Differential effects of 1,25-dihydroxyvitamin D3 on cytosolic calcium in two human cell lines (HL-60 and U-937)

1,25-Dihydroxyvitamin D3 (1,25-(OH)2D3) has been shown to induce maturational changes in the human promyelocytic leukemia cell line HL-60 and in the human monocytic cell line U-937. Changes in cytosolic calcium have been reported to regulate cellular processes. We used the fluorescent dye Quin 2 to examine the effects of vitamin D metabolites on cytosolic calcium levels in HL-60 and U-937 cells. 1,25-(OH)2D3 (20 nM) increases cytosolic calcium by 24% over a 5-min period in HL-60 but not in U-937 cells. 1,25-(OH)2D3 (0.2 nM and 4 nM) has no effect on cytosolic calcium levels in either cell type. 24,25-(OH)2D3 (20 nM) has no effect on cytosolic calcium in HL-60 cells. Nifedipine (1 mM) has no effect on cytosolic calcium levels over 30 min and likewise does not block the 1,25-(OH)2D3-induced increase in cytosolic calcium in HL-60 cells. However, chelation of extracellular calcium with EGTA (10 mM) blocks the 1,25-(OH)2D3-induced increment in cytosolic calcium, but does not block the 1,25-(OH)2D3-induced maturational changes in HL-60 cells. The data suggest that 1,25-(OH)2D3 but not 24,25-(OH)2D3 increases cytosolic calcium in HL-60 cells within 5 min and the increment is due to increased influx of calcium. 1,25-(OH)2D3 modifies membrane permeability to calcium independent of calcium channels sensitive to nifedipine. Finally, 1,25-(OH)2D3-induced maturational changes in HL-60 cells can take place without an increase in cytosolic calcium.     

The helix-loop-helix protein,Id-1, is overexpressed and regulates growth in papillary thyroid cancer

BACKGROUND: Members of the Id helix-loop-helix proteins are key regulators of cell growth and differentiation in a variety of cell types. They are also required for cell cycle progression and regulate tumor angiogenesis. Furthermore, deregulated expression of Id proteins has been observed in some human malignancies. Therefore we hypothesized that the Id-1 gene may play a role in papillary thyroid carcinogenesis. METHODS: Id-1 gene expression was characterized by Northern blot analysis and Id-1 immunohistochemistry in human thyroid tissue. Id-1 gene expression and regulation was evaluated in a human papillary thyroid cancer cell line, TPC-1, by Northern blot analysis. RESULTS: The Id-1 gene was significantly overexpressed in papillary thyroid cancer compared with normal thyroid tissue from the same patients (n = 18) by both Northern blot analysis and semiquantitative Id-1 immunohistochemistry (P <.001). Id-1 immunoreactivity was primarily localized to the cytoplasm of the thyroid follicular cells. In the TPC-1 cell line, stimulation by TSH and serum up-regulated Id-1 mRNA expression 1.5- and 4.0-fold, respectively. Activation of the mitogen intracellular protein kinase A and protein kinase C signaling pathways also up-regulated Id-1 mRNA expression. Inhibition of Id-1 mRNA expression with Id-1 antisense oligonucleotide inhibited growth compared with control Id-1 sense and random oligonucleotides (P <.05). CONCLUSIONS: The Id-1 gene is overexpressed in papillary thyroid cancer. Id-1 may play a role in the regulation of growth in papillary thyroid cancer.     

Neutrophil function in surgical patients: in vitro correlation of abnormal neutrophil chemotaxis by Levamisole.

Cutaneous anergy to recall skin test antigens is associated with decreased polymorphonuclear neutrophil (PMN) chemotaxis (CTX). This decreased PMN chemotaxis is mediated by factors circulating in the sera (AS) from patients with anergy. Levamisole hydrochloride will correct the chemotactic defect of neutrophils from anergic patients, in vitro, from 96.2 +/- 1.2 to 125.1 +/- 1.7 microns at concentrations of 10(-3) M to 10(-18) M. Pretreatment of normal PMN with Levamisole at 10(-4) M will protect them from the chemotactic inhibiting effect of AS. Normal PMN migrating in the normal range, 128.1+/- 2.7 microns, can be made to behave like anergic PMN by treatment with AS. These PMN which now migrate in the anergic range 92.1 +/- 1.7 microns can be converted back to normal by Levamisole treatment at 10(-3) M to 10(-18) M. In 35 surgical patients who demonstrated the spectrum of decreased PMN CTX, the majority toward the anergy level, Levamisole improved the PMN CTX toward normal levels in every instance, while not affecting the CTX of the normally migrating PMN.     

The helix-loop-helix transcription factor, Id-1, is overexpressed in medullary thyroid cancer

BACKGROUND: The Id-1 helix-loop-helix protein inhibits differentiation and enhances cell proliferation. It is required for cell cycle progression. The Id-1 gene is highly expressed in a variety of tumor-derived cell lines. It increases after mitogen stimulation and is overexpressed in some human neoplasms. Therefore, we hypothesized that the Id-1 gene may play a role in medullary thyroid carcinogenesis. METHODS: The expression of the Id-1 protein in human medullary thyroid cancer (MTC) and the corresponding normal thyroid tissue was determined by Id-1 immunohistochemistry. In a human MTC cell line (TT), the effects of growth stimulation and redifferentiation on Id-1 expression were determined by Northern blot analysis. RESULTS: Id-1 immunostaining intensity in 9 MTC samples (6 sporadic, 2 familial, and 1 MEN 2A) was moderate to strong. However, it was absent or faint in the corresponding normal thyroid tissue. The Id-1 protein was significantly overexpressed in MTC compared with corresponding normal thyroid tissue on the basis of the percentage of positive cells and immunostaining intensity (P =.002). In the TT cell line, Id-1 messenger RNA (mRNA) expression was increased 4-fold after growth stimulation with serum. Phorbol ester (which induces redifferentiation in the TT cell line) downregulated Id-1 mRNA expression. CONCLUSIONS: Id-1 is overexpressed in MTC. The Id-1 gene may play a role in the regulation of MTC differentiation and proliferation.     

Isoflurane inhibits cardiac myocyte apoptosis during oxidative and inflammatory stress by activating Akt and enhancing Bcl-2 expression

BACKGROUND: Volatile anesthetics attenuate apoptosis. The underlying mechanisms remain undefined. The authors tested whether isoflurane reduces apoptosis in cardiomyocytes subjected to oxidative or inflammatory stress by enhancing Akt and B-cell lymphoma-2 (Bcl-2). METHODS: Adult and neonatal rat ventricular myocytes and atrial HL-1 myocytes were exposed to hypoxia, hydrogen peroxide, or neutrophils with or without isoflurane pretreatment. The authors assessed cell damage and investigated apoptosis using mitochondrial cytochrome c release, caspase activity, and TUNEL assay. They determined expression of phospho-Akt and Bcl-2 and tested their involvement by blocking phospho-Akt with wortmannin and Bcl-2 with HA14-1. RESULTS: Isoflurane significantly reduced the cell damage and apoptosis induced by hypoxia, H2O2, and neutrophils. Isoflurane reduced hypoxia-induced mitochondrial cytochrome c release in HL-1 cells by 45 +/- 12% and caspase activity by 28 +/- 4%; in neonatal cells, it reduced caspase activity by 43 +/- 5% and TUNEL-positive cells by 50 +/- 2%. Isoflurane attenuated H2O2-induced caspase activity in HL-1 cells by 48 +/- 16% and TUNEL-positive cells by 78 +/- 3%; in neonatal cells, it reduced caspase activity by 30 +/- 3% and TUNEL-positive cells by 32 +/- 7%. In adult cardiomyocytes exposed to neutrophils, isoflurane decreased both mitochondrial cytochrome c and caspase activity by 47 +/- 3% and TUNEL-positive cells by 25 +/- 4%. Isoflurane enhanced phospho-Akt and Bcl-2 expression. Wortmannin and HA14-1 prevented the action of isoflurane (53 +/- 8% and 54 +/- 7% apoptotic cells vs. 18 +/- 1% without blockers). CONCLUSIONS: Isoflurane protects cardiomyocytes against apoptosis induced by hypoxia, H2O2, or activated neutrophils through Akt activation and increased Bcl-2 expression. This suggests that a reduction in apoptosis contributes to the cardioprotective effects of isoflurane.     

Isoflurane Inhibits Cardiac Myocyte Apoptosis during Oxidative and Inflammatory Stress by Activating Akt and Enhancing Bcl-2 Expression

Background: Volatile anesthetics attenuate apoptosis. The underlying mechanisms remain undefined. The authors tested whether isoflurane reduces apoptosis in cardiomyocytes subjected to oxidative or inflammatory stress by enhancing Akt and B-cell lymphoma-2 (Bcl-2).

Methods: Adult and neonatal rat ventricular myocytes and atrial HL-1 myocytes were exposed to hypoxia, hydrogen peroxide, or neutrophils with or without isoflurane pretreatment. The authors assessed cell damage and investigated apoptosis using mitochondrial cytochrome c release, caspase activity, and TUNEL assay. They determined expression of phospho-Akt and Bcl-2 and tested their involvement by blocking phospho-Akt with wortmannin and Bcl-2 with HA14-1.

Results: Isoflurane significantly reduced the cell damage and apoptosis induced by hypoxia, H2O2, and neutrophils. Isoflurane reduced hypoxia-induced mitochondrial cytochrome c release in HL-1 cells by 45 +/- 12% and caspase activity by 28 +/- 4%; in neonatal cells, it reduced caspase activity by 43 +/- 5% and TUNEL-positive cells by 50 +/- 2%. Isoflurane attenuated H2O2-induced caspase activity in HL-1 cells by 48 +/- 16% and TUNEL-positive cells by 78 +/- 3%; in neonatal cells, it reduced caspase activity by 30 +/- 3% and TUNEL-positive cells by 32 +/- 7%. In adult cardiomyocytes exposed to neutrophils, isoflurane decreased both mitochondrial cytochrome c and caspase activity by 47 +/- 3% and TUNEL-positive cells by 25 +/- 4%. Isoflurane enhanced phospho-Akt and Bcl-2 expression. Wortmannin and HA14-1 prevented the action of isoflurane (53 +/- 8% and 54 +/- 7% apoptotic cells vs. 18 +/- 1% without blockers).     

C5a receptor modulation on neutrophils and monocytes from chronic hemodialysis and peritoneal dialysis patients

Chronic renal failure patients have an increased risk for infection which may partially be due to altered chemotactic ability of their white blood cells. This study was designed to evaluate chemotactic factor and Fc receptor expression on neutrophils (PMN) and monocytes from chronic renal failure patients on hemodialysis (HD) or continuous ambulatory peritoneal dialysis (CAPD). Analysis of these receptors was performed using flow cytometry and fluorescent chemotactic factors (C5a, f-Met-Leu-Phe-Lys [fMLPL] and casein) and heat-aggregated human IgG. Peripheral blood PMN and monocytes obtained from 14 HD patients (in the predialysis period) and 14 CAPD patients were analyzed for their ability to bind each of the fluoresceinated ligands. PMN and monocytes from both patient groups had a significant reduction in their ability to bind C5a. The average percentage (+/- s.e.m.) of PMN that bound C5a was 93.9 +/- 1.1 for the controls, 72.9 +/- 3.8 for HD patients, and 79.3 +/- 4.0 for CAPD patients. Similar results were obtained with monocytes with 69.7 +/- 1.9% for controls, 54.6 +/- 4.5% for HD patients, and 31.0 +/- 4.5% for CAPD patients. These differences in C5a binding were also reflected in the average intensity of fluorescence. There was no significant difference in the percentage or fluorescence intensity of PMN or monocytes that bound casein or aggregated IgG when either group of dialysis patients was compared to the control values. Binding of fMLPL by PMN and monocytes from the HD patients and PMN from the CAPD patients were similar to control values but the binding of fMLPL by monocytes from CAPD patients was significantly suppressed (p less than 0.03).(ABSTRACT TRUNCATED AT 250 WORDS)     

甘氨酸对缺氧大鼠心肌细胞的保护作用及机制

目的探讨甘氨酸对缺氧大鼠心肌细胞的保护作用及机制。方法分离培养SD乳鼠心肌细胞,用生化分析仪检测缺氧后6h及甘氨酸处理后心肌细胞培养液中肌酸激酶(CK)、乳酸脱氢酶(LDH)的释放量;用免疫组织化学方法观察常氧及缺氧心肌细胞甘氨酸受体α1亚基(GlyRα1)的表达;激光共聚焦显微镜检测细胞内游离钙及心肌细胞膜电位的变化。结果缺氧后6h心肌细胞培养液中CK、LDH值[(393.8±5.3)、(1564±41)U/L)]均升高,甘氨酸处理后CK、LDH值[(56.3±2.7)、(716±18)U/L]均明显下降(P<0.01).常氧及缺氧心肌细胞GlyRα1均呈阳性表达。常氧心肌细胞钙离子平均荧光强度为27±8,缺氧后6h增加为139±29(P<0.01);而甘氨酸处理后细胞钙离子平均荧光强度为51±11,与缺氧后6h比较明显减少(P<0.01),与常氧下比较却明显增加(P<0.01).常氧心肌细胞膜电位为177±20,缺氧后6h膜电位发生去极化(62±9,P<0·01);而加入甘氨酸后心肌细胞膜电位为123±16,较缺氧后6h时的去极化程度明显减轻(P<0·01).结论甘氨酸对缺氧心肌细胞有保护作用,其可能的机制是甘氨酸与其受体结合后,减轻了心肌细胞膜去极化,从而减少了细胞膜电压依赖性钙通道开放,使钙离子内流减少。     

Store-operated calcium channel inhibition attenuates neutrophil function and postshock acute lung injury

BACKGROUND: A wide variety of neutrophil (PMN) functions are regulated by cytosolic calcium concentration. Calcium channel blockade might therefore decrease postshock inflammation but could also limit important cardiovascular compensations. PMN Ca2+ entry occurs, however, through store-operated calcium entry (SOCE) channels rather than the voltage operated (L-type) channels that regulate cardiovascular tone. We hypothesized that SOCE inhibition might suppress postshock PMN activation, lessening lung injury without compromising cardiovascular performance. METHODS: Human PMNs were treated in vitro with N-propargyl-nitrendipine (MRS1845 [MRS]) a dihydropyridine Ca2+ channel blocker with relative specificity for SOCE channels. Calcium flux was measured by fura fluorescence. Chemotaxis was studied in modified Boyden chambers. Respiratory burst was studied by dihydrorhodamine fluorescence. Exploratory studies were then performed where rats were subjected to trauma and hemorrhagic shock (T/HS) (laparotomy, then hemorrhage to a mean arterial pressure of 30-40 mm Hg for 90 minutes) after pretreatment with MRS or vehicle given intraperitoneally at laparotomy. In vivo PMN CD11b expression was then assayed by flow cytometry and lung injury was assessed as percentage Evans blue dye leak 3 hours after resuscitation. The shed blood volume required to achieve standardized hypotension was measured. RESULTS: In vitro, MRS suppressed human PMN SOCE without affecting calcium store release; it suppressed chemotaxis (60 +/- 6 vs. 150 +/- 15 x 10(3) PMNs/well, p = 0.002) and suppressed respiratory burst (62 +/- 11% vs. 100%, p < 0.05) at IC50 concentrations similar to those needed to suppress SOCE. In subsequent in vivo rat studies, MRS decreased postshock PMN CD11b expression from 397 +/- 93 to 268 +/- 39 MFU mean flourescent units (p < 0.05) and decreased lung Evans blue dye permeability from 8.1 +/- 1.9% to 3.4 +/- 0.1% (p < 0.05). MRS had no noticeable effect on the relationship between blood pressure and blood loss, with shed blood volume remaining almost identical (26 +/- 2 mL/kg vs. 27 +/- 3 mL/kg, p = not significant). CONCLUSION: Modulation of PMN Ca2+ entry by means of selective SOCE channel inhibition attenuates PMN inflammatory responses in vitro. In vivo, SOCE channel blockade attenuates trauma and hemorrhagic shock-induced PMN priming and lung injury without gross evidence of hemodynamic side effects. The relative specificity of SOCE channel blockade for "nonexcitable" cells such as PMNs may make it a valuable form of chemoprophylaxis for the inflammatory consequences of hemorrhagic shock in trauma patients.     

Role of neutrophil derived oxidants and elastase in lipopolysaccharide-mediated renal injury

Gram-negative bacterial sepsis is frequently associated with acute renal failure but the specific effects of lipopolysaccharide (LPS) and other bacterial products on kidney function are not known. Since either LPS or formyl-methionyl-leucyl-phenylalanine (FMLP)--a chemotactic peptide from bacterial cell walls--activate neutrophils (PMN) to release a number of potentially toxic factors in vitro, we determined the effect of adding PMN with LPS and/or FMLP to isolated perfused rat kidneys. Isolated rat kidneys perfused with LPS alone or LPS and normal PMN had normal glomerular filtration rates (GFR) and tubular Na reabsorption (TNa). Kidneys perfused with FMLP alone or FMLP and normal PMN also had normal GFR and TNa. In contrast, addition of PMN with both FMLP and LPS caused progressive renal dysfunction. For example, after 60 minutes of perfusion, GFR was reduced from 610 +/- 31 to 147 +/- 17 microliters/min/g and TNa from 97 +/- 1 to 72 +/- 2%, both P less than 0.01. Perfusion with the O2 metabolite scavengers catalase or dimethylthiourea afforded no protection while perfusion with the neutrophil elastase inhibitor Eglin C conferred substantial, but not complete, protection: GFR 492 +/- 34 microliters/min/g; TNa 91 +/- 3%. However, perfusion with both Eglin C and catalase completely prevented the toxic effects of LPS and FMLP-treated PMN on renal function. We conclude that in isolated kidneys, 1) the toxic effects of LPS requires FMLP-treated PMN and that 2) LPS and FMLP treated PMN cause progressive renal injury which is mediated by both O2 metabolites and neutrophil elastase.     

Sevoflurane Does Not Inhibit Human Platelet Aggregation Induced by Thrombin

Background: Sevoflurane reportedly inhibits adenosine diphosphate-induced platelet aggregation by suppressing thromboxane A2 formation. The increase in intracellular calcium concentration that fosters platelet aggregation, however, is also induced by other cell signaling pathways, such as activation of the production of inositol 1,4,5-triphosphate by thrombin. The current study aimed to clarify the net influence of sevoflurane on thrombin-induced platelet aggregation.

Methods: Washed platelets were stimulated by thrombin after incubation with 0.5, 1.0, or 1.5 mM sevoflurane, halothane, or isoflurane. Aggregation curves were measured by an aggregometer. Intracellular calcium concentration was measured fluorometrically using fura-2. Calcium mobilization via plasma membrane calcium channels and the dense tubular system was assessed differentially. Intracellular inositol 1,4,5-triphosphate was measured by radioimmunoassay.

Results: Halothane significantly suppressed aggregation ratios at 5 min compared with those in controls (89 +/- 7%) to 71 +/- 10% (1.0 mM) and 60 +/- 11% (1.5 mM) and the increase in intracellular calcium concentration (controls, 821 +/- 95 nM vs. 440 +/- 124 nM [1.0 mM] or 410 +/- 74 nM [1.5 mM]). Halothane also significantly inhibited release of calcium from the dense tubular system (controls, 220 +/- 48 nM vs. 142 +/- 31 nM [1.0 mM]). Neither sevoflurane nor isoflurane produced a net change in aggregation ratios, intracellular calcium concentration, or calcium mobilization. Halothane (1 mM) significantly suppressed inositol 1,4,5-triphosphate concentrations, whereas neither 1 mM isoflurane nor 1 mM sevoflurane had any effect.     

Sevoflurane does not inhibit human platelet aggregation induced by thrombin

BACKGROUND: Sevoflurane reportedly inhibits adenosine diphosphate-induced platelet aggregation by suppressing thromboxane A2 formation. The increase in intracellular calcium concentration that fosters platelet aggregation, however, is also induced by other cell signaling pathways, such as activation of the production of inositol 1,4,5-triphosphate by thrombin. The current study aimed to clarify the net influence of sevoflurane on thrombin-induced platelet aggregation. METHODS: Washed platelets were stimulated by thrombin after incubation with 0.5, 1.0, or 1.5 mM sevoflurane, halothane, or isoflurane. Aggregation curves were measured by an aggregometer. Intracellular calcium concentration was measured fluorometrically using fura-2. Calcium mobilization via plasma membrane calcium channels and the dense tubular system was assessed differentially. Intracellular inositol 1,4,5-triphosphate was measured by radioimmunoassay. RESULTS: Halothane significantly suppressed aggregation ratios at 5 min compared with those in controls (89 +/- 7%) to 71 +/- 10% (1.0 mM) and 60 +/- 11% (1.5 mM) and the increase in intracellular calcium concentration (controls, 821 +/- 95 nM vs. 440 +/- 124 nM [1.0 mM] or 410 +/- 74 nM [1.5 mM]). Halothane also significantly inhibited release of calcium from the dense tubular system (controls, 220 +/- 48 nM vs. 142 +/- 31 nM [1.0 mM]). Neither sevoflurane nor isoflurane produced a net change in aggregation ratios, intracellular calcium concentration, or calcium mobilization. Halothane (1 mM) significantly suppressed inositol 1,4,5-triphosphate concentrations, whereas neither 1 mM isoflurane nor 1 mM sevoflurane had any effect. CONCLUSIONS: Although sevoflurane has been reported to inhibit human platelet aggregation induced by weak agonists such as adenosine diphosphate, it does not inhibit human platelet aggregation induced by strong agonists such as thrombin.     

Sildenafil citrate alleviates pulmonary hypertension after hypoxia and reoxygenation with cardiopulmonary bypass

BACKGROUND: Sudden reoxygenation of hypoxic neonates undergoing cardiac operation exacerbates the systemic inflammatory response to cardiopulmonary bypass secondary to reoxygenation injury, worsening cardiopulmonary dysfunction. Reports suggest sildenafil decreases pulmonary hypertension and may affect myocardial function. Sildenafil's efficacy for treating postbypass cardiopulmonary dysfunction remains unknown. STUDY DESIGN: Fourteen neonatal piglets (5 to 7 kg) underwent 90 minutes of hypoxia, 60 minutes of reoxygenation with cardiopulmonary bypass, and 120 minutes of recovery. Six animals received 50 mg oral sildenafil and eight received saline at hypoxia. Data are presented as mean +/- SD. RESULTS: Sildenafil prevented the high pulmonary vascular resistance observed in controls (controls baseline 81 +/- 37 dynes. s/cm(5) versus recovery 230 +/- 93 dynes. s/cm(5), p = 0.004; sildenafil baseline 38 +/- 17 dynes. s/cm(5) versus recovery 101 +/- 60 dynes. s/cm(5), p = 0.003). Despite lower pulmonary vascular resistance after sildenafil, arterial endothelin-1 (ET-1) was increased in both groups (control baseline 1.3 +/- 0.5 pg/mL versus recovery 4.5 +/- 3.7 pg/mL, p = 0.01; sildenafil baseline 1.3 +/- 0.3 pg/mL versus recovery 9.8 +/- 4.9 pg/mL, p = 0.003). Intravenous nitric oxide (NO) levels were preserved after sildenafil treatment (sildenafil baseline 340 +/- 77 nM versus recovery 394 +/- 85 nM). IV NO levels in controls were decreased when compared with baseline (control baseline 364 +/- 83 nM versus recovery 257 +/- 97 nM, p = 0.028). Although levels of exhaled NO decreased in both groups, the sildenafil-treated animals had higher levels of exhaled NO when compared with controls at the end of recovery (0.6 +/- 0.4 parts per billion versus 1.8 +/- 0.9 parts per billion, respectively, p = 0.029). CONCLUSIONS: Sildenafil alleviated pulmonary hypertension after reoxygenation with cardiopulmonary bypass. Despite increased ET-1 levels, pulmonary vascular resistance was lower with sildenafil treatment, suggesting sildenafil's effect on the pulmonary vasculature is capable of countering vasoconstriction by ET-1. Further study into the role of sildenafil in perioperative therapy and its interactions with ET-1 are warranted.     

Inhibition of polymorphonuclear leukocyte respiratory burst by elevated glucose concentrations in vitro

Although impaired polymorphonuclear leukocyte (PMN) function may be a cause of infectious complications in diabetic patients, the mechanisms of altered cell function are not understood. Our studies of PMN function in healthy subjects demonstrated significant reduction in the respiratory burst after 30 min of in vitro cell exposure to glucose concentrations greater than 11 mM (200 mg/dl). The respiratory burst was reduced 28 +/- 5 and 74 +/- 7% in PMNs incubated with 11 and 56 mM glucose, respectively. The impairment was independent of the cell stimulus (chemotactic peptide, calcium ionophore, or phorbol ester) and was not affected by sorbinil or myo-inositol. Because both D- and L-glucose had similar inhibitory effects, a nonenzymatic mechanism appeared to be the cause of impaired PMN function. Although mannitol and sorbitol did not affect cell function, monosaccharides (glucose, mannose, fructose) that form Schiff-base adducts with protein inhibited PMN function. These findings suggest a potential role for protein glycosylation in glucose-induced impairment of PMN function.     

淫羊藿甙诱导甲状腺癌细胞系SW579的分化及恶性表型逆转的实验研究

目的：考察淫羊藿甙（ICA）对甲状腺癌细胞系SW579的增殖、细胞周期、黏附及侵袭效应的影响,探讨其逆转甲状腺癌细胞系SW579恶性表型的机制。方法：采用MTT法检测ICA作用过的甲状腺癌细胞系SW579的增殖,运用流式细胞技术（FACS）检测细胞周期分布;运用Tanswell小室侵袭试验,软琼脂集落形成实验,细胞-基质黏附率检测等方法检测逆转SW579恶性表型情况;RT-PCR检测分化抑制因子/DNA结合抑制因子（Id-1）、p21 mRNA表达水平。结果：与对照组比较,ICA在浓度（6.25～100）mg/L范围内,对SW579细胞增殖的抑制作用呈明显的浓度依赖效应和时间依赖效应;细胞周期各时相分布中S期明显减小（P〈0.01）,而G0/G1期升高（P〈0.01）;SW579细胞非整倍体DNA含量减少,克隆形成率、细胞基质黏附率以及体外细胞侵袭力明显降低;Id-1 mRNA表达下调,p21mRNA表达升高,且有明显的浓度依赖性。结论：ICA可以逆转人甲状腺癌SW579细胞系的恶性表型,通过下调Id-1 mRNA水平来激活p21基因的表达,从而使SW579细胞从S期向G1/G0期逆转,完成诱导分化。     

Inflammatory cell function in young rodents with experimental cholestasis: investigations of functional deficits, their etiology, and their reversibility

Children with cholestasis are susceptible to infective complications. This may be attributable to impaired host defense. We postulated that cholestasis affects systemic polymorphonuclear leukocyte (PMN) function by impeding chemotaxis, phagocytosis, and superoxide release, which are all critical in eliciting an adequate immune response. Sprague Dawley rats (225 g) were assigned to three groups: bile duct ligated (BDL), sham (SH), and normal control (NC). On day 21 after operation, PMN and sera were isolated. Chemotactic response to C5a and FMLP (formyl-methionyl-leucyl-phenylalanine), superoxide release, and phagocytic uptake of 14C-labeled Staphylococcus aureus were performed on pooled PMN samples. Results were expressed as mean +/- SD. Serum bilirubin at day 21 was 6.3 +/- 2.9 v 0.1 +/- 0.1 and 0.1 +/- 0 mg/dL (P less than .01) in BDL, SH, and NC groups, respectively. Kinetic studies of PMN phagocytosis demonstrated impaired 14C S aureus uptake by BDL neutrophils at 60 (P less than .05), 90 (P less than .05), and 120 minutes (P less than .05) compared with SH and NC groups. No differences in PMN chemotactic response to C5a and FMLP was observed in BDL, SH and NC groups (43 +/- 14 v 40 +/- 12 and 33 +/- 1, and 43 +/- 20 v 43 +/- 14 and 28 +/- 1 cell per field, respectively). Zymosan stimulated superoxide release did not differ between groups (14.3 +/- 3.6 (BDL) v 15.1 +/- 8.7 (SH) and 12 +/- 2.0 (NC) nmol/30 min/mg cell protein, respectively. Thus, cholestasis impairs neutrophil phagocytosis in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)