Effect of increased glucocorticoid responsiveness in transformed mouse lung cells

Many transformed mouse lung cells, including LM2 cells, contain activating mutations in the Ki-ras gene and show reduced responsiveness to growth inhibition by glucocorticoids. LM2GR cells, which are LM2 cells stably transfected with a rat glucocorticoid receptor (GR) gene, were used to determine whether increasing glucocorticoid responsiveness can influence aspects of the transformed phenotype. LM2GR cells grew slower and had a lower final saturation density than the parental LM2 cells. Expression of growth-related genes was examined by northern blot analysis. The cells were serum-deprived and treated with fetal bovine serum (FBS), steroid-stripped FBS (ssFBS), dexamethasone, or 12-O-tetradecanoylphorbol-13-acetate. The level and pattern of Ki-ras mRNA expression was similar in both LM2 and LM2GR cells, but histone H4 mRNA was expressed in a more regulated fashion in LM2GR cells. The induction of c-jun and c-fos mRNA expression lasted longer in the LM2GR cells treated with ssFBS; however, the maximal induction was greater in the LM2 cells treated with FBS. LM2GR cells demonstrated similar activator protein-1 (AP-1) activity but higher GR activity than LM2 cells as determined by using AP-1-chloramphenicol acetyltransferase (CAT) and mouse mammary tumor virus-CAT transient transfection assays, consistent with the higher level of GR mRNA in LM2GR cells. Both cell lines exhibited the ability to grow in soft agar and to form tumors in nude mice. These results indicate that introduction of a functional GR transgene into LM2 cells can increase glucocorticoid responsiveness and alter the expression of genes involved in growth regulation but cannot overcome anchorage-independent cell growth or tumorigenicity, apparently because of the presence of an activated Ki-ras gene. © 1995 Wiley-Liss, Inc.     

人正常肝,新生儿肝,肝癌及癌旁肝组织内C／EBPmRNA丰度分析

ｃ／ＥＢＰ（ＣＣＡＡＴ／ＥｎｈａｎｃｅｒＢｉｎｄｉｎｇＰｒｏｔｅｉｎ）是一种热稳定蛋白，作为肝细胞核富含的转录调控因子，在促进和维持肝细胞分化状态中担负重要功能，本文通过Ｎｏｒｔｈｅｒｎ杂交检测３例正常肝组织，１例新生儿肝组织，１０例肝癌及８例癌旁肝组织中Ｃ／ＥＢＰｍＲＮＡ丰度，结果显示在正常肝、新生儿肝及癌旁肝组织中均有表达，在多数癌组织中的表达明显减弱。瘤旁肝组织和肝癌组织中的表达相差显著（Ｐ＜０．０５）．以上结果进一步提示Ｃ／ＥＢＰ在维持肝细胞分化状态中起重要作用，并可能和肝癌的发生存在一定关系。     

Inhibition of transport across the hepatocyte canalicular membrane by the antibiotic fusidate

Hyperbilirubinemia is a frequent side effect induced by long-term therapy with the antibiotic fusidate. The aim of this study was to elucidate the molecular mechanisms of fusidate-induced hyperbilirubinemia by investigating its influence on hepatic transport systems in the canalicular membrane. Using canalicular membrane vesicles from rat liver, we determined the effect of fusidate on the adenosine 5'-triphosphate (ATP)-dependent transport of substrates of the apical conjugate export pump, multi-drug resistance protein 2 (Mrp2, symbol Abcc2) and the bile salt export pump (Bsep, symbol Abcb11). Fusidate inhibited the ATP-dependent transport of the Mrp2 substrates 17beta-glucuronosyl estradiol and leukotriene C4, and the transport of cholyltaurine by Bsep with Ki values of 2.2+/-0.3, 7.6+/-1.3, and 5.5+/-0.8 microM, respectively. To elucidate the in vivo implication of these findings, the effect of fusidate treatment on the elimination of intravenously administered tracer doses of 17beta-glucuronosyl estradiol and cholyltaurine into bile was studied in rats. Treatment with fusidate (100 micromol/kg body weight) reduced the biliary excretion rate of 17beta-glucuronosyl [3H]estradiol and [3H]cholyltaurine by 75 and 80%, respectively. Extended treatment of rats with fusidate (100 micromol/kg body weight, three times daily i.p. for 3 days) reduced hepatic Mrp2 protein levels by 61% (P<0.001). Our data suggest that there are at least two different mechanisms involved in the impairment of transport processes and hepatobiliary elimination by fusidate, direct inhibition of transport of Mrp2 and Bsep substrates by competitive interaction and impairment by a decreased level of hepatic Mrp2.     

Antidepressants reduce phosphoinositide-specific phospholipase C (PI-PLC) activity and the mRNA and protein expression of selective PLC beta 1 isozyme in rat brain

In order to examine whether antidepressants mediate their action by interacting with one of the key components of the phosphoinositide (PI) signaling pathway, i.e. PI-specific phospholipase C (PLC), and whether this represents a common mechanism of action of antidepressants, we determined the effects of antidepressants of various classes on PI-PLC activity and on the expression of PLC isozymes in rat brain. It was observed that chronic (21-day) but not acute (1-day) administration with desipramine (DMI), fluoxetine (FLX) and phenelzine (PHLZ), decreased PI-PLC activity in membrane and cytosol fractions of cortex and hippocampus. Similar changes were observed with alprazolam (ALP) and buspirone (BUS), who possess anxiolytic and antidepressant properties. On the other hand, an anxiogenic drug, metachlorophenylpiperazine (MCPP), increased PI-PLC activity in both membrane and cytosol fractions of cortex and hippocampus. The immunolabeling studies showed that all the antidepressants and anxiolytics that caused a decrease in PI-PLC activity also selectively decreased the protein levels of a specific isozyme of PLC, i.e. PLCβ₁, in membrane and cytosol fractions of cortex and hippocampus, whereas MCPP increased the levels of this particular isozyme. These changes were accompained with changes in the mRNA levels of PLCβ₁, as determined by quantitative RT-PCR. These antidepressants and anxiolytics did not cause significant changes in the expression of PLC δ₁ or γ₁ isozyme. Our results thus suggest that modulation of PI-PLC may be common to all classes of antidepressants, which in turn, may be associated with their mechanisms of action.     

Alterations in membrane-bound and cytoplasmic K-ras protein levels in mouse lung induced by treatment with lovastatin,cholestyramine, or niacin: effects are highly mouse strain dependent

Agents that either increase (cholestyramine, CS) or decrease (lovastatin, Lov) de novo peripheral cholesterol synthesis may increase (CS) or decrease (Lov) ras protein membrane localization by altering protein prenylation, and potentially have pro- or anti-carcinogenic effects. Male A/J, Swiss, and C57/BL6 mice were treated with 2 or 4% CS, 1% dietary niacin, or 25mg/kg of Lov three times per week (Lov-3X) or five times per week (Lov-5X). After 3 weeks, serum cholesterol and triglycerides were determined enzymatically. Membrane and cytoplasmic K-ras proteins in lung were determined by immunoprecipitation followed by western blotting with a K-ras specific antibody. Results confirmed the hypothesis only in isolated instances. A/J mice had a significant 30% increase in cytoplasmic K-ras and a 40% decrease in membrane K-ras from Lov treatment, as predicted. C57/BL6 mice had a significant 77% increase in membrane K-ras, as expected from CS feeding. At variance with the hypothesis, Swiss mice had increased levels (3-28%) of membrane K-ras with all treatments (including Lov), and C57/BL6 mice treated with Lov had a 58-78% increase in cytoplasmic K-ras without any reduction in the levels of membrane K-ras. Niacin, predicted to have no effect on ras membrane localization, decreased cytoplasmic K-ras in A/J mice, increased both membrane and cytoplasmic K-ras in Swiss mice, and had no effect in C57/BL6 mice. Results may have differed from those predicted because of strain-dependent differences in response to the cholesterol-lowering agents. A difference in response among the mouse strains suggests that individual genetic differences may alter the effect of hypocholesterolemic agents on K-ras membrane localization, and potentially the risk of ras-dependent cancer.     

Preprotachykinin A gene expression after administration of 3,4-methylene dioxymethamphetamine (Ecstasy)

This study tested the effects of 8 days of subchronic administration of 3,4-methylene dioxymethamphetamine (MDMA) (5 mg/kg b.w.) on preprotachykinin A mRNA levels in discrete rat brain regions. In situ hybridization examined preprotachykinin A mRNA levels in the core and shell of the nucleus accumbens, the islands of Calleja, the olfactory tubercle, the dorsal and ventral caudate–putamen, the bed nucleus of the stria terminalis, the medial preoptic area, the medial habenular nucleus and in the postero-dorsal part of the medial amygdala. Higher levels of preprotachykinin A mRNA were found in the core and shell of the nucleus accumbens, in the islands of calleja, in the olfactory tubercle, in the bed nucleus of the stria terminalis, in the medial habenular nucleus and the postero-dorsal part of the medial amygdala, compared to control animals. Conversely, increased preprotachykinin A mRNA levels were observed in the dorsal and ventral caudate–putamen in MDMA treated when compared to control rats. In the social memory test, MDMA significantly impaired rats' short-term working memory. These results show that chronic exposure to MDMA strongly affects preprotachykinin A mRNA levels in discrete rat brain regions. These changes occur in experimental conditions in which working memory is markedly reduced, suggesting that changes in gene expression of tachykinin mechanisms may contribute to the effects of MDMA on memory function.     

Expansion of CD8+ T cells that express low levels of the B cell-specific molecule CD20 in patients with multiple myeloma

An expanded cytotoxic/memory T-cell subpopulation expressing low levels of the B-cell-specific CD20 molecule was found in peripheral blood and bone marrow of patients with multiple myeloma at the time of diagnosis, but returned to normal levels following treatment. CD3+CD20dim cells were also increased in monoclonal gammopathy of unknown significance albeit at lower levels. Lower CD3+CD20dim cell numbers at baseline may be associated with lack of response to treatment and a poor outcome. Because expansion of these T cells may be related to disease status, further studies should investigate their potentially unique function in plasma cell dyscrasias.     

Role of leptin in the control of feeding of goldfish Carassius auratus: interactions with cholecystokinin,neuropeptide Y and orexin A,and modulation by fasting

To assess the role of leptin on food intake regulation in goldfish, we examined the effects of central (intracerebroventricular, ICV) and peripheral (intraperitoneal, IP) injections of recombinant murine leptin on feeding behavior. Centrally (100 ng/g) and peripherally (300 ng/g) injected leptin both caused a significant decrease in food intake, compared to the saline-treated controls. To test the hypothesis that leptin influenced orexigenic neuropeptide systems in goldfish, fish were co-injected with neuropeptide Y (NPY) or orexin A and leptin. Both NPY (5 ng/g) and orexin A (10 ng/g) significantly increased food intake. Fish co-injected ICV with NPY (5 ng/g) or orexin A (10 ng/g) and leptin (1 or 10 ng/g) had a food intake lower than that of fish treated with NPY or orexin A alone. NPY mRNA expression in goldfish brain was reduced 2 and 6 h following central injection of leptin. To test the hypothesis that the cholecystokinin (CCK) mediates the effects of leptin in goldfish, fish were simultaneously injected ICV with an ineffective dose of leptin (10 ng/g) and either ICV or IP with an ineffective doses of CCK (1 ng/g ICV or 25 ng/g IP). These fish had a food intake lower than vehicle-treated fish, suggesting that leptin potentiates the satiety actions of CCK. CCK hypothalamic mRNA expression was increased 2 h following central treatment with leptin. The CCK receptor antagonist proglumide blocked both central and peripheral CCK satiety effects. Blockade of CCK brain receptors by proglumide resulted in an inhibition of the leptin-induced decrease in food intake and an attenuation of the inhibiting action of leptin on both NPY- and orexin A-induced feeding. These data suggests that CCK has a role in mediating the effects of leptin on food intake. Fasting potentiated the actions of leptin and attenuated the effects of CCK. Whereas fasting had no effects on the brain mRNA expression of CCK, it increased the brain mRNA expression of NPY and decreased the expression of CART. These changes in neuropeptide expression were partially reversed when fish were treated ICV with leptin. These results provide strong evidence that, in goldfish, leptin influences food intake, in part by modulating the orexigenic effects of NPY and orexin and that its actions are mediated, at least in part, by CCK.