Study on the lateral pterygoid muscle status after artificial temporomandibular joint replacement.

The purpose of this study was to explore the status of the lateral pterygoid muscle (LPM) after detachment in artificial temporomandibular joint replacement (TJR) surgery. Patient clinical and computed tomography imaging data were collected before and after unilateral artificial TJR with LPM detachment. The volume of the LPM on the operated and unoperated sides was measured before and after surgery (at 1, 3, 6, 12 months) using ProPlan CMF 3.0 software. The volumes of the LPM on both sides, the patient's mandibular movements, quality of life (QoL), and pain and diet scores (visual analogue scales) were evaluated and compared at the different follow-up stages. Ten patients were included in the study. After surgery, the volume of the operated LPM was significantly reduced to 60.78% at 3 months (P=0.007), and gradually stabilized to 51.58% at 6 months (P=0.025) and 54.68% at 1 year postoperative (P=0.002). There were no significant LPM volume changes on the unoperated side (P=0.67). Lateral movement of the operated joint was significantly reduced (P=0.021) and correlated with the LPM volume change after surgical detachment (P=0.042). The LPM shrank after detachment in the artificial TJR surgery and the muscle detachment affected the movement of the replaced joint.

[QTL mapping of the root traits in rice seedling].

Drought resistance is one of the most important traits in rice abiotic study. The report here analyzed several major root traits affecting drought resistance expression with the double haploid population (DH) from ZYQ8 (indica)/JX17 (japonica) containing 127 lines. After 10 days solution culturing, three rice root traits, Maximum Root Length (MRL), Dry Root Weight (DRW) and Root/Shoot Ratio of Dry Weight (RSR), were revealed existing significant difference among the DH lines. Using the constructed molecular linkage map from this segregating population, the QTL mapping was conducted among these three root parameters. MRL, DRW, and RSR were found being controlled by 2/1/2 QTLs respectively in JX17, 2/0/1 QTLs respectively in ZYQ8. Phenotype variance could be explained by 16.4% and 17.0% for MRL, 16.4% for DRW, 10.4% and 19.9% for RSR in JX17, 19.6% and 13.0% for MRL, 13.2% for RSR in ZYQ8. All these QTLs identified were distributed on rice chromosome 2, 3, 4, 5, 6, 9 and 10. Comparing with the other mapping results, one QTL for each trait (L169-CT106A for MRL, G45-G1314A for DRW, G62-G144 for RSR) was identical with the results reported previously.

Renal endosomes contain angiotensin peptides, converting enzyme, and AT(1A) receptors.

Kidney cortex and proximal tubular angiotensin II (ANG II) levels are greater than can be explained on the basis of circulating ANG II, suggesting intrarenal compartmentalization of these peptides. One possible site of intracellular accumulation is the endosomes. In the present study, we tested for endosomal ANG I, ANG II, angiotensin type 1A receptor (AT(1A)), and angiotensin converting enzyme (ACE) activity and determined whether these levels are regulated by salt intake. Male Sprague-Dawley rats were fed chow containing either high or low dietary sodium for 10-14 days. Blood and kidneys were harvested and processed for measurement of plasma, kidney, and renal intermicrovillar cleft and endosomal angiotensin levels. Kidney ANG I averaged 179 +/- 20 fmol/g and ANG II averaged 258 +/- 36 fmol/g in rats fed a high-sodium diet and were significantly higher, averaging 347 +/- 58 fmol/g and 386 +/- 55 fmol/g, respectively, in rats fed a low-salt diet. Renal intermicrovillar clefts and endosomes contained ANG I and ANG II. Intermicrovillar cleft ANG I and ANG II levels averaged 8.4 +/- 2.6 and 74 +/- 26 fmol/mg, respectively, in rats fed a high-salt diet and 7.6 +/- 1.7 and 70 +/- 25 fmol/mg in rats fed a low-salt diet. Endosomal ANG I and ANG II levels averaged 12.3 +/- 4.4 and 43 +/- 19 fmol/mg, respectively, in rats fed a high-salt diet, and these levels were similar to those observed in rats fed a low-salt diet. Renal endosomes from rats fed a low-salt diet demonstrated significantly more AT(1A) receptor binding compared with rats fed a high-salt diet. ACE activity was detectable in renal intermicrovillar clefts and was 2.5-fold higher than the levels observed in renal endosomes. Acute enalaprilat treatment decreased ACE activity in renal intermicrovillar clefts by 90% and in renal endosomes by 84%. Likewise, intermicrovillar cleft and endosomal ANG II levels decreased by 61% and 52%, respectively, in enalaprilat-treated animals. These data demonstrate the presence of intact angiotensin peptides and ACE activity in renal intermicrovillar clefts and endosomes, indicating that intact angiotensin peptides are formed and/or trafficked through intracellular endosomal compartments and are dependent on ACE activity.

Renal uptake of circulating angiotensin II in Val5-angiotensin II infused rats is mediated by AT1 receptor.

Previous studies have demonstrated that augmentation of intrarenal angiotensin II (ANG II) levels during ANG II induced hypertension involves both endogenous formation and accumulation of circulating ANG II. The present work extends these findings and determines whether accumulation of infused ANG II in the kidney requires AT1 receptor activation by using Val5-ANG II as the infused peptide. Male Sprague-Dawley rats were uninephrectomized and divided into three groups: control (n = 6), Val5-ANG II (exogenous form) infused (n = 8), and Val5-ANG II infused rats treated with losartan (n = 8). Val5-ANG II, which has the same biological and immunoreactive properties as endogenous ANG II, was infused at 40 ng/min via an osmotic minipump implanted subcutaneously. By day 12, systolic blood pressure (SBP) increased significantly in Val5-ANG II infused rats (197 +/- 7 mm Hg). As previously shown, the development of hypertension in ANG II infused rats was prevented by losartan treatment. Blood and kidney samples were harvested, subjected to HPLC to separate Val5-ANG II (exogenous) from Ile5-ANG II (endogenous) and the fractions were measured by radioimmunoassay. In the Val5-ANG II infused rats treated with losartan, total plasma ANG II levels were elevated to a greater extent than in rats not treated with losartan (289 +/- 20 v 119 +/- 14 fmol/mL). However, losartan markedly decreased by 88% the enhancement of intrarenal Val5-ANG II content that occurred in the rats infused with Val5-ANG II alone. These results demonstrate that AT1 receptor blockade markedly reduces the intrarenal uptake of circulating ANG II that occurs in ANG II induced hypertension.

Renal responses to AT1 blockade in angiotensin II-induced hypertensive rats.

Previous studies have shown that uninephrectomized rats infused chronically with low doses of angiotensin II (Ang II) develop progressive hypertension that is prevented by coadministration of losartan in the drinking water. The present study was performed to contrast the effects of chronic and acute losartan treatment in reversing the Ang II-mediated actions on arterial pressure and renal function. Ang II was infused subcutaneously via osmotic minipumps (40 ng/min) for 13 days in two groups (N = 10 and N = 6); one group also received losartan in the drinking water (30 mg/kg.day) throughout this period. Untreated rats (N = 6) and rats (N = 6) receiving only losartan served as control groups. Ang II-infused rats had higher mean arterial pressures (153 +/- 7 versus 107 +/- 3 mm Hg) and lower GFR (0.7 +/- 0.04 versus 0.98 +/- 0.06 mL/min.g) than Ang II-infused rats receiving losartan chronically. The Ang II-infused rats responded to acute doses of losartan (10 mg/kg) with progressive reductions in arterial pressure and significant increases in cortical blood flow (34 +/- 12% increase), renal plasma flow, GFR, and sodium excretion; however, the increases in renal blood flow and GFR were not sustained as systemic arterial pressure decreased. Because Ang II-infused rats receiving losartan chronically still exhibited decreases in RBF in response to a bolus dose of Ang II, further studies evaluated the effects of acute losartan treatment in rats treated chronically with losartan. Although arterial pressure decreased only slightly, demonstrating adequate systemic vascular blockade, there were still substantial and sustained increases in renal plasma flow, cortical blood flow (20 +/- 4% increase), GFR, and sodium excretion. In summary, the modest responses to acute losartan in Ang II-infused rats indicate that chronic Ang II infusions lead to alterations in renal function that are only partially reversible by acute losartan treatment. In contrast, chronic treatment with losartan prevents the Ang II-induced decrease in GFR. The renal responses to acute losartan in the Ang II-infused rats treated chronically with losartan suggest that substantive intrarenal actions of Ang II can be maintained even when the systemic vascular AT1 receptors are effectively blocked.

Receptor-mediated intrarenal angiotensin II augmentation in angiotensin II-infused rats.

Chronic low-dose angiotensin II (Ang II) infusion for 13 days mimics two-kidney, one clip Goldblatt hypertension and increase intrarenal Ang II levels. We performed studies to determine the time course for the enhancement of intrarenal Ang II levels and whether the increased intrarenal Ang II is a tissue-specific event and requires a receptor-mediated step. Male Sprague-Dawley rats were uninephrectomized, and either vehicle or Ang II (40 ng/min) was infused via a subcutaneous osmotic minipump. Plasma and renal Ang II levels were measured 3, 7, 10, and 13 days after minipump implantation. Compared with controls (126 +/- 2 mm Hg), systolic pressure in Ang II-infused rats exhibited a detectable increase by day 6 (146 +/- 2 mm Hg) and continued to increase to 189 +/- 5 mm Hg by day 12. Plasma Ang II levels were elevated by day 3, whereas intrarenal Ang II levels were not significantly elevated until 10 days of Ang II infusion. Renal injury characterized by focal and segmental glomerulosclerosis was evident after 13 days of Ang II infusion. Losartan (30 mg/kg per day) prevented the development of hypertension in the Ang II-infused rats for the duration of the infusion period (125 +/- 1 mm Hg) and reduced the degree of glomerular injury. Plasma renin activity was suppressed in the Ang II-infused group but was elevated markedly in both losartan-treated groups. Plasma Ang II levels were elevated in the Ang II-infused rats and were even higher during losartan treatment. Intrarenal Ang II levels were enhanced significantly (354 +/- 60 versus 164 +/- 23 fmol/g) in the Ang II-infused rats. However, losartan treatment prevented the augmentation of intrarenal Ang II caused by Ang II infusion. Heart and adrenal Ang II levels were not significantly increased in the Ang II-infused rats but were significantly elevated during losartan treatment. These results suggest that the tissue-specific elevations of intrarenal Ang II levels caused by chronic Ang II infusion are mediated by angiotensin type 1 receptor activation, which leads to either receptor-mediated internalization of Ang II, enhancement of intrarenal Ang II formation, or both.

Renal accumulation of circulating angiotensin II in angiotensin II-infused rats.

Previous studies have demonstrated that low-dose angiotensin II (Ang II) infusion for 14 days mimics two-kidney, one clip Goldblatt hypertension and increases intrarenal Ang II levels. The objective of the present study was to determine whether the augmented intrarenal Ang II is due to intrarenal accumulation of the infused Ang II and/or to an increase in intrarenal formation of endogenous Ang II. Male Sprague-Dawley rats were uninephrectomized and divided into three groups: control (N=6), those infused with [Ile5]Ang II (endogenous form) (N=6), and those infused with [Val5]Ang II (n=8). [Ile5]Ang II or [Val5]Ang II was infused at 40 ng/min via an osmotic minipump implanted subcutaneously. By day 12, systolic blood pressure increased significantly in both [Val5]Ang II-infused rats (197 +/- 7 mm Hg) and [Ile5]Ang II-infused rats (173 +/- 3 mm Hg). Blood and kidney samples were harvested, subjected to high-performance liquid chromatography to separate [Val5]Ang II from [Ile5]Ang II, and then measured by radioimmunoassay. Plasma renin activity was markedly suppressed in both [Ile5]Ang II- and [Val5]Ang II-infused rats. Plasma Ang II levels were elevated in rats infused with both [Ile5]Ang II (121 +/- 24 fmol/mL) and [Val5]Ang II (119 +/- 14 fmol/mL) compared with controls (69 +/- 15 fmol/mL). Both [Ile5]Ang II- and [Val5]Ang II-infused rats exhibited an enhancement of total intrarenal Ang II. Only [Ile5]Ang II (358 +/- 53 fmol/g) was detected in the kidneys of rats infused with -Ile5-Ang II. In [Val5]Ang II-infused rats, a significant portion of total renal Ang II (371 +/- 57 fmol/g) was in the form of [Val5]Ang II (256 +/- 44 fmol/g). Renal [Ile5]Ang II levels were maintained in the [Val5]Ang II-infused rats (116 +/- 15 fmol/g) compared with control rats (116 +/- 11 fmol/g) despite marked suppression of renin release. These results support the hypothesis that infused circulating ANG II is bound to receptor or taken up intrarenally in a manner that protects against degradation.