Effects of exercise training on adipogenesis of stromal-vascular fraction cells in rat epididymal white adipose tissue

AIM

Previous studies have shown that exercise training reduced white adipose tissue (WAT) mass compared to that in sedentary controls, and that the smaller mass contained fewer adipocytes. However, the effect of exercise training on adipogenesis is not completely clear. Therefore, we re-examined the effect of exercise training on adipocyte numbers in WAT and, if such an effect was found tested the adipogenic responses of stromal-vascular fraction (SVF) cells containing adipose tissue-derived stem cells (ADSC) in epididymal WAT from exercise-trained (TR) rats.

METHODS

Wistar male rats were divided into two groups: control (C) and TR. The TR rats were subjected to exercise on a treadmill for 9 weeks. SVF cells containing ADSC were separated from epididymal WAT by centrifugation. Expression of adipocyte differentiation-related genes and adipogenesis of SVF cells were examined.

RESULTS

In SVF cells of TR rats, the expression of peroxisome proliferator-activated receptor γ (PPARγ) and that of PPARγ target lipogenic genes was dramatically downregulated, whereas that of preadipocyte factor-1 gene was significantly upregulated. Lipid accumulation in SVF cells of TR rats after the induction of adipocyte differentiation was significantly suppressed in comparison with that of C rats. Moreover, increased expression of hypoxia-inducible factor-1α (HIF-1α) protein was observed in SVF cells of TR rats. Pre-treatment of YC-1, a potent HIF-1α inhibitor, in SVF cells of TR rats restored adipogenesis.

CONCLUSION

These results suggest that exercise training suppresses the ability of SVF cells to differentiate into adipocytes, and that underlying mechanisms involve the upregulation of HIF-1α expression.

Involvement of vanilloid receptor VR1 and prostanoids in the acid-induced writhing responses of mice

We found that intraperitoneal injection of organic acids, such as propionic and lactic acid, are able to develop writhing responses in mice similarly as that of acetic acid. These acid-induced writhing reactions were significantly attenuated by capsazepine, a VR1 receptor-specific antagonist, but the phenylbenzoquinone-induced one was not, suggesting that the acids but not phenylbenzoquinone activate the VR1 receptor, which is involved in polymodal pain perception. Hoe 140, a bradykinin B2 receptor antagonist, also suppressed the acid-induced writhing response. Furthermore, these writhing responses were significantly suppressed after neonatal treatment with capsaicin, which treatment is known to destroy peripheral sensory afferent C-fibers. Capsazepine and Hoe 140 did not further attenuate the already reduced writhing responses of capsaicin-treated mice, suggesting that the acids stimulate the VR1 and the bradykinin B2 receptor in the pathway comprising sensory afferent C-fibers. On the other hand, indomethacin further significantly suppressed the writhing number of the capsaicin-treated animals, suggesting that the acid-induced pain perception requires prostanoid receptors not only in the pathway via capsaicin-sensitive C-fibers but also in other sensory pathways. These results provide the first evidence for the involvement of the vanilloid receptor in the acid-induced inflammatory pain perception via sensory C-fibers in addition to the known mediators bradykinin, neurokinins, and prostanoids.

Major roles of prostanoid receptors IP and EP(3) in endotoxin-induced enhancement of pain perception

To know the roles of prostaglandin I (IP) and prostaglandin E (EP) receptors in pain perception, we compared the acetic acid-induced writhing response in mice deficient in prostaglandin receptors, i.e. IP, EP(1,) EP(2,) EP(3,) or EP(4,) with or without lipopolysaccharide (LPS) pretreatment. Without LPS pretreatment, IP-receptor deficient mice showed a significantly smaller number of responses, as previously reported, whereas mice deficient in any of the EP-receptor subtypes showed a number of writhings similar to those of wild-type mice. When mice were pretreated with LPS for 24 hr to induce cyclooxygenase-2 expression, the wild-type as well as EP(1)-, EP(2)-, or EP(4)-receptor-deficient mice showed a similar enhanced writhing response, whereas IP- and EP(3)-receptor-deficient mice had a significantly less enhanced number of writhings. These results indicate that IP and EP(3) are the major prostaglandin receptors mediating the enhanced acetic acid-induced writhing response in mice pre-exposed to LPS, i.e. in endotoxin-enhanced inflammatory nociception.

Regulation of TNFalpha and interleukin-10 production by prostaglandins I(2) and E(2): studies with prostaglandin receptor-deficient mice and prostaglandin E-receptor subtype-selective synthetic agonists

To know which receptors of prostaglandins are involved in the regulation of TNFalpha and interleukin 10 (IL-10) production, we examined the production of these cytokines in murine peritoneal macrophages stimulated with zymosan. The presence of PGE(2) or the PGI(2) analog carbacyclin in the medium reduced the TNFalpha production to one-half, whereas IL-10 production increased several fold; and indomethacin caused the reverse effects, suggesting that endogenous prostaglandins may have a regulatory effect on the cytokine production. Among prostaglandin E (EP) receptor-selective synthetic agonists, EP2 and EP4 agonists caused down-regulation of the zymosan-induced TNFalpha production, but up-regulation on the IL-10 production; while EP1 and EP3 agonists showed no effect. Macrophages harvested from prostaglandin I (IP) receptor-deficient mice showed the up- and down-regulatory effects on the cytokine production by the EP2 and EP4 agonists or PGE(2), but no effect was obtained by carbacyclin. On the contrary, macrophages from EP2-deficient mice showed the effect by PGE(2), carbacyclin, and the EP4 agonist, but not by the EP2 agonist; and the cells from EP4-deficient mice showed the effect by PGE(2), carbacyclin, and EP2 agonist, but not by the EP4 agonist. These functional effects of prostaglandins well accorded with the mRNA expression of TNFalpha and IL-10 when such expression was examined by the RT-PCR method. The peritoneal macrophages from normal mice expressed IP, EP2, and EP4 receptors, but not EP1 and EP3, when examined by RT-PCR. Thus the results suggest that PGI(2) and PGE(2) generated simultaneously with cytokines by macrophages treated with zymosan may influence the cytokine production through IP, EP2, and EP4 receptors.

Evidence for bradykinin mediation of carrageenin-induced inflammatory pain: a study using kininogen-deficient Brown Norway Katholiek rats

Inflammatory pain was induced following an intradermal injection of carrageenin into rat paws, and the hyperalgesia was measured in terms of withdrawal time following thermal pain stimulation of the inflamed paw. This hyperalgesia was significantly less in kininogen-deficient Brown Norway (B/N)-Katholiek rats, which also showed less swelling in carrageenin-induced paw edema, than in normal B/N-Kitasato rats at 1 approximately 4 hr after the carrageenin injection (at the early phase). However, 24 hr after the injection, hyperalgesia and the swelling volume of the kininogen-deficient rats were almost the same as those in normal rats. The bradykinin B2 receptor antagonist FR173657, (E)-3-(6-acetamido-3-pyridyl)-N-[N-[2,4-dichloro-3-[(2-methyl-8-quinolinyl)oxymethyl]phenyl]-N-methylaminocarbonylmethyl]acrylamide, attenuated the carrageenin-induced swelling and hyperalgesia of the normal rats at the early phase to almost the levels of the B/N-Katholiek rats. Pretreatment with indomethacin, a cyclooxygenase inhibitor, also inhibited the carrageenin-induced responses significantly in normal rats. These results indicate that bradykinin, acting on the B2 receptor, is the main mediator at the early phase of inflammatory pain of carrageenin edema and that prostaglandins, produced by cyclooxygenase, potentiate the effects of bradykinin.

Strenuous endurance training in humans reduces oxidative stress following exhausting exercise

The aim of this study was to evaluate whether high-intensity endurance training would alleviate exercise-induced oxidative stress. Nine untrained male subjects (aged 19-21 years) participated in a 12-week training programme, and performed an acute period of exhausting exercise on a cycle ergometer before and after training. The training programme consisted of running at 80% maximal exercise heart rate for 60 min.day-1, 5 days.week-1 for 12 weeks. Blood samples were collected at rest and immediately after exhausting exercise for measurements of indices of oxidative stress, and antioxidant enzyme activities [superoxide dismutase (SOD), glutathione peroxidase (GPX), and catalase (CAT)] in the erythrocytes. Maximal oxygen uptake (VO2max) increased significantly (P < 0.001) after training, indicating an improvement in aerobic capacity. A period of exhausting exercise caused an increase (P < 0.01) in the ability to produce neutrophil superoxide anion (O2.-) both before and after endurance training, but the magnitude of the increase was smaller after training (P < 0.05). There was a significant increase in lipid peroxidation in the erythrocyte membrane, but not in oxidative protein, after exhausting exercise, however training attenuated this effect. At rest, SOD and GPX activities were increased after training. However, there was no evidence that exhausting exercise enhanced the levels of any antioxidant enzyme activity. The CAT activity was unchanged either by training or by exhausting exercise. These results indicate that high-intensity endurance training can elevate antioxidant enzyme activities in erythrocytes, and decrease neutrophil O2.- production in response to exhausting exercise. Furthermore, this up-regulation in antioxidant defences was accompanied by a reduction in exercise-induced lipid peroxidation in erythrocyte membrane.

Inhibition of adipocyte lipolysis by papaverine: papaverine can inhibit the redistribution of hormone-sensitive lipase

Papaverine, despite being a potent phosphodiesterase inhibitor, actually blocks adipocyte lipolysis. The present study was designed to clarify the mechanism of the inhibitory effect of papaverine on lipolysis. Lipolysis, stimulated by either 10 microM isoproterenol or 5 mM dibutyryl cAMP, was significantly inhibited by papaverine (100 microM and above). Papaverine, however, did not affect the isoproterenol-induced increase in the protein kinase A (A-kinase) activity ratio. In cell-free extract from non-stimulated adipocytes, cAMP-stimulated A-kinase activities were almost completely blocked by H-89, a potent inhibitor of A-kinase, but not by papaverine. Thus, the inhibitory effect of papaverine on lipolysis could be responsible for a deficit in step(s) distal to A-kinase activity. Hormone-sensitive lipase activities in the infranatant fraction of centrifuged homogenates of cells, which were maximally stimulated with isoproterenol were significantly reduced. This result indicates that hormone-sensitive lipase redistributes from cytosol to its substrate in lipolytically stimulated cells. Papaverine completely blocked the isoproterenol-induced decrease in lipase activity in the infranatant fraction. These results suggest that papaverine blocks lipolysis through its inhibitory effect on the redistribution of hormone-sensitive lipase.

Unloading does not increase brown-adipose-tissue activity in rat pups

Our previous study has shown that chronic hindlimb suspension leads to an increase in both the thermogenic capacity and the activity in brown adipose tissue (BAT) of adult rats (Yamashita, H., Ohira, Y., Wakatsuki, T., Yamamoto, M., Kizaki, T., Oh-ishi, S., Sato, Y. and Ohno, H. (1995). J. Appl. Physiol. 78: 384-387). In order to examine if unloading also increases the BAT activity in rat pups, the hindlimbs in the suspended pups were unloaded by tail suspension beginning on postnatal day 4 and suspended until day 21. The thermogenic activity (which was assessed by guanosine 5'-diphosphate binding to BAT mitochondria) was markedly lower in 21-day-old suspended pups than in 21-day-old control pups, although there was no difference in uncoupling protein 1 (UCP1) content or UCP1 mRNA expression in the BAT mitochondrial fraction between both pups. Likewise, there was no disparity in either adrenal or thymus mass between the control and suspended pups throughout the experiment. These results suggest that, in contrast to adult rats, chronic hindlimb suspension leads to a decrease in the thermogenic activity in BAT of rat pups possibly for reason that pups are less susceptible to the stress of unloading.

Intrinsic prostacyclin contributes to exudation induced by bradykinin or carrageenin: a study on the paw edema induced in IP-receptor-deficient mice

To prove that prostaglandin I2 (PGI2) is a major prostaglandin involved in bradykinin-induced exudation, we examined carrageenin- or bradykinin-induced paw edema in prostacyclin receptor-deficient mice (IPKO). Paw volume of wild-type mice (IPWT) increased gradually 5-6 hr after the carrageenin injection in a similar manner as in ICR mice, but the swelling in IPKO mice was significantly smaller (about 60% of the IPWT volume). Indomethacin, at 10 mg/kg, suppressed the swelling of the IPWT paw to the level of the non-pretreated IPKO, which was not affected by indomethacin, confirming the previous result that PGI2 is a major prostaglandin involved in the swelling. The paw edema of IPWT and IPKO was significantly attenuated by the nonpeptide bradykinin B2-receptor antagonist FR173657, at 30 mg/kg, to the same level of swelling, indicating kinin involvement. Injection of bradykinin (1.2 nmole) into the paw caused rapid edema, which peaked around 15 min in both mice. However, the edema induced in IPKO was smaller and almost at the same level as that elicited in the indomethacin-treated IPWT, suggesting that edema induced by bradykinin includes the intrinsic effect of PGI2. Concomitant injection of carbacyclin with bradykinin caused enhancement of edema in IPWT mice but not in IPKO mice, indicating that intrinsic PGI2 could cause enhancement of bradykinin- or even carrageenin-induced edema formation. These results clearly demonstrate that bradykinin released by carrageenin may be a key mediator to induce PGI2 formation, and both autacoids work together to induce enhanced inflammatory exudation.

Examination of signal transduction pathway of stimulated B1 and B2 kinin receptors; MAP kinase pathway to AP-1 translocation in HEK 293 cells

B1 or B2 kinin receptor-overexpressing HEK293 cells were stimulated with des-Arg9-BK or BK, respectively. Each agonist induced translocation of AP-1 into the nuclear fraction as well as activation of MAP kinases in each cells. MAP kinase inhibitor PD98059 suppressed translocation of AP-1 and agonist-induced MAP kinase activation in both cells. These results indicate that stimulation of B1 or B2 receptor expresses a feature of the signal transduction pathway of MAP kinase activation to translocation of AP-1. This signal transduction pathway of HEK cells through B1 and B2 receptors may be similar in response to respective agonists.

FR190997, a novel bradykinin B2 agonist, expresses longer action than bradykinin in paw edema formation and hypotensive response

Biological actions of a novel non-peptide B2 receptor agonist, FR190997, were examined by comparing them with those of bradykinin. The paw edema was induced by subcutaneous injection of 30 microl of solution of bradykinin (0.3, 0.6, and 1.2 nmol) or FR190997 (0.1, 0.3, and 0.9 nmol) into the right hind paw of ICR male mice. Bradykinin caused a dose-dependent edema formation, which peaked at 15 min and ceased after 150 min. FR190997 also formed a dose-dependent edema, peaking at 15-30 min with a slight delay compared to bradykinin and this response continued over 200 min. The edema formed by bradykinin or FR190997 was inhibited by pretreatment with HOE140 (1 mg/kg) injected intraperitoneally 30 min before the injection of each agonist. A novel non-peptide B2 antagonist, FR173657 (30 mg/kg, i.p. 30 min before the agonist), also diminished these responses by bradykinin and FR190997 dose-dependently. Indomethacin (10 mg/kg, i.p. 30 min before) inhibited the response to FR190997, suggesting that release of prostaglandins induced by the B2 agonistic action might be involved in this inflammatory process induced by FR190997. The hypotensive action of FR190997 was also examined. Intravenously injected FR190997 caused the systemic hypotensive response in Sprague-Dawley male rats anesthetized with pentobarbital. The potency of FR190997 was weaker than that of bradykinin, when compared with the maximal hypotension. Duration of the hypotensive response of FR190997 was significantly longer than that of bradykinin. These results indicate that FR190997 has the B2 agonistic action similar to bradykinin and is also a good tool for in vivo examination of the B2 receptor.

Generation of inflammatory cytokines in zymosan-induced pleurisy in rats: TNF induces IL-6 and cytokine-induced neutrophil chemoattractant (CINC) in vivo

Levels of inflammatory cytokines tumour necrosis factor (TNF), interleukin 1 (IL-1), IL-6, and cytokine-induced neutrophil chemoattractant (CINC), which is a member of the alpha-chemokine family in rats, were measured in the pleural exudates during zymosan-induced pleurisy to examine the relationship between the local production of cytokines and the inflammatory reaction. All four cytokine levels in the pleural exudate began to increase after 1-2 h, preceding the influx of neutrophils, and peaked after 4-5 h. Thereafter, these cytokine levels declined after 24 h, whereas the exudate volume still continued to increase and leukocyte number reached a plateau. Concomitant injection of actinomycin D (10 microg) with zymosan markedly suppressed the neutrophil infiltration, parallel with CINC production in the pleural exudate at 4 h. A transient elevation of IL-6 level, peaking at 5 h, and subsequent rise in the level of an acute-phase protein, T-kininogen, were also observed in the plasma. When recombinant human TNF-alpha (rhTNF-alpha) (20 000 U) was intrapleurally injected a rapid increase in pleural CINC level, followed by neutrophil infiltration, and a sharp rise in IL-6 level in the plasma, followed by an increase in T-kininogen, were demonstrated. These results suggest that CINC produced in the pleural exudate may participate in neutrophil infiltration, that IL-6 induced in the plasma stimulates T-kininogen production, and that endogenous TNF may be partly involved in the induction of CINC and IL-6 in this zymosan inflammation.

Agonist stimulation of B1 and B2 kinin receptors causes activation of the MAP kinase signaling pathway, resulting in the translocation of AP-1 in HEK 293 cells

In response to bradykinin, phosphorylated MAP kinases (ERK-1 and ERK-2) were abundantly increased in HEK 293 cells, which overexpress the rat B2 kinin receptor. In a similar way des-Arg9-bradykinin stimulation of B1 kinin receptor-overexpressing HEK 293 cells caused activation of the same species of MAP kinase. Furthermore, nuclear translocation of transcription factor AP-1 was also found in the cells after stimulation with either agonist. PD98059, a MAP kinase kinase (MEK-1) inhibitor, blocked the agonist-induced AP-1 translocation as well as the phosphorylation of the MAP kinases. This communication provides the first evidence for both B1 and B2 kinin receptors mediating the MAP kinase signaling pathway to activate AP-1.

Mouse paw edema induced by a novel bradykinin agonist and its inhibition by B2-antagonists

A novel non-peptide bradykinin B2-receptor agonist, FR190997 (8-[2,6-dichloro-3-[N-[(E)4-(N-methylcarbamoyl)cinnamidoacetyl+ ++]-N-methylamino]benzyloxy]-2-methyl-4-(2-pyridylmethoxy)quinolin e), induced dose-dependent and longer-lasting swelling than bradykinin in the mouse paw. The swelling, peaking around 30 min, was suppressed dose-dependently by intraperitoneal administration of FR173657, a novel non-peptide B2-receptor antagonist. A known B2-antagonist, Hoe 140, also significantly suppressed this edema. The result indicates that the novel B2-agonist FR190997, being more stable than bradykinin, could induce plasma exudation locally in mice via the B2-receptor as a substitute for bradykinin.

Induction of cyclooxygenase-2 causes an enhancement of writhing response in mice

Pretreatment of mice with lipopolysaccharide for 16 h enhanced the number of acetic acid-induced writhing reactions by 2 to 3-fold. In the peritoneal exudates at 10 min after acetic acid injection, 6-keto-prostaglandin F1alpha was detected as a major prostanoid, and this level increased by several-fold by the pretreatment with lipopolysaccharide. The writhing reaction and the prostaglandin formation were almost completely suppressed by indomethacin. However, the lipopolysaccharide-induced enhancement of writhing reaction and an increment of 6-keto-prostaglandin F1alpha level were diminished by the administration of cyclooxygenase-2-selective inhibitors, such as NS-398, nimesulide, or L-745337, to a level similar to the mice that did not receive lipopolysaccharide. Cyclooxygenase-2 protein in the exudates became detectable at 5-48 h after the lipopolysaccharide-pretreatment. These results suggest that the increased prostaglandin production by cyclooxygenase-2 could be responsible for enhancement of the acetic acid-induced writhing reaction by lipopolysaccharide pretreatment.

Segregated coupling of phospholipases A2, cyclooxygenases, and terminal prostanoid synthases in different phases of prostanoid biosynthesis in rat peritoneal macrophages

We examined herein the functional linkage of enzymes regulating the initial, intermediate, and terminal steps of PG biosynthesis to provide PGs in rat peritoneal macrophages stimulated with LPS and/or A23187. Quiescent cells stimulated with A23187 produced thromboxane B2 (TXB2) in marked preference to PGE2 within 30 to 60 min (constitutive immediate response), which was mediated by preexisting cytosolic phospholipase A2 (cPLA2), cyclooxygenase-1 (COX-1), and TX synthase. Cells treated with LPS predominantly produced PGE2 during culture for 3 to 24 h (delayed response), where cPLA2 and secretory PLA2 functioned cooperatively with inducible COX-2, which was, in turn, coupled with inducible PGE2 synthase. Cells primed for 12 h with LPS and stimulated for 30 min with A23187 produced PGE2 in marked preference to TXB2 (induced immediate response), in which three inducible enzymes, cPLA2, COX-2, and PGE2 synthase, were functionally linked. Preferred coupling of the two inducible enzymes, COX-2 and PGE2 synthase, was further confirmed by the ability of LPS-treated cells to convert exogenous arachidonic acid to PGE2 optimally at a time when both enzymes were simultaneously induced. These results suggest that distinct PG biosynthetic enzymes display segregated functional coupling following different transmembrane stimulation events even when enzymes that catalyze similar reactions in vitro coexist in the same cells.

Effect of age on brown adipose tissue activity in the obese (ob/ob) mouse

Brown adipose tissue (BAT), a highly thermogenic tissue in young animals, is relatively atrophied and thermogenetically quiescent (e.g. as measured by colonic temperature) in mice that are obese or old. The aim of the current study was to investigate the effect of aging (3.1 (young) versus 14.6 (old) months old) on BAT activity in lean and obese (ob/ob) mice. In young but not in old mice, BAT mass in terms of weight per unit body weight was significantly lower in obese mice than in lean mice. A significant increase in BAT mass of obese mice with age was noted in terms of weight or weight per unit body weight, probably because of a tendency to become white adipose tissue and the deposit of fat, accompanied by the lowest levels of total protein, guanosine 5'-diphosphate binding, and uncoupling protein (UCP) antigen in the mitochondria of BAT, as well as the lowest colonic temperature among the groups examined. Unlike old lean animals, the old obese (ob/ob) animals did not increase but rather decreased the expression of mRNA for UCP in the mitochondria of BAT. These findings suggest that a marked decrease in BAT thermogenic capacity and activity is noted in old obese mice, probably due to synergism of aging and obesity.

Endurance training improves the resistance of rat diaphragm to exercise-induced oxidative stress

The current study was designed to test the hypothesis that endurance training improves the ability of the diaphragm muscle to resist exercise-induced oxidative stress. Twenty-eight male Wistar rats were assigned to either untrained or trained groups. Trained rats were treadmill-trained for 9 wk. Each group was subdivided into acutely exercised or nonexercised groups. Diaphragm muscle from each rat was analyzed to determine the levels of certain antioxidant enzymes: Mn-superoxide dismutase (Mn-SOD), Cu,Zn-superoxide dismutase (Cu,Zn-SOD), glutathione peroxidase, and catalase. In addition, interleukin-1 and myeloperoxidase levels were determined. Endurance training upregulated all of the antioxidant enzymes. Conversely, acute exercise increased glutathione peroxidase and catalase in untrained rats, while it had no overt effect on any antioxidant enzymes in trained rats. Both Mn-SOD and Cu,Zn-SOD contents and activities were increased with endurance training. However, the mRNA expressions of both forms of SOD did not show any significant change with endurance training. Acute exercise also increased the levels of interleukin-1 and myeloperoxidase in untrained rats but not in trained rats. Moreover, acute exercise significantly increased the ability of neutrophils to produce superoxide, especially in untrained rats. The results from this study demonstrate that endurance training can upregulate certain antioxidant enzyme activities in rat diaphragm muscle, indicating the potential for improvement of the resistance to intracellular reactive oxygen species. The results of this study also suggest that acute exercise may cause oxidative damage in rat diaphragm through the activation of the inflammatory pathway and that endurance training may minimize such an extracellular oxidative stress by acute exercise.

[Induction of bradykinin B1 receptor in rats]

We found the time-dependent induction of the systemic hypotensive response to des-Arg9-bradykinin and the contractile response of ileum of rats to des-Arg9-bradykinin. Both induced responses to des-Arg9-bradykinin were inhibited by treatment with a B1 receptor competitive antagonist, while the responses to bradykinin was constant throughout the experiment and was not influenced by the B1 antagonist, suggesting that these responses occur via a B1 receptor. The potencies of des-Arg9-bradykinin in these responses were comparable to those of bradykinin at a molar base. The other characteristics of this phenomenon is that several hours were required to the induction of these responses. In a case of hypotensive response, intravenous LPS pretreatment was necessary, but not for the induction of contraction in ileum preparation. Treatment with actinomycin D or cycloheximide throughout the experiment suppressed the induction of the contractile response to des-Arg9-bradykinin. The expression of B1 receptor gene was also confirmed by a RT-PCR method. Therefore, we concluded that these responses to des-Arg9-bradykinin occurred via a B1 receptor, which could be newly generated time-dependently.

Altered pain perception and inflammatory response in mice lacking prostacyclin receptor

Prostanoids are a group of bioactive lipids working as local mediators and include D, E, F and I types of prostaglandins (PGs) and thromboxanes. Prostacyclin (PGI2) acts on platelets and blood vessels to inhibit platelet aggregation and to cause vasodilatation, and is thought to be important for vascular homeostasis. Aspirin-like drugs, including indomethacin, which inhibit prostanoid biosynthesis, suppress fever, inflammatory swelling and pain, and interfere with female reproduction, suggesting that prostanoids are involved in these processes, although it is not clear which prostanoid is the endogenous mediator of a particular process. Prostanoids act on seven-transmembrane-domain receptors which are selective for each type. Here we disrupt the gene for the prostacyclin receptor in mice by using homologous recombination. The receptor-deficient mice are viable, reproductive and normotensive. However, their susceptibility to thrombosis is increased, and their inflammatory and pain responses are reduced to the levels observed in indomethacin-treated wild-type mice. Our results establish that prostacyclin is an antithrombotic agent in vivo and provide evidence for its role as a mediator of inflammation and pain.

[Analysis of chemical mediators involved in acute inflammatory reaction with the rat pleurisy model]

Mediators involved in acute inflammation were explored by using rat pleurisies induced by carrageenin or zymosan. The kallikrien-kinin system and eicosanoids were the main mediators responsible for plasma exudation in carrageenin-induced rat pleurisy, while histamine, PAF and the complement system could be the main mediators involved in the vascular permeability increase to cause plasma exudation into the pleural cavity in zymosan-induced rat pleurisy. Several chemokines were detected in the pleural exudates of carrageenin-pleurisy as well as those of zymosan-pleurisy; and exogenous recombinant TNF alpha, IL-1, IL-6 and CINC induced neutrophil migration into rat pleural cavity. These results suggest that these chemokines, directly or indirectly, may partly cause neutrophil migration in the pleural exudates during carrageenin- and zymosan-induced pleurisy. In addition, chemokine production in response to prostanoids and PAF production in response to arachidonic acid were also suggested.

Effects of endurance training on superoxide dismutase activity, content and mRNA expression in rat muscle

1. The purpose of the present study was to investigate the changes in superoxide dismutase (SOD) isoenzyme (Mn(2+)-SOD and Cu2+, Zn(2+)-SOD) activities, contents and mRNA expressions in rat skeletal muscle during endurance training and a single bout of exercise. 2. Thirty-eight male Wistar rats were divided into untrained (U) and trained (T) groups. The T group rats were treadmill-trained for 9 weeks. The activity, content and mRNA expression of Mn(2+)-SOD and Cu2+, Zn(2+)-SOD were determined in the soleus muscle of each rat. 3. Mn(2+)-SOD activity and content in the T group were significantly higher than in the U group, both at rest (22 and 21%, respectively) and after exercise (24 and 46%, respectively), while a single bout of exercise affected neither the activity nor content of Mn(2+)-SOD in either group. 4. The content of Cu2+,Zn(2+)-SOD in both groups was not different at rest and after exercise, although its activity at rest was significantly higher in the T group than in the U group (by 29%). 5. After exercise, the expression of Mn(2+)-SOD mRNA was markedly attenuated only in the U group (49%); the expression of Cu2+,Zn(2+)-SOD mRNA was not influenced by exercise. 6. Our results suggest that adequate endurance training increases both the activity and content of Mn(2+)-SOD and that untrained rats are rather susceptible to oxidative stress during physical exercise. It thus appears that Mn(2+)-SOD provides a reliable index of physical training. 7. The results obtained in the present study also suggest that muscle has the capacity of responding to training in such a manner as to reduce the potential harm arising from the accumulation of oxygen free radicals resulting from enhanced metabolic activity.

Effect of swimming training on antioxidant enzymes in kidney of young and old mice

The current study was undertaken to investigate the effect of swimming training on the antioxidant enzyme system in kidney of young and old mice. Both young and old mice, aged 2 and 26 months old, respectively, were divided into the sedentary and swimming-trained groups. The trained mice underwent a 6-week swimming program (1 h/day, 5 days/week) in water at 35-36 degrees C. Cu,Zn-superoxide dismutase (Cu,Zn-SOD) activity was significantly decreased with aging but was not influenced by swimming training, such changes being similar to those noted for catalase activity rather than for glutathione peroxidase activity. After swimming training Mn-SOD activity increased significantly only in old mice but was unaffected by aging. Although neither aging nor swimming training had overt effect on the expression of Cu,Zn-SOD mRNA, the immunoreactive Cu,Zn-SOD content in young mice decreased significantly after the training. Meanwhile, Mn-SOD mRNA expression in old mice was reduced by half after swimming training, accompanied by a significant decrease in its immunoreactive content; unexpectedly, however, Mn-SOD content in young mice did not parallel its mRNA expression. These findings suggest that the antioxidant enzyme system in mouse kidney trends to be down-regulated with aging, and that swimming training fails to attenuate such reduced levels of the antioxidant enzymes.

Reactive nitrogen intermediates promote low density lipoprotein oxidation in human atherosclerotic intima

Oxidized low density lipoprotein (LDL) may be of central importance in triggering atherosclerosis. One potential pathway involves the production of nitric oxide (NO) by vascular wall endothelial cells and macrophages. NO reacts with superoxide to form peroxynitrite (ONOO-), a potent agent of LDL oxidation in vitro. ONOO- nitrates the aromatic ring of free tyrosine to produce 3-nitrotyrosine, a stable product. To explore the role of reactive nitrogen species such as ONOO- in the pathogenesis of vascular disease, we developed a highly sensitive and specific method involving gas chromatography and mass spectrometry to quantify 3-nitrotyrosine levels in proteins. In vitro studies demonstrated that 3-nitrotyrosine was a highly specific marker for LDL oxidized by ONOO-. LDL isolated from the plasma of healthy subjects had very low levels of 3-nitrotyrosine (9 +/- 7 micromol/mol of tyrosine). In striking contrast, LDL isolated from aortic atherosclerotic intima had 90-fold higher levels (840 +/- 140 micromol/mol of tyrosine). These observations strongly support the hypothesis that reactive nitrogen species such as ONOO- form in the human artery wall and provide direct evidence for a specific reaction pathway that promotes LDL oxidation in vivo. The detection of 3-nitrotyrosine in LDL isolated from vascular lesions raises the possibility that NO, by virtue of its ability to form reactive nitrogen intermediates, may promote atherogenesis, counteracting the well-established anti-atherogenic effects of NO.

Concordant induction of prostaglandin E2 synthase with cyclooxygenase-2 leads to preferred production of prostaglandin E2 over thromboxane and prostaglandin D2 in lipopolysaccharide-stimulated rat peritoneal macrophages

Rat peritoneal macrophages were stimulated with lipopolysaccaride (LPS) for various periods and their ability to convert exogenous arachidonic acid to various prostanoids was examined. Unstimulated cells, which expressed cyclooxygenase (COX)-1 but not COX-2, produced thromboxane (TX) B2 > prostaglandin (PG) D2 > PGE2, whereas cells stimulated for 6-12 h with LPS exhibited marked increase in conversion to PGE2, which paralleled COX-2 induction, with minimal change in conversion to TXB2 and PGD2. Pharmacological studies showed that formation of PGE2 was mediated predominantly by COX-2, PGD2 by COX-1, and TXB2 by both COX-1 and COX-2 depending upon the timing of LPS stimulation. Measurement of the conversion of exogenous PGH2 to each prostanoid in cell lysates demonstrated LPS-dependent increase in PGE2 synthase activity that was degenerated by pretreatment with actinomycin D or cycloheximide. Thus, concordant induction of terminal PGE2 synthase with COX-2 leads to the preferred production of PGE2 to TXB2 and PGD2 by LPS-stimulated macrophages.

Effects of swimming training on brown-adipose-tissue activity in obese ob/ob mice: GDP binding and UCP m-RNA expression

Brown adipose tissue (BAT) of obese animals is generally in a relatively atrophied and thermogenically quiescent state. The aim of the current study was to investigate the effect of swimming training on BAT activity in lean and obese (ob/ob) mice. The trained mice underwent a 6-week endurance swimming training (1 h/day, 5 days/week) in water at 35-36 degrees C. The swimming training significantly increased BAT mass and its protein content in both the lean and obese mice, suggesting hypertrophy. After swimming training, the amounts of protein and guanosine 5'-diphosphate binding in the mitochondria recovered from BAT of both mice increased significantly as compared with the respective sedentary groups, whereas the uncoupling protein (UCP) content increased significantly only in lean mice. After swimming training, the level of UCP mRNA expression did not change substantially in lean mice but appeared to increase in obese mice. The results obtained here suggest that swimming training leads to an increase in the nonshivering thermogenesis of obese mice in addition to lean mice.

Glucocorticoid-mediated generation of suppressor macrophages with high density Fc gamma RII during acute cold stress

Acute cold stress induces adherent cells with suppressor function, resulting in immunosuppression. Glucocorticoids (GC) are known as an inhibitor of the immune system and are increased by stress through stimulation of the hypothalamic-pituitary-adrenal axis. To elucidate the mechanisms underlying acute cold stress-induced immunosuppression, functions and surface phenotypes of murine peritoneal cells of the monocyte/macrophage lineage from acute cold-stressed mice (5 C for 3 or 24 h) in addition to the role of GC in the immunomodulation were investigated. Flow cytometric analysis revealed that the proportion of MAC-1+ cells with a high density of Fc gamma RII (Fc gamma RIIbright cells) was markedly increased in the peritoneal exudate cells from acute cold-stressed mice. These Fc gamma RIIbright cells were also stained with F4/80, a monoclonal antibody directed specifically against the mouse mature macrophages. The prominent suppressor activity for Concanavalin A (Con A) responses of control spleen cells was found in Fc gamma RIIbright cells, whereas MAC-1+ cells, with a low density of Fc gamma RII (Fc gamma RIIdull cells), from the stressed mice did not suppress the Con A responses. Fc gamma RIIbright cells from control mice also suppressed the Con A responses; the inhibitory effect was considerably less than that of cells from acute cold-stressed mice. As was anticipated, serum corticosterone levels were markedly increased in acute cold-stressed mice. In addition, expression of GC receptor messenger RNA was observed in Fc gamma RIIbright cells from these mice. The increase in Fc gamma RIIbright cells in peritoneal exudate cells caused by acute cold stress was inhibited by adrenalectomy or administration of a saturating amount of the GC antagonist RU 38486 (mifepristone). On the contrary, administration of the GC agonist, dexamethasone, markedly increased the proportion of Fc gamma RIIbright cells in peritoneal exudate cells of control mice. These results suggest that the generation of Fc gamma RIIbright suppressor cells of monocyte/macrophage lineage by acute cold stress was mediated to a greater or lesser degree by the action of GC through the GC receptor.

Effects of aging and/or training on antioxidant enzyme system in diaphragm of mice

We investigated the effects of aging and/or swimming training on the antioxidant enzyme system in diaphragm of mice. Young (2 months old) and old (26 months old) male mice were swimming-trained for 6 weeks (1 h/day, 5 days/week). Cu,Zn-Superoxide dismutase (Cu,Zn-SOD) activity was significantly upregulated with aging, and swimming training definitely enhanced the activity only in young mice. Neither aging nor swimming training had overt effect on Mn-SOD activity. Glutathione peroxidase activity in young mice was significantly increased after training, but not in old mice. Both of immunoreactive Cu,Zn-SOD and Mn-SOD were significantly increased with aging but were unaffected by swimming training. Consequently, physical training significantly enhanced the specific activity of Cu,Zn-SOD in young mice, but not in old mice. Meanwhile, swimming training significantly increased xanthine oxidase activity in both age groups, the extent of the increase being greater in old mice than in young mice. We concluded that the antioxidant enzyme system in mouse diaphragm trends to be upregulated with aging, but that swimming training improved the system only in young mouse diaphragm.

Decreased vascular sensitivity after acute exercise and chronic exercise training in rat thoracic aorta

The effects of acute and chronic physical exercise on the sensitivity of isolated aorta to norepinephrine were investigated. After chronic exercise, the EC50 values for norepinephrine increased 3.1-fold and 2.3-fold in endothelium-intact and in endothelium-denuded aorta, respectively. The attenuated sensitivity of aorta to norepinephrine after chronic exercise was still evident in endothelium-denuded aorta, but to a lesser extent than in endothelium-intact aorta. After acute exercise, in control rats, the EC50 values increased 7.8-fold and 5.4-fold in endothelium-intact and endothelium-denuded aorta, respectively. The attenuated sensitivity of aorta to norepinephrine after an acute exercise was still evident in endothelium-denuded aorta. In trained rats, the EC50 values increased 2.3-fold and 2.6-fold in endothelium-intact and endothelium-denuded aorta, respectively. Thus, acute exercise was less effective in trained than in control rats. No significant difference in 60 mM KCl-induced tension between control and trained rats was observed with or without endothelium after acute and chronic exercise. The results suggest that levels of endothelium-dependent releasing factor may increase in response to norepinephrine after acute and chronic exercise. In addition, the attenuated sensitivity of aorta to norepinephrine after acute and chronic exercise may also result from the change(s) in the receptor sites. However, the degree of desensitization caused by acute exercise was less in the rats adapted to chronic exercise than in the sedentary control rats.

Swimming training improves brown-adipose-tissue activity in young and old mice

The impairment of brown adipose tissue (BAT) thermogenic activity with aging has been well documented. The current study investigated the effect of swimming training on BAT activity in 2-month-old (young) and 26-month-old (old) male mice. The trained mice underwent a 6-week swimming program (1 h/day, 5 days/week) in water at 35-36 degrees C. Compared with young sedentary mice, the BAT-to-body mass ratio was markedly smaller in old sedentary mice, accompanied by the decreased amount of protein, whereas there was no significant difference in uncoupling protein (UCP) content, UCP mRNA expression, or guanosine 5'-diphosphate (GDP) binding (an index of UCP activity) between young and old mice. Meanwhile, the swimming training definitely increased BAT mass and its protein content in both the young and old mice, suggesting hypertrophy and hyperplasia. In addition, after the swimming training, the amounts of protein, UCP antigen, and GDP binding in the mitochondria recovered from BAT of both mice increased significantly as compared with the respective sedentary groups, while the expression of UCP mRNA did not vary substantially. These findings suggest that, irrespective of age, swimming training enhances the thermogenic activity and capacity in BAT of mice.

Acute cold stress induces suppressor macrophages in mice

To elucidate mechanisms underlying acute cold stress-induced immunosuppression, functions of murine peritoneal cells of monocyte/ macrophage lineage from acute cold-stressed mice (exposed to 5 degrees C for 24 h) were investigated. Proliferative responses of spleen cells from control mice (reared at 25 degrees C) stimulated with concanavalin A (ConA) were significantly suppressed by adding peritoneal exudate cells from mice immediately after acute cold stress. The proportion of adherent cells was markedly increased in the peritoneal exudate cells from acute cold-stressed mice. These adherent cells from acute cold-stressed mice were shown to be the cells responsible for the suppressor activity for ConA responses of control spleen cells. Nonadherent cells did not suppress the ConA responses. The adherent cells in peritoneal exudate cells from control mice also suppressed the ConA responses, the inhibitory effect being considerably lower than that from acute cold-stressed mice. Addition of a nitric oxide synthase substrate analogue, NG-monomethyl-L-arginine, to the mixed cell cultures of normal spleen cells and adherent cells from acute cold-stressed mice inhibited nitric oxide release and completely abolished the suppressive effect of the adherent cells, suggesting that reactive nitrogen oxide released from the activated macrophages is apparently involved in the downregulation of proliferative responses of T cells. Thus the present findings suggest that acute cold stress induces macrophages with suppressor function and that this may contribute to the immune-suppressive state seen in spleen cells from acute cold-stressed mice.

Induction of a B1-receptor mediating hypotensive response in young brown Norway rats

A hypotensive response to intravenously injected des-Arg9-bradykinin was elicited in young male Brown Norway rats (8-12 weeks-old), when the rats were intravenously injected with endotoxin (30 micrograms/kg) 24 h before they were repeatedly injected with bradykinin or des-Arg9-bradykinin. The potency of this inducible dose-dependent hypotensive response to des-Arg9-bradykinin was comparable to that induced by bradykinin on a molar base (3-30 nmol/kg). A hypotensive response to des-Arg9-bradykinin could also be induced when the rats were pretreated with endotoxin 6 h before. However, the potency of the response was less than that induced by 24-h pretreatment. This inducible response to des-Arg9-bradykinin did not occur in old rats (8-10 months old). Intravenous infusion of a B1-receptor antagonist, des-Arg9-[Leu8]-bradykinin, suppressed the hypotensive response of des-Arg9-bradykinin. These results suggest that the B1-receptor, mediating hypotension in rats, was inducible through time-dependent and age-dependent sensitization by endotoxin pretreatment.

Inhibitory effect of arachidonic acid on platelet-activating factor production in rat neutrophils

Platelet-activating factor production in rat neutrophils in response to opsonized zymosan was suppressed dose dependently in the presence of 10-100 microM arachidonic acid. The amount of lyso-PAF was also reduced by these doses of arachidonic acid. Phospholipase A2 activity was not changed by addition of arachidonic acid up to 100 microM, but acetyltransferase activity was slightly reduced at a 100 microM concentration of arachidonic acid. Pretreatment with indomethacin did not alter the inhibitory effect of arachidonic acid on PAF production, indicating no involvement of cyclooxgenase products. Triacsin C, an acyl-CoA synthetase inhibitor, reversed the arachidonic acid-induced suppression of lyso-PAF and PAF production, suggesting that arachidonic acid might exert its inhibition via the acylation pathway of lyso-PAF to reduce the availability of lyso-PAF.

Effects of prostaglandins and cyclic AMP on cytokine production in rat leukocytes

Prostaglandins E1, prostaglandin E2, 3-oxa-methano-prostaglandin I1 (SM-10906), a stable prostaglandin I2 analog, and dibutyryl cyclic AMP suppressed the production of tumor necrosis factor and interleukin-1 in lipopolysaccharide-stimulated rat pleural resident monocytic cells, whereas they enhanced the production of interleukin-6 and cytokine-induced neutrophil chemoattractant (CINC), a rat interleukin-8-like chemokine, in these cells. SM-10906 also inhibited the in vivo production of tumor necrosis factor and interleukin-1 in pleural exudates, when injected into the rat pleural cavity concomitantly with carrageenin. The cyclic AMP (cAMP) level in the lipopolysaccharide-stimulated resident cells was increased when the cells were incubated in the presence of prostaglandin E1, prostaglandin E2 or SM-10906. Prostaglandin I2 showed only slight effects. The addition of pentoxifylline, a phosphodiesterase inhibitor, to the incubation mixture increased the cAMP level and also enhanced the effect of prostaglandins, indicating that these regulating actions of prostaglandins may be exerted partly through a mechanism involving an increased intracellular cAMP level.

The mediators involved in endotoxin-induced vascular permeability increase in the rat skin and their interactions

The injection of lipopolysaccharide (LPS) from E. Coli into the dorsal skin of rats caused a dose-dependent increase in vascular permeability as measured by the extravasation over a 40-min period of intravenously injected dye. This increase caused by LPS was attenuated by pretreatment with the bradykinin (BK) receptor antagonist HOE140, the selective platelet-activating factor (PAF) antagonist TCV309, and by combined treatment with mepyramine and methysergide. Combined treatment with HOE140 and TCV309 resulted in further suppression than that achieved with a single treatment alone. By the simultaneous pretreatment with all antagonists, the response was almost totally abolished. On the other hand, indomethacin also inhibited the response induced by LPS, but not those induced by BK and PAF itself. A small dose of BK or histamine synergistically potentiated the effect of PAF when simultaneously injected. These results suggest that BK, PAF, histamine/serotonin and prostaglandins are involved in the LPS-induced increase in vascular permeability, where PAF, in addition to its direct action, potentiates the response to BK and histamine, and prostaglandins potentiate the actions of other mediators without its direct action.

[Clinical studies in five cases of Swyer-James syndrome]

We encountered five patients with Swyer-James syndrome. All were men, and ranged in age from 20 to 70 years (mean, 41 years). Their chest X-ray films showed left unilateral hyperlucency. Examinations revealed bilateral involvement in 3 cases and irregularity of involved regions in 2 cases. Chest CT scans revealed the distribution and severity of affected regions in greater detail than did other radiologic exams. Delayed clearance of xenon is a sign of air trapping, which is characteristics of this syndrome. Thus, 133Xe inhalation scintigrams were useful to detect air trapping, especially when mediastinal shift was not apparent on chest X-ray films. Bronchial damage is believed to cause this syndrome, and the present findings support this view. It is noteworthy that all five of these patients were men, and that in all five the affected lung was on the left. Moreover, although "respiratory tract infection is considered to be a very important" factor, many patients had no history of airway infection in childhood. Thus, some congenital factor or factors may contribute to the development of this syndrome.

Norepinephrine stimulates the expression of fibroblast growth factor 2 in rat brown adipocyte primary culture

To elucidate the role of norepinephrine (NE) in the hyperplasia of brown adipose tissue (BAT), we investigated the effects of NE on the expression of fibroblast growth factor-2 (FGF-2) in rat brown adipocyte primary culture and on capillary growth in an in vitro angiogenesis model in which microvascular fragments and brown adipocyte precursor cells isolated from rat BAT were grown in coculture. NE significantly increased the number of brown adipocyte precursor cells. The NE effect on cell proliferation was greatly inhibited by anti-FGF-2-specific antibody. Likewise,NE considerably increased the levels of FGF-2 mRNA and the antigen in brown adipocyte primary culture. The ability of NE to stimulate the expression of FGF-2 mRNA was blocked by actinomycin D or was inhibited partly by propranolol. Moreover, NE considerably increased the in vitro capillary growth and the level of FGF-2 antigen in the coculture. These results suggest that NE is a crucial factor to mediate FGF-2 production, in part via the beta-adrenergic receptor, in rat brown adipocytes and to stimulate the cell proliferation and capillary growth in BAT by an autocrine/paracrine mechanism.

Involvement of bradykinin in endotoxin-induced vascular permeability increase in the skin of rats

The aim of the present study was to investigate the role of bradykinin as well as that of platelet-activating factor in the endotoxin-induced acute vascular permeability increase in the dorsal skin of rats by use of kininogen-deficient and normal Brown-Norway rats. In the kininogen-deficient rats, the dose-dependent dye exudation induced by endotoxin was about one half of that in the normal rats at any doses of endotoxin tested (0.1-1.0 mg per site), whereas the dose-response curves obtained by bradykinin (1-100 nmol per site), platelet-activating factor (0.1-1 nmol per site) or histamine (50-500 nmol per site) were the same in both rats. This effect induced by endotoxin in the kininogen-deficient rats was not changed by pretreatment with a bradykinin B2 receptor antagonist, HOE140 (D-Arg-[Hyp3,Thi5,D-Tic7,Oic8]bradykinin, 1 mg kg-1 i.v.), whereas the endotoxin-induced response in the normal rats was attenuated by the receptor antagonist. These responses in both kininogen-deficient and normal rats were significantly inhibited by a selective platelet-activating factor antagonist, TCV309 (3-bromo-5-[N-phenyl-N-[2-[[2-(1,2,3,4,-tetrahydro-2- isoquinolylcarbonyl-oxy)-ethyl]-carbamoyl]-ethyl]carbamoyl]-1-prop yl- pyridinium nitrate, 0.1 mg kg-1 i.v.). These results suggest that bradykinin could be one of the major mediators in the endotoxin-induced vascular permeability increase in rat skin in addition to platelet-activating factor.

Insulin stimulates the expression of basic fibroblast growth factor in rat brown adipocyte primary culture

The effect of insulin on the hyperplasia of brown adipose tissue (BAT) was investigated using the primary culture of rat brown adipocyte precursor cells (RBAC). Results showed insulin to significantly increase the number of RBAC, but not bovine capillary endothelial cells, in the presence of fetal bovine serum. Insulin also increased the expression of basic fibroblast growth factor (bFGF) mRNA and the related protein in the primary culture of RBAC. In addition, insulin enhanced the capillary growth in an in vitro angiogenesis model in which microvascular fragments and RBAC isolated from rat BAT were grown in coculture. The level of bFGF-related protein in the coculture was higher in the presence of insulin than in the absence of insulin. These findings suggest that insulin may play an important role in the proliferation as well as in the differentiation of brown adipocytes, with resulting hyperplasia of BAT (including the formation of new capillaries) through increased production of bFGF in brown adipocytes.

Activation of phospholipase A2 and acylation of lysophospholipids: the major regulators for platelet activating factor production in rat neutrophils

Rat inflammatory neutrophils induced arachidonic acid release and platelet-activating factor (PAF) production in response to opsonized zymosan (OPZ) dose-dependently. Phospholipase A2 activity also increased dose-dependently, paralleling the increases in arachidonic acid and PAF. The time courses of the activities of phospholipase A2 and acetyltransferase, and the amounts of free arachidonic acid, lyso-PAF, and PAF demonstrated that activation of the enzymes in the remodeling pathway could be required for PAF production in rat neutrophils, which agrees with the documented fact for macrophages. Phospholipase A2 could be a rate-limiting enzyme for PAF production, since an increased lyso-PAF amount or addition of exogenous lyso-PAF reflected the increase in PAF formation in the cells. This phospholipase A2 activity in rat neutrophils could be attributed to cytosolic type phospholipase A2, because the activity was mostly suppressed by a specific antibody to cytosolic phospholipase A2. As previously reported, pretreatment of neutrophils with the acyl-CoA synthetase inhibitor, triacsin C, or the acyltransferase inhibitor, merthiolate, enhanced PAF production as well as arachidonic acid release by the cells in response to OPZ. Triacsin C inhibited arachidonoyl-CoA production and merthiolate suppressed the transacylation of lyso-PAF to 1-alkyl-2-arachidonoyl-GPC. These results suggest that these inhibitors of acylation of lyso-PAF caused accumulation of lyso-PAF, which resulted in enhancement of PAF production when phospholipase A2 and acetyltransferase were activated by OPZ. Thus the activation of cytosolic phospholipase A2 and the acylation of lyso-PAF by such as arachidonic acid could be regulating factors for PAF production in stimulated rat neutrophils.

Identification of rat urinary kinin as bradykinin

Bradykinin (BK)-like activity, which was detected by BK-enzyme-immunoassay, was purified from 80 ml of ureter urine of Sprague-Dawley rats by Sephadex G 25 chromatography, FPLC, and reversed phase HPLC. The purified kinin fraction showed the same retention time as authentic BK on HPLC and produced contraction of isolated rat uterus, the contraction being suppressed by a B2-antagonist Hoe140. There was no other kinin detected on the HPLC at the corresponding retention time to kallidin, arginyl-BK or T-kinin. The peptide showed an amino acid sequence identical to that of BK by amino acid sequence analysis.

Increased growth of brown adipose tissue but its reduced thermogenic activity in creatine-depleted rats fed beta-guanidinopropionic acid

To study the responses of thermogenic activity in brown adipose tissue (BAT) to creatine depletion, male Wistar rats were fed creatine analogue beta-guanidinopropionic acid (beta-GPA) for about 10 weeks. Compared to control rats, a marked decrease in the levels of high-energy phosphates, such as phosphocreatine and ATP, was noted in BAT of beta-GPA rats. Conversely, upward trends in other chemical components (DNA, glycogen, and total protein) in BAT as well as an increase in BAT mass were observed in beta-GPA rats, suggesting a tendency to hyperplasia of the BAT. The thermogenic activity (which was assessed by guanosine 5'-diphosphate binding to BAT mitochondria) in the mitochondria recovered from BAT of beta-GPA rats, however, was not increased in response to such changes but rather decreased. Moreover, uncoupling protein (UCP) content in the mitochondrial fraction of beta-GPA rats was significantly lower than that in control rats (the relative amounts were 77 +/- 6 and 100 +/- 4%, respectively). Nevertheless, surprisingly, the level of UCP mRNA was remarkably greater in beta-GPA rats than in control rats. These observations indicate that there is a discordance between BAT growth and activity in beta-GPA rats, thereby suggesting that a failure on and after UCP translation may be involved in the impairment of BAT thermogenic activity with creatine depletion. The impairment of BAT thermogenic activity, that is, UCP activity may indicate that uncoupling or heat production was inhibited in order to increase the ATP synthesis in BAT of beta-GPA rats in compensation for a reduction in the levels of high-energy phosphates (including ATP), with resultant hypothermia.

Contribution of bradykinin to heat-induced substance P release in the hind instep of rats

To investigate the possible contribution of the bradykinin (BK) system to heat-induced substance P (SP) release from the peripheral endings of primary afferent nerves, we used the high molecular weight (HMW) and low molecular weight (LMW) kininogen-deficient rat strain (Brown Norway-Katholiek, B/N-Ka) and the normal rat strain (Brown Norway-Kitasato, B/N-Ki). We found that immersion of the paw of B/N-Ki rats in water of 47 degrees C for 20 min led to significant increases of BK, SP and Evans blue extravasation in the s.c. perfusate, and that similar treatment resulted in significantly lower levels in B/N-Ka rats. Local application of BK (10(-4) M) to the s.c. perfusate and intra-arterial infusion of BK 10(-5) mol/kg) increased Evans blue extravasation and SP release evoked by heat stimulation, respectively, in B/N-Ka rats to similar levels to those in B/N-Ki rats after heat-stimulation without BK treatment. These results indicate that BK released into the extravascular space by noxious stimulation is involved in SP release from the peripheral endings of capsaicin-sensitive primary sensory neurons.

Diquat increases cysteine proteinase inhibitors greatly in rat plasma and tissues

Biochemical and gross pathological effects of diquat were studied with special attention to cysteine proteinase inhibitor level which was often increased in acute and chronic disorder. Diquat was fed continuously to rats at the dose of 1000 ppm in the diet. After 10 days, anorexia and severe diarrhea were observed but epistaxis and hypokinesia were not apparent. The rats were killed after feeding the diet for 13.5 days and plasma components such as acute phase reactant proteins and some vitamins which act as antioxidants were examined. The results showed that alpha-cysteine proteinase inhibitor (alpha-CPI) increased to 9-fold and vitamin C radical increased to 1.6-fold, whereas alpha 1 proteinase inhibitor (alpha 1-PI) decreased to 0.9-fold and vitamins C and E were the same as the control. Among three components of alpha-CPI, the T kininogen level in intoxicated rat plasma was about 20-fold, whereas the high molecular weight kininogen level was about 2-fold of the control. Diquat also enhanced the cysteine proteinase inhibitor (CPI) level to 20-fold in kidney and to 7- to 10-fold in the other organs. The large increment of T kininogen in these organs was also confirmed immunologically. The kidney showed a granular degeneration and its weight increased to 1.2-fold of control. The other organs showed neither gross pathological alteration nor weight change, compared with the control. The diquat distribution was highest in spleen and next highest in kidney among several organs. These results were compared with those caused by paraquat.

Comparative study of endotoxin-induced hypotension in kininogen-deficient rats with that in normal rats

1. The aim of this study was to clarify the role of endogenous bradykinin (BK) in the hypotensive response induced by lipopolysaccharide (LPS) by comparing the degree of hypotension caused by LPS in a strain of specific pathogen-free (SPF) Brown Norway (B/N), kininogen-deficient mutant Katholiek rats with that of B/N normal Kitasato rats. 2. The dose-dependent hypotensive responses caused by intravenous injection of BK (1-100 nmol kg-1) or platelet-activating factor (PAF, 0.003-1 microgram kg-1), were not different in the two strains of rats used. However, there was a strong difference in the hypotensive response induced by LPS in kininogen-deficient and normal rats; in normal rats the hypotensive response was composed of two phases (15 min and 70-80 min after LPS injection), but in kininogen-deficient rats LPS caused a delayed (second phase), but not an acute (first phase) hypotension. 3. We demonstrate that Hoe 140 (1 mg kg-1, i.v.) is a potent, selective, and long-lasting antagonist of the hypotensive effects of BK. Hoe 140 diminished the hypotension caused by LPS in normal rats to the level observed in kininogen-deficient rats, but had no effect on the hypotension caused by LPS in kininogen-deficient rats. 4. TCV309 (0.1 mg kg-1, i.v.) selectively inhibited the hypotension caused by repetitive injection of PAF for up to 180 min. Pretreatment with TCV309 caused a near complete inhibition of the LPS-induced hypotension in kininogen-deficient and normal B/N rats. 5. In the normal rats, dexamethasone (0.5 mg kg-1, i.p.) inhibited the second phase of the hypotension induced by LPS, but not the first phase of the hypotension. 6. A small amount of BK (0.1 nmol kg-1) potentiated the hypotensive action of PAF (0.01 microg kg-1),when they were injected simultaneously.7. In conclusion, we demonstrate that formation of endogenous BK contributes primarily to the acute,but not to the delayed hypotension afforded by endotoxin in the rat. In contrast, formation of endogenous PAF contributes to both the acute and the delayed hypotension afforded by endotoxin in vivo.