) of 12-14-week old SHR compared to WKY. The increased levels of dopamine D2 receptor gene expression displayed in young prehypertensive SHR could implicate altered central dopaminergic activity in the pathogenesis of hypertension.     

Expression of LAT1 predicts risk of progression of transitional cell carcinoma of the upper urinary tract

L-type amino acid transporter 1 (LAT1), a neutral amino acid transporter, requires covalent association with the heavy chain of 4F2 cell surface antigen (4F2hc) for its functional form. We investigated the importance of LAT1 and 4F2hc expressions to progression in upper urinary tract cancer. We examined their expressions and their relationships to clinicopathologic parameters and clinical outcome in 124 cases. Positive expressions of LAT1 (protein and messenger ribonucleic acid) and 4F2hc (protein) were recognized in 79.8, 89.5, and 87.9% of tumor samples, respectively. In tumor cells, LAT1 protein was detected either as nodular granules within the cytoplasm or diffusely within the cytoplasm and/or on plasma membrane. In the normal urothelium, its expression was detected as nodular granules within the cytoplasm. A correlation with stage was shown for LAT1 protein expression and for a cooperative expression of LAT1 protein with 4F2hc protein (active form of LAT1 protein). Further, in all tumors, a cooperative expression of LAT1 protein and 4F2hc protein was significantly correlated with both overall and disease-free survival rates in the univariate analysis but not in the multivariate analysis. In conclusion, the detection of the active form of LAT1 protein would appear to be of value in informing the risk of progression in transitional cell carcinoma of the upper urinary tract.     

Renal function and sympathetic activity during mental stress in normotensive and spontaneously hypertensive rats

The aim of the present study was to explore the role of the renal sympathetic nerves in the urinary sodium excretion response to ‘mental stress’ in spontaneously hypertensive rats (SHR). In conscious male SHR and male Wistar Kyoto rats (WKY) urinary sodium excretion and renal function were measured both during ‘rest’ and during a 20 min period of ‘mental stress’. Experiments were also performed on renal denervated rats. In addition, renal sympathetic activity was measured in a separate group of rats. Urinary sodium excretion, similar at rest in SHR and WKY, decreased significantly more during the stress period in SHR (-64±5%) than in WKY (-34±7%), despite a greater arterial pressure increase in SHR. Renal sympathetic nerve activity which already at rest was higher in SHR than in WKY, also increased much more in SHR during stress than in WKY. The more intense renal sympathetic activation during stress may explain the greater reduction in urinary sodium excretion in SHR, because renal denervation almost abolished this latter response. Thus, during ‘mental stress’ the increased renal sympathetic activity reduces urinary sodium excretion in SHR despite the pressure rise, perhaps explaining why renal denervation delays the rise in arterial pressure in young SHR. The tachycardia response in SHR gradually subsided towards the end of the stress period, while renal sympathetic activity remained elevated. This indicates that neurogenic heart rate increases if anything underestimate the extent of sympathetic activation to e. g. the renal and splanchnic regions during increased alertness.     

Significance of System L Amino Acid Transporter 1 (LAT-1) and 4F2 Heavy Chain (4F2hc) Expression in Human Developing Intestines

To clarify the significance of expression of system L amino acid transporter 1 (LAT1) and 4F2 heavy chain (4F2hc) in the developing intestine, immunohistochemical investigation and molecular analysis were performed in the human embryonic and/or fetal intestines, ranging from 28–30 days to 34–35 weeks gestation. The molecular analysis for the expression of LAT1 and 4F2hc mRNAs was done in the pure epithelial cell samples prepared after laser assisted microdissection. The immunoreactivities against LAT1 and 4F2hc were detected along the basolateral cell membrane of the primitive gut epithelium at 28–30 days gestation. According to advance in gestational age of up to 24–25 weeks gestation, the immunoreactivity of LAT1 was predominantly observed in the supranuclear cytplasmic localization with a granular or dot-like staining pattern. Up to 8–9 weeks gestation, the immunoreactivity of 4F2hc showed almost the same as that of LAT1. However, after the age of 12–13 weeks gestation, the immunoreactivity of 4F2hc was predominantly localized along the cell membrane of apical surface of the epithelial cells. No apical and linear membranous localization of LAT1 was observed until nearly 20 weeks gestation. In the late gestational stage, both the immunoreactivities against LAT1 and 4F2hc were localized along the apical surface of the epithelial cells. In conclusion, the expression of LAT1 and 4F2hc in early developing intestine suggests they have a more important role in cell proliferation rather than functional differentiation. The predominant cytoplasmic localization of LAT1 during mid-fetal life seems to be largely inactive as amino acid transporter. On the other hand, the apical and linear membranous co-localization of LAT1 and 4F2hc in the late fetal life suggests that these molecules may play a role as a functional amino acid transporter in the fetal intestinal epithelium.     

Methylphenidate normalizes elevated dopamine transporter densities in an animal model of the attention-deficit/hyperactivity disorder combined type,but not to the same extent in one of the attention-deficit/hyperactivity disorder inattentive type

The spontaneously hypertensive rat (SHR/NCrl) is a validated model of attention-deficit/hyperactivity disorder (ADHD) combined subtype, whereas a recently identified substrain of the Wistar Kyoto rat (WKY/NCrl) is a model of ADHD inattentive subtype. In this study, we first examined the expression of genes involved in dopamine signaling and metabolism in the dorsal striatum and ventral mesencephalon of these two rat strains, as well as three reference control strains (WKY/NHsd, WK/HanTac, and SD/NTac) using quantitative real time RT-PCR. Next, striatal dopamine transporter (DAT) density was determined by ligand binding assay in the two ADHD-like strains at different developmental stages and after methylphenidate treatment. In adult rats, the mRNA expression of DAT and tyrosine hydroxylase was elevated in SHR/NCrl and WKY/NCrl rats compared to control strains, with differences between SHR/NCrl and WKY/NCrl rats also evident. During normal development, changes of striatal DAT densities occurred in both strains with lower densities in WKY/NCrl compared to SHR/NCrl after day 25. Two-weeks methylphenidate treatment during different developmental stages was associated with decreased striatal DAT density in both rat strains compared to the non-treated rats with more pronounced effects followed prepubertal treatment. These results suggest differences in the pathophysiology of the combined versus the predominantly inattentive animal model of ADHD. Finally, treatment with methylphenidate might reduce elevated DAT levels more effectively in the combined subtype especially when applied before puberty.     

Renal vascular resistance and reactivity in the spontaneously hypertensive rat.

Renal vascular resistance is elevated in spontaneously hypertensive rats (SHR) when compared to normotensive control Wistar-Kyoto rats (WKY). The present study examined possible determinants of this raised vascular resistance in in situ autoperfused kidneys of pentobarbital-anesthetized, 12- to 16-wk-old SHR and WKY. Over a wide range of arterial pressures (30--100 mmHg) renal blood flow was consistently higher in WKY than in SHR. This relative flow difference was unchanged by acute renal denervation, with renal vascular resistance decreasing approximately 20% in both strains. Changes in renal vascular resistance to renal nerve stimulation and the administration of intra-arterial vasoactive hormones also were assessed. Vascular responses to renal nerve stimulation, tyramine, angiotensin II, and acetylcholine were similar in kidneys of the two strains, but reactivity to norepinephrine was significantly less in kidneys of SHR. It was concluded that elevated renal vascular resistance in the SHR does not result from an excessive neurogenic influence on the renal vasculature or from vascular hyperreactivity to norepinephrine or angiotensin II.     

Increased 3,4-dihydroxyphenylacetic acid (DOPAC) levels in spontaneously hypertensive rats (SHR) during the development of hypertension

Central dopaminergic neuronal activity was investigated in the spontaneously hypertensive rat (SHR) using an in vivo cerebrospinal fluid (CSF) sampling technique. Increased central dopaminergic activity in the SHR was indicated by a significant (P less than 0.05) elevation in CSF levels of DOPAC relative to both Wistar-Kyoto and Sprague-Dawley control strains. The increased levels of CSF DOPAC were present at 5, 10 and 16 weeks of age. Homovanillic acid and 5-hydroxyindoleacetic acid levels were significantly (P less than 0.05) greater in SHR than WKY at 16 weeks. The possible role of central dopaminergic neurons in the pathogenesis of hypertension in the SHR was discussed.     

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.     

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.     

Connexin abundance in resistance vessels from the renal microcirculation in normo‐ and hypertensive rats

The expression of connexins in renal arterioles is believed to have a profound impact on conducted responses, regulation of arteriolar tonus and renal blood flow. We have previously shown that in renal preglomerular arterioles, conducted vasomotor responses are 40% greater in spontaneously hypertensive rats (SHR) than in normotensive Sprague–Dawley (SD) rats. Because conducted vasomotor responses depend on the cell–cell communication mediated through gap junctions, we hypothesized that the increased magnitude of conducted vasomotor response in SHR is associated with an increased amount of connexins in renal arterioles. To test this hypothesis, the amount of connexin 37 (Cx37), Cx40 and Cx43 was assessed in renal arterioles from normo‐ and hypertensive rats using quantitative immunofluorescence laser confocal miscroscopy. To account for differences in genetic background, we included both normotensive Wistar–Kyoto (WKY) and SD rats in the study. In all three strains of rats, and for all three isoforms, the expression of connexins was predominantly confined to the endothelial cells. We found a significantly increased abundance (240 ± 17.6%, p<0.05) of Cx37 in arterioles from WKY compared with SD and SHR. This high abundance of Cx37 was not related to blood pressure because normotensive SD demonstrated a level of Cx37 similar to that of SHR. Additionally, we found no evidence for an increased abundance of Cx40 and Cx43 in renal arterioles of SHR when compared with normotensive counterparts.     

Renal sympathetic activity in spontaneously hypertensive rats and normotensive controls, as studied by three different methods

Recordings of sympathetic activity from multifibre preparations of renal nerves have produced conflicting results concerning the presence or absence of an increased sympathetic discharge in spontaneously hypertensive rat (SHR) compared to normotensive Wistar-Kyoto rats (WKY). Therefore, recordings of single fibre activity to the kidney were performed in anesthetized SHR and WKY in comparison with multifibre recordings in conscious, undisturbed rats. A new method of estimating sympathetic discharge by analyzing the variability of "cycle activity" in multifibre nerve recordings was also used. The average nerve activity in a great number of cardiac cycles was then expressed in relation (in per cent) to the nerve activity in a small number of cardiac cycles with the highest and lowest nerve activity in each rat. Single fibre recordings showed a significantly higher sympathetic activity to the kidneys in SHR (3.8 +/- 0.3 Hz) than in WKY (1.7 +/- 0.2 Hz; p less than 0.001). Also average "cycle activity" was significantly higher in conscious SHR (34 +/- 1%) than in WKY (26 +/- 2%, p less than 0.01). This was due to the larger number of cardiac cycles in SHR with high sympathetic activity while WKY showed more of "silent" cardiac cycles which lacked nerve impulses. Further, the recordings of rectified multifibre renal nerve activity also showed an elevated sympathetic activity in conscious SHR rats. The increased renal sympathetic activity appears to reflect the "primary" central nervous "hyperreactivity" characterizing SHR hypertension. It is suggested that the increased renal sympathetic activity may be of particular importance for the development of primary hypertension in SHR and perhaps also in man.     

Cisplatin-induced nephrotoxicity causes altered renal hemodynamics in Wistar Kyoto and spontaneously hypertensive rats: Role of augmented renal alpha-adrenergic responsiveness

The pathogenesis of cisplatin-induced renal failure is related to reduced renal blood flow due to severe tubular damage and enhanced renovascular resistance. It is also known that alpha(1)-adrenoceptors, the major subtype of alpha-adrenoceptors in renal vasculature play the pivotal role in regulating renal hemodynamics. With this background, we have hypothesized that the altered renal hemodynamics and enhanced renovascular resistance in cisplatin-induced renal failure might be caused by the altered alpha-adrenergic responsiveness with a possible involvement of alpha(1)-adrenoceptors in the renal vasculature. In a unique experimental approach with anesthetized rats, this study has therefore examined if there is any shift in the renovascular responsiveness to renal nerve stimulation and a series of alpha-adrenergic agonists in Wistar Kyoto (WKY) and spontaneously hypertensive (SHR) rats with cisplatin-induced renal failure in comparison with their body weight-matched normal controls. Thirty-two male rats of both WKY (n=16) and SHR (n=16) origin with body weight 236+/-7.9 g received cisplatin (5mg/kg i.p.). The renal failure was confirmed in terms of significantly reduced renal blood flow, reduced creatinine clearance, increased fractional excretion of sodium, increased kidney index (all P<0.05) and tubular damage. After 7 days of cisplatin, the overnight fasted rats were anesthetized (sodium pentobarbitone, 60 mg/kg i.p.) and renal vasoconstrictor experiments were done. The changes in the vasoconstrictor responses were determined in terms of reductions in renal blood flow caused by electrical renal nerve stimulation or intrarenal administration of noradrenaline, phenylephrine and methoxamine. It was observed that in the cisplatin-treated renal failure WKY and SHR rats there were significant (all P<0.05) reductions in the renal blood flow along with significantly (P<0.05) higher renal adrenergic responsiveness as compared with their non-renal failure controls. The data showed that in the renal failure WKY and SHR rats, the altered renal hemodynamics might be caused by an augmented renal adrenergic responsiveness. The results obtained further led us to suggest that the augmented renal adrenergic responsiveness in the cisplatin-induced renal failure rats were possibly mediated by the alpha(1)-adrenoceptors.     

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.     

Altered hemodynamic responses to acute hypoxemia in spontaneously hypertensive rats.

Conscious spontaneously hypertensive rats (SHR), 5--7 wk old, were studied hemodynamically by the direct Fick procedure to determine whether high total peripheral resistance (TPR) coexisted with increased oxygen consumption (QO2) at an early stage of hypertension development. Since under resting conditions cardiac output in SHR was not significantly different from normotensive controls, the elevated arterial pressure and QO2 were associated with increased TPR. Arterial hypoxemia was induced to reduce oxygen availability and to assess whether increased TPR in SHR could be reversed by this procedure. During hypoxemia, normotensive controls (WKY) responded with increased cardiac output and decreased arterial pressure and TPR. In contrast, arterial pressure and cardiac output fell in SHR; and the increased TPR persisted. QO2 fell in hypoxemic SHR demonstrating that the relationship between total body oxygen consumption and cardiac output was abnormal in young SHR, and that increased TPR in SHR was not dependent on resting levels of QO2 or oxygen availability. Although QO2 was elevated in SHR compared to age-matched WKY, this condition was not essential for maintained elevated vascular resistance.     

ADMA对交感神经损毁自发性高血压大鼠血压和肾功能的作用

目的:探讨不对称二甲基精氨酸(ADMA)对交感神经损毁自发性高血压大鼠(SHR)血压和肾功能的作用。方法:新生雄性SHR随机分成交感神经损毁组和对照组,采用单硫酸胍乙啶损毁新生SHR的交感神经。12周后测量常温下鼠尾血压;代谢笼法收集大鼠尿液,检测去甲肾上腺素(NE)排泄量;高效液相色谱法检测肾脏NE和ADMA含量;比色法检测大鼠肾脏一氧化氮(NO)含量;Western blot法测定内皮型一氧化氮合酶(e NOS)的表达;通过检测肾小球滤过率(GFR)评价肾脏功能。结果:与对照组相比,交感神经损毁组尿NE排泄量以及肾脏NE和ADMA含量均明显降低,肾脏NO含量和e NOS表达显著升高,收缩压和舒张压明显降低(P0.05),24 h尿微量白蛋白、尿钠量和GFR未见明显差异。结论:抑制交感神经系统可引起ADMA和NE释放减少,NO合成和e NOS表达升高,从而对血压产生调节作用;但交感神经系统对ADMA生成的调控并不是通过影响肾脏功能来实现的。     

The effect of renal perfusion pressure on renal vascular resistance in the spontaneously hypertensive rat

Renal hemodynamics and renal vascular resistance (RVR) were measured in the spontaneously hypertensive rat (SHR) and in the normotensive Wistar-Kyoto rat (WKY). In addition, the autoregulatory response and segmental RVR in the SHR were studied after aortic constriction. Mean arterial pressure (MAP) and RVR were higher in the SHR than in the WKY, but renal blood flow (RBF) and glomerular filtration rate were similar in both groups. Measurement of mean afferent arteriolar diameter (AAD) by a microsphere method showed a significantly smaller AAD in SHR (17.7±0.35 m) than in the WKY (19.5±0.20 m). This decrease in AAD could account for a 47% increase in preglomerular resistance. Aortic constriction in the SHR, sufficient to reduce renal perfusion pressure from 152 to 115 mm Hg, did not alter the AAD. Since RBF and glomerular filtration were also well maintained following aortic constriction, these autoregulatory responses suggest that vessels proximal to the afferent arteriole rather than postglomerular vasculature are primarily involved in the changes on intrarenal vascular resistance in SHR.     

Inter-individual variation in brain phenylalanine concentration in patients with PKU is not caused by genetic variation in the 4F2hc/LAT1 complex

It remains a question why some patients with phenylketonuria (PKU) have high IQ and low brain phenylalanine (Phe) concentrations in spite of high blood Phe levels. One possible explanation for the low brain Phe concentrations in these patients would be a reduced transport of Phe across the blood-brain barrier. The 4F2hc/LAT1 complex has been suggested to be the most important molecular component responsible for this transport. To test the hypothesis that structural variant(s) in the genes encoding 4F2hc and LAT1 might result in a complex with reduced affinity for Phe, we have screened the two genes for sequence variants in a group of 13 PKU patients with a low ratio of brain to blood Phe concentrations. Several common sequence variants were identified, but none of these is predicted to affect the resulting protein product. Our data suggest that individual vulnerability to Phe in patients with PKU is not due to structural variants in the 4F2hc/LAT1 complex.     

Renal and nephron hemodynamics in spontaneously hypertensive rats.

Renal and nephron hemodynamics were compared between anesthetized, nondiuretic, spontaneously hypertensive rats (SHR) and Wistar-Kyoto rats (WKY). Although the mean arterial pressure was higher in SHR than in WKY, 158 VS. 114 mmHg, glomerular filtration rate (GFR) and renal blood flow (RBF) were similar in both groups. So were intrarenal hydrostatic pressures, single nephron GFR (SNGFR), and single nephron blood flow (SNBF). Accordingly, the increased renal vascular resistance (RVR) in SHR was due to predominant preglomerular vasoconstriction. In a second group of SHR, SHR-AC, the femoral arterial pressure was reduced acutely to 114 mmHg by means of aortic constriction above the renal arteries. The mean values for GFR, RBF, SNGFR, SNBF, and intrarenal hydrostatic pressures resembled those in SHR, whereas RVR was less in SHR-AC. These autoregulatory adjustments of RVR were again largely limited to the preglomerular vasculature. Efferent arteriolar resistance was similar in all three groups. We conclude that the enhanced RVR in 12-wk-old SHR is primarily a consequence of a physiological, autoregulatory response of afferent arteriolar resistance to the elevated arterial pressure. Further, RVR in SHR is not fixed and constant but responds appropriately to reductions in renal perfusion pressure.     

自发性高血压大鼠一侧颈动脉去外膜后结构和功能的变化

目的： 研究自发性高血压大鼠（SHR）去除一侧颈动脉外膜后血管结构和功能的变化。方法: 8只13周龄雄性SHR作为SHR对照组，8只同周龄雄性WKY大鼠作为正常血压对照组（WKY组）。机械和化学方法去除大鼠右侧颈动脉外膜，左侧作假手术对照。4周后，电磁流量计测量双侧颈动脉血流量，放免法测定血浆及双侧颈动脉血管紧张素Ⅱ（Ang Ⅱ）浓度。取双侧颈动脉制成光镜标本，病理图像分析系统测定颈动脉管腔横截面积（LA）、内弹力层围绕面积（IELA）、外弹力层围绕面积（EELA），评价内膜和中膜增生程度。RT－PCR法检测颈动脉血管紧张素转换酶2 mRNA（ACE2 mRNA）表达，免疫组化法检测ACE2 mRNA、蛋白激酶C-ζ（PKC-ζ）和胞外信号调节激酶1/2（ERK1/2）蛋白表达。结果: （1）SHR对照组双侧血管内膜比WKY组明显增生(P<0.01)，中膜面积显著大于WKY组（P<0.05, P<0.01）；去外膜侧内膜增生较外膜完整侧显著（P<0.05）；（2）SHR对照组去外膜侧血流速度明显少于WKY组和SHR对照组外膜完整侧（均P<0.01）；（3）SHR对照组血浆及双侧颈动脉AngⅡ浓度均明显高于WKY组 (P<0.01)，去外膜侧颈动脉AngⅡ浓度明显高于外膜完整侧（P<0.01）；（4）SHR对照组双侧血管ACE2 mRNA表达均显著少于WKY组（P<0.01），去外膜侧ACE2 mRNA表达显著少于外膜完整侧（P<0.01）；（5）SHR对照组PKC-ζ和ERK1/2在双侧血管的表达均显著高于WKY组（P<0.01），去外膜侧PKC-ζ和ERK1/2表达显著高于外膜完整侧（P<0.01）。结论: SHR去除一侧颈动脉外膜后血管内膜增生明显，中膜面积增大，血流速度减慢；这一变化可能与ACE2 mRNA表达减少、PKC-ζ和ERK1/2蛋白表达增加有关。