In vitro regulation of reporter gene transcription by the androgen receptor AF1 domain

The androgen receptor (AR) is a ligand-activated transcription factor that regulates gene expression in response to the steroids testosterone and dihydrotestosterone. AR-dependent gene expression is likely to play an important role in a number of receptor-associated disorders, such as prostate cancer, spinal bulbar muscular atrophy, male type baldness and hirsutism. The AR contains two transactivation domains, termed AF1 (activation function 1) located in the N-terminus and AF2 (activation function 2) in the C-terminal ligand-binding domain. AF2 exhibits weak transcriptional activity, whereas AF1 is a strong regulator of transcription. Transcriptional regulation by AF1 is thought to be modulated by a number of proteins that interact with this region, and by post-translational modifications. Our focus is on the N-terminal-interacting proteins and their regulation of transcription via interaction with the receptor. To better understand the mechanism of AR-AF1 action, we have reconstituted AR activity in HeLa nuclear extracts using a unique dual reporter gene assay. Multiple LexA-binding sites in the promoter allow transcription to be driven by a recombinant AR-AF1–Lex fusion protein. The findings from initial experiments suggest an increase in transcription initiation and elongation rates by AR-AF1–Lex. The role of protein–protein interactions involving co-activators and basal transcription factors and AR-AF1 activity are discussed.

Transforming growth factor β-mediated inhibition of src kinases is regulated by SHP-1

Background

Transforming growth factor (TGF) β has been shown to suppress T cell effector functions. Although the mechanisms of such T cell suppression are not known, a disuption of the balance between protein tyrosine kinases (PTKs) and protein tyrosine phosphatases (PTPs) has been implicated. The present study investigated the roles of the src-related PTKs, P59fyn and P56lck, and the PTPs SHP-1 and SHP-2 in TGF-β-mediated T cell suppression.

Methods

Splenic T cells from rats were pretreated with TGF-β 25 ng ml−1 and subsequently stimulated with either anti-CD3 or anti-CD3 plus pervanadate (a PTP inhibitor). After incubation with specific antibodies and immunoprecipitation, the kinase activity of the PTKs was assessed by in vitro kinase assay. Phosphorylation of the PTPs was assessed using antiphosphotyrosine antibodies and immunoblotting.

Results

Incubation of T cells with TGF-β resulted in decreased activity of P59fyn and P56lck. Although TGF-β treatment resulted in a concomitant increase in SHP-1 activity, no change in SHP-2 activity was observed. When T cells were stimulated with anti-CD3 in the presence of pervanadate, the TGF-β-mediated decrease in P59fyn and P56lck activity was completely prevented.

Conclusion

These findings show that TGF-β treatment of T cells results in suppression of src kinases, and suggests that such inhibition of kinase activity is mediated by upregulation of SHP-1.

Sepsis-induced alteration in T-cell Ca(2+) signaling in neonatal rats

Sepsis-induced suppression in T-cell proliferation follows deranged Ca(2+) signaling in adult rats. In preliminary studies, we observed suppression in T-cell proliferation in septic neonatal rats as well. In this study, we assessed splenic T-cell cytosolic Ca(2+) concentration, [Ca(2+)](i), as its elevation plays an important role in T-cell proliferation. Also, we investigated the role of PGE(2) in sepsis-related changes in T-cell [Ca(2+)](i) in animals pretreated with cyclooxygenase-1 (COX-1) inhibitor (resveratrol) and cyclooxygenase-2 (COX-2) inhibitor (NS-398). Sepsis was induced in 15-day-old rat pups by intraperitoneal implantation of fecal pellets containing Escherichia coli and Bacteroides fragilis. The sham group consisted of pups implanted with sterile fecal pellets. Septic and sham pups were sacrificed 24 h after implantation and their spleens were removed. The spleens from sham and septic pups, along with spleens from unoperated control pups, were processed for single cell suspensions, and T cells were isolated using nylon wool columns. Fura-2 fluorophotometry was employed for the measurement of [Ca(2+)](i) (in nM units) in T cells stimulated with concanavalin A (ConA). Our results show that ConA-mediated T-cell [Ca(2+)](i) response is significantly suppressed in septic neonatal rats. Pretreatment of pups with COX-2, but not COX-1 inhibitor, prevented the decrease in the [Ca(2+)](i) response. These findings suggest that PGE(2) might induce the attenuation in T-cell Ca(2+) signaling during sepsis in neonatal rats.

PAF receptor antagonist modulates neutrophil responses with thermal injury in vivo

The role of platelet-activating factor (PAF) in Ca(2+) signaling and Ca(2+)-related enhancement of reactive oxygen intermediate (ROI) generation in neutrophils of burn-injured rats was ascertained by evaluating the effect of treatment of the rats with a PAF receptor antagonist. The treatment of rats with the antagonist also allowed us to evaluate the role of PAF in the priming of neutrophil ROI response with burn in vivo. A full skin thickness burn injury was produced in anesthetized rats by exposing 30% of total body surface area to 98 degrees C water for 10 s. Sham and burn rats were killed 1 day later, and their blood was collected to obtain neutrophils. Fluorescence-activated cell sorter analysis was used to quantify ROI production by the neutrophils. Cytosolic-free Ca(2+) concentration ([Ca(2+)](i)) imaging technique was employed to measure neutrophil [Ca(2+)](i) in individual cells and microfluorometry for the assessment of [Ca(2+)](i) responses in suspensions of neutrophils. There was an overt enhancement of ROI generation by burn rat neutrophils. ROI release was accompanied by a marked elevation of [Ca(2+)](i) signaling. The treatment of rats with PAF receptor antagonist before burn prevented the upregulation of both [Ca(2+)](i) and ROI generation in neutrophils. These studies indicate that enhanced ROI production in neutrophils in the early stages after burn injury results from a PAF-mediated priming of the [Ca(2+)](i) signaling pathways in vivo.

PGE2 suppresses intestinal T cell function in thermal injury: a cause of enhanced bacterial translocation

Increased gut bacterial translocation in burn and trauma patients has been demonstrated in a number of previous studies, however, the mechanism for such an increased gut bacterial translocation in injured patients remains poorly understood. Utilizing a rat model of burn injury, in the present study we examined the role of intestinal immune defense by analyzing the T cell functions. We investigated if intestinal T cells dysfunction contributes to bacterial translocation after burn injury. Also our study determined if burn-mediated alterations in intestinal T cell functions are related to enhanced release of PGE2. Finally, we examined whether or not burn-related alterations in intestinal T cell function are due to inappropriate activation of signaling molecule P59fyn, which is required for T cell activation and proliferation. The results presented here showed an increase in gut bacterial accumulation in mesenteric lymph nodes after thermal injury. This was accompanied by a decrease in the intestinal T cell proliferative responses. Furthermore, the treatments of burn-injured animals with PGE2 synthesis blocker (indomethacin or NS398) prevented both the decrease in intestinal T cell proliferation and enhanced bacterial translocation. Finally, our data suggested that the inhibition of intestinal T cell proliferation could result via PGE2-mediated down-regulation of the T cell activation-signaling molecule P59fyn. These findings support a role of T cell-mediated immune defense against bacterial translocation in burn injury.

Up-regulation of steroid sulphatase activity in HL60 promyelocytic cells by retinoids and 1alpha,25-dihydroxyvitamin D3

HL60 promyeloid cells express both classes of oestrogen receptor (ERalpha and ERbeta). We show that hydrolysis of oestrone sulphate by steroid sulphatase is a major source of oestrone in HL60 cells, and that most of the released oestrone is not metabolized further to 17beta-oestradiol. Treatment of HL60 cells with retinoids or 1alpha,25-dihydroxyvitamin D3 increased steroid sulphatase mRNA and activity in parallel with the induction of CD11b, an early marker of myeloid differentiation that is expressed before the differentiating cells stop proliferating. Use of agonists and antagonists against retinoid receptor-alpha and retinoid receptor-X revealed that both classes of retinoid receptor can drive steroid sulphatase up-regulation. Steroid sulphatase activity fluctuates during the cell cycle, being highest around the transition from G1 to S phase. During the differentiation of HL60 cells induced by all-trans-retinoic acid or 1alpha,25-dihydroxyvitamin D3, there is increased conversion of 17beta-oestradiol into oestrone by an oxidative 17beta-hydroxysteroid dehydrogenase. Treatment of Caco-2 colon adenocarcinoma cells with all-trans-retinoic acid or 1alpha,25-dihydroxyvitamin D3 also increases 17beta-oestradiol oxidation to oestrone. An increase in local oestrone production therefore occurs in multiple cell types following treatment with retinoids and 1alpha,25-dihydroxyvitamin D3. The possible involvement of locally produced oestrogenic steroids in regulating the proliferation and differentiation of myeloid cells is discussed.

TGF-beta abrogates TCR-mediated signaling by upregulating tyrosine phosphatases in T cells

TGF-beta is known to inhibit many of the immune cell functions including T cell proliferation and IL-2 production. The mechanism of such TGF-beta-mediated inhibition of T cell functions is poorly understood. The present study examined the effects of TGF-beta on the activation of protein tyrosine kinases (PTK) P56lck, P59fyn, and Zap-70, and protein tyrosine phosphatases (PTP) SHP-1 and SHP-2. A balance between the actions of PTK and PTP is critical for appropriate T cell activation. These studies were carried out using nylon wool-purified splenic T cells from healthy Sprague-Dawley rats. Results from these studies showed that incubation of T cells with TGF-beta inhibited the activation of P56lck, P59fyn and Zap-70. The decrease in these three protein tyrosine kinases was accompanied by an increase in the activation of the protein tyrosine phosphatase SHP-1. There was no change in the phosphorylation of SHP-2 with and without pretreatment of T cells with TGF-beta. The decrease in P56lck, P59fyn kinase activity, and Zap-70 phosphorylation was prevented when T cells were stimulated with anti-CD3 in the presence of pervanadate, an inhibitor of PTP. These results suggested that TGF-beta-mediated inhibition of P56lck, P59fyn, and Zap-70 is likely due to an up-regulation of protein tyrosine phosphatases such as SHP-1.

CINC blockade prevents neutrophil Ca(2+) signaling upregulation and gut bacterial translocation in thermal injury

In this study, we have evaluated the role of cytokine-induced neutrophil chemoattractant (CINC), in the upregulation of neutrophil Ca(2+) signaling in neutrophils from thermally injured rats treated with anti-CINC antibody. Additionally, we have determined the effect of the treatment with CINC antibody on the accumulation of activated neutrophils in the intestinal wall, and the effect of such accumulation on gut bacterial translocation. Measurements of myeloperoxidase (MPO) activity and immunohistochemical localization of neutrophils determined neutrophil sequestration in the rat intestine. Agar culture analyses and a specific Escherichia coli beta-galactosidase gene polymerase chain reaction was carried out to detect gut indigenous bacterial invasion into intestinal wall and extraintestinal mesenteric lymph nodes (MLN). The results showed that pretreatment of rats with anti-CINC antibody attenuated the thermal injury-induced enhancement in [Ca(2+)](i) responses in neutrophils both in the basal and Formyl-Met-Leu-Phe stimulated conditions. Moreover, treatment with the CINC antibody decreased neutrophil infiltration into the gut and attenuated thermal injury-caused translocation of bacteria into the MLN.

Role of neutrophils in burn-induced microvascular injury in the intestine

The present study evaluated burn-induced vascular permeability alterations of rat small intestine in vivo and assessed the effect of neutrophil depletion in burn-injured rats on the altered intestinal microvascular permeability. 125I-labeled bovine serum albumin (125I-BSA) was injected intravenously, and its leakage from circulation into the intestinal tissue was determined by measuring tissue counts of 125I-BSA. Compared with sham, vascular albumin permeability increased 1.7-fold on day 1 post-burn and 3.0-fold on day 3 post-burn in ileum. In the jejunum, albumin permeability increased 1.8- and 2.5-fold on day 1 and day 3 post-burn, respectively. Intestinal tissue edema, determined as increases in tissue water contents, was noted in both intestinal segments on day 1 post-burn; no further increase in edema was found on day 3 post-burn. Neutrophil depletion before burn injury prevented the vascular leakage of albumin and edema in the ileum and jejunum on day 1 post-burn. On day 3 post-burn, the effect of prior neutrophil depletion on vascular permeability was less marked, and edema formation was not affected at all. These findings indicate that an absence of neutrophils prevents the loss of intestinal vascular barrier properties only in the initial periods after burns.

Ethanol exacerbates T cell dysfunction after thermal injury

To understand the mechanism of suppressed immunity following alcohol consumption and thermal injury, we analyzed T cell functions in a mouse model of acute alcohol exposure and burn injury. Mice with blood alcohol levels at approximately 100 mg/dl were given a 15% scald or sham injury. Mice were sacrificed 48 h after injury. Our data demonstrated a 20-25% decrease in Con A-mediated splenic T cell proliferation (p<0.01) and 45-50% decrease in interleukin-2 (IL-2) production (p<0.01) following burn injury compared to the T cells from sham animals. A further decrease in the proliferation (25-30%) and IL-2 production (40-45%) was detected in T cells derived from burned animals receiving alcohol as compared to burn alone. No significant change in the proliferation and IL-2 production was observed in splenic T cells derived from sham-injured mice regardless of alcohol exposure. Additionally, there was no demonstrable difference in splenocyte apoptosis in any treatment group. These results suggest that alcohol consumption prior to burn injury causes a greater decrease in T cell proliferation and IL-2 production compared to either burn or alcohol injury alone that may further attenuate the cell-mediated immunity and thus enhance susceptibility to infection.

Neutrophil depletion prevents intestinal mucosal permeability alterations in burn-injured rats

Cutaneous thermal injury increases intestinal mucosal permeability. The mechanisms of this functional disturbance are not fully understood. We investigated whether accumulation of neutrophils in the intestine contributes to the increase in mucosal permeability. Labeled and unlabeled lactulose and mannitol were infused into a segment of rat ileum or jejunum. Blood concentrations of [(3)H]lactulose and [(14)C]mannitol were measured after 30, 60, and 90 min. On day 1 postburn, lactulose permeability increased fourfold in the ileum and twofold in the jejunum compared with sham-burned rats; mannitol permeability increased twofold in the ileum and 1. 5-fold in the jejunum. A greater increase in permeability occurred on day 3 postburn in the ileum, but not in the jejunum. The depletion of neutrophils in burned rats prevented the increase in permeability in both segments on day 1 postburn. Histological studies of intestines from burned, with or without neutrophil depletion, and sham-burned rats showed similar morphology. However, numerous neutrophils were found in the extravascular compartment in day 1 postburn, but not in neutrophil-depleted and sham-burned rats. These findings support the concept that the burn-induced increase in mucosal permeability is produced during the accumulation of neutrophils in the intestine and can be abrogated by the depletion of neutrophils.

Monocytically differentiating HL60 cells proliferate rapidly before they mature

1alpha,25-Dihydroxyvitamin D(3) (D(3)) provokes growth arrest and monocytic differentiation in myeloid cells. Although it is usually assumed that the cellular events leading to growth arrest start within one cell cycle of D(3) addition, there is also evidence that D(3) provokes the expression of proliferation-related genes and accelerates cell division. Herein we clarify the relationship between proliferation and maturation in differentiating HL60 cells. Cells were cultured singly, D(3) was added at various stages of the cell cycle, the progeny were counted, and the proportions of mature monocytes were determined. Initially, the D(3)-treated cells proliferated at an accelerated rate, and they matured only later. If cells encountered D(3) early in G1 they divided two to four times before maturing, and if they encountered D(3) later in the cell cycle they underwent an extra division. Indomethacin slows HL60 cell multiplication by prolonging G1, and when these slower-growing cells were exposed to D(3), they matured after the usual period but underwent one division less than indomethacin-free cells. Contrary to common assumptions, we conclude that promyeloid cells do not initiate growth arrest or monocytic maturation immediately after exposure to D(3). Instead, an encounter with D(3) early in G1 sets in train a complex differentiation program. This consists of 2-3 days of rapid proliferation-probably employing cell cycles with a shortened G1 phase-that is followed by growth arrest and maturation. As a result, a single D(3)-treated promyeloid cell gives rise to 10 or more mature monocytes. These observations not only explain why "differentiating" cells express proliferation-related characteristics soon after D(3) addition, but they also show that the process of D(3)-induced monocytic differentiation is much more complex than has previously been realized.

PGE2 suppresses mitogen-induced Ca2+ mobilization in T cells

PGE2-mediated suppression of T cell proliferation during sepsis could result from altered Ca2+ signaling. The present study evaluated the effects of PGE2 on Ca2+ release from intracellular stores and its influx through the plasma membrane in splenic T cells from Sprague-Dawley rats. Intracellular Ca2+ concentration ([Ca2+]i) responses in individual T cells were assessed using the Ca2+ imaging technique, and the release of Ca2+ from intracellular stores and Ca2+ influx were spectrofluorometrically quantified in T cell suspensions. Under unstimulated conditions, nearly 85% of T cells exhibited [Ca2+]i </=50 nM. After stimulation with concanavalin A (Con A), an increase in [Ca2+]i was recorded in approximately 60% of the cells. The pretreatment of T cells with PGE2 had no apparent effect on [Ca2+]i in resting cells; it significantly suppressed the Con A-induced increase in [Ca2+]i in all of the Con A-responsive cells. Ca2+ release from the intracellular stores contributed to the early spike in [Ca2+]i, and the late phase of elevation in [Ca2+]i was dependent on Ca2+ influx through the plasma membrane. Our data suggest that PGE(2) causes an overall suppression of the Con A-induced [Ca2+]i elevation in T cells via inhibiting both Ca2+ influx and its release from the intracellular stores.

PGE(2)-mediated inhibition of T cell p59(fyn) is independent of cAMP

We recently observed that prostaglandin E(2) (PGE(2))-mediated suppression of T cell functions could result from an attenuation of p59(fyn) protein tyrosine kinase activity. The present study evaluated the effects of an adenylate cyclase agonist (forskolin) and antagonist (SQ-22536), as well as those of cAMP analogues (dibutyryl cAMP and 8-bromo- cAMP), on T cell p59(fyn) kinase activity. The study allowed us to assess whether PGE(2)-mediated activation of adenylate cyclase by itself or the elevation in intracellular cAMP levels is an integral event in the modulation of anti-CD3-linked p59(fyn) activation in T cells. The experiments were carried out with splenic T cells from male Sprague-Dawley rats. A 30-50% suppression in the autophosphorylation and the kinase activity of p59(fyn) in T cells incubated with PGE(2) or forskolin was observed. Pretreatment of T cells with SQ-22536 prevented significant PGE(2)-mediated inhibition of T cell p59(fyn) kinase activity. In contrast, no change in p59(fyn) autophosphorylation and kinase activity in T cells treated with cAMP analogues was observed. These data suggest that PGE(2)-mediated suppression of p59(fyn) autophosphorylation and kinase activity in T cells is dependent on the activation of adenylate cyclase and independent of the elevation in cAMP levels.

Prostaglandin E2 down-regulation of T cell IL-2 production is independent of IL-10 during gram-negative sepsis

The present study ascertained the role of PGE2 in sepsis associated modulation of IL-2 and IL-10 production by T cells. Sepsis was induced in 225-250 g male rats (Sprague Dawley) by implanting fecal pellets containing Escherichia coli (100-150 CFU) and Bacteroides fragilis (10(4) CFU) into the abdominal cavity. Animals implanted with fecal pellets without the bacteria were designated as sterile. For the assessment of PGE2 role in sepsis, a group of septic and sterile rats were pretreated with indomethacin to inhibit endogenous PGE2 synthesis. Splenic T cells were obtained 48 h after septic or sterile implantations, and their IL-2 and IL-10 production was measured. A significant suppression in the levels of IL-2 production and mRNA expression was observed in T cells from septic rats compared with the T cells from sterile and control rats. IL-10 protein and mRNA expression was found to be significantly higher in septic rat T cell compared to sterile and control rat T cells. Although, treatment of animals with indomethacin significantly prevented the sepsis-related suppression of IL-2 production, such treatment of animals was associated with a further upregulation of IL-10 production. These data suggest that although PGE2 released during sepsis can cause T cell IL-2 down-regulation, it may not mediate the T cell IL-10 upregulation. The IL-2 down-regulation may not be an effect of IL-10 upregulation.

Comparison of status epilepticus with prolonged seizure episodes lasting from 10 to 29 minutes

PURPOSE

Status epilepticus (SE) is a major medical and a neurologic emergency associated with significant morbidity and mortality. The current definition of SE is continuous seizure activity or intermittent seizure activity without regaining consciousness, lasting > or =30 min. Epilepsy monitoring unit data indicate that many seizures self-terminate within minutes. Thus consideration was recently given to include seizure episodes lasting > or =10 min in the definition of SE. Because no large studies have been conducted on seizures lasting 10-29 min, this study was initiated to compare cases of SE and 10 to 29-min seizure episodes seen within the same period.

METHODS

Patients seen at the Medical College of Virginia Hospitals of Virginia Commonwealth University over the same 2-year period were studied. Two hundred twenty-six prospective SE cases (91 children and 135 adults) and 81 retrospective 10- to 29-min seizure episodes (31 children and 50 adults) were compared. A standardized data-entry-form system was compiled on each patient and was used to evaluate the data collected.

RESULTS

The 10- to 29-min seizure patients and the SE cases had similar demographic characteristics, such as sex, race, and age, and also had similar etiologies. The majority (93%) of SE cases required anticonvulsant (AED) treatment to control and stop seizure activity. In the 10- to 29-min group, 43% stopped seizing spontaneously, and the remainder (57%) required AED treatment to stop seizure activity. The mortality for the SE patients was 19% compared with 2.6% for 10- to 29-min group (p<0.001). In the 10- to 29-min group that stopped seizing spontaneously, the mortality was 0. In the 10- to 29-min patients that required AED treatment, the mortality was 4.4%.

CONCLUSIONS

The results demonstrate that a significant number of patients experience seizure activity lasting from 10- to 29-min. Approximately half of these seizure events stopped spontaneously and did not require AED treatment. The other half of the patients responded quickly to medications and stopped seizing before the 30-min definition for SE. The overall mortality of this group was significantly lower than that of the patients with SE. The results demonstrate that further studies on the 10- to 29-min seizure group are needed to differentiate seizures that will stop spontaneously and those that will only stop with AED treatment. Because almost half of the prolonged seizures stopped spontaneously, further studies are needed before including prolonged seizure activity in the definition of SE.

Plasma exchange versus intravenous immunoglobulin treatment in myasthenic crisis

We performed a retrospective multicenter chart review to compare the efficacy and tolerance of plasma exchange (PE) and intravenous immunoglobulin (i.v.Ig) in treatment of 54 episodes of myasthenic crisis. After adjustment for other variables, PE (compared with i.v.Ig) was associated with a superior ventilatory status at 2 weeks (partial F = 6.2, p = 0.02) and 1 month functional outcome (partial F = 4.5, p = 0.04). However, the complication rate was higher with PE compared with i.v.Ig (13 versus 5 episodes, p = 0.07).

Identification of a retinoic acid responsive aldoketoreductase expressed in HL60 leukaemic cells

Neutrophil and monocyte differentiation can be induced in HL60 leukaemia cells by all-trans-retinoic acid (ATRA) and 1alpha,25-dihydroxyvitamin D3 (D3), respectively, whose differentiating effects can be enhanced by exposure to 'anti-inflammatory agents' and steroids. We have provided evidence that this potentiation is via inhibition of the activity of an enzyme of the aldoketoreductase (AKR) family, but had failed to identify expression of known AKRs in HL60 cells. In this study, we have identified a previously unclassified aldoketoreductase family member (termed HAKR e) that is expressed in HL60 cells. HAKR e is dramatically and transiently up-regulated in HL60 cells within 24 h of exposure to ATRA, further supporting the proposition that a member(s) of this family of enzymes play(s) a role in controlling cell growth and/or differentiation.

Effect of CRF and related peptides on calcium signaling in human and rodent melanoma cells

Corticotropin releasing factor (CRF) induces a rapid, within seconds, and dose-dependent increase in the intracellular Ca2+ in both human and hamster melanoma cells. This effect is inhibited by depletion of extracellular calcium using 3 mM EGTA and is attenuated by the CRF receptor antagonist, alpha-helical-CRF(9-41). Other peptides of the CRF superfamily, sauvagine and urocortin, also induce increases in cytoplasmic calcium concentration but at higher concentrations than CRF. We conclude that malignant melanocytes express CRF receptors, which are coupled to activation of plasma membrane calcium channels.

Prostaglandin E2 modulation of p59fyn tyrosine kinase in T lymphocytes during sepsis

Prostaglandin E2 (PGE2) has been implicated in the suppression of T cell IL-2 production and proliferation during burn and sepsis. The present study evaluated the potential intracellular mechanism of suppressed T cell responses by assessing the activation of p59fyn kinase in T cells from septic rats as well as the T cells incubated with PGE2. p59fyn is known to regulate T cell functions. Sepsis was induced in rats by implanting fecal pellets containing Escherichia coli (150 CFU) and Bacteroides fragilis (10(4) CFU) into the abdominal cavity. For the assessment of PGE2 role in sepsis, a group of septic rats were treated with indomethacin, which inhibits endogenous PGE2 synthesis. As assessed by immunoblotting or in vitro kinase assay, a more than 40% inhibition of p59fyn phosphorylation and kinase activity was observed in septic rat T cells compared with the T cells from sterile or control rats. A similar inhibition in p59fyn phosphorylation and kinase activity was observed in PGE2-treated T cells compared with the T cells incubated in the absence of PGE2. The septic-related suppression in p59fyn phosphorylation and kinase activity in T cells was prevented in rats treated with indomethacin. We observed that the inhibition in p59fyn activation in septic or PGE2-treated T cells was due primarily to a suppression in p59fyn phosphorylation and not due to alterations in p59fyn protein expression. These findings suggest that PGE2 released during sepsis could contribute to the sepsis-related suppression in T cell proliferation by attenuating p59fyn phosphorylation and its kinase activity.

The marine toxin okadaic acid reduces O2- generation and tyrosine phosphorylation in LPS-primed rat neutrophils

Contrasting effects of okadaic acid (OKA) on neutrophil (PMN) superoxide anion (O2-) generation have been reported. In this study, we examined the effect of OKA on phorbol myristate acetate (PMA)-stimulated O2- generation in rat PMNs primed with LPS in vivo (LPS-PMN) and saline-treated rat PMNs (SAL-PMN). The following results were observed: (1) OKA, but neither genistein nor vanadate, markedly reduced O2- generation in a dose and time-dependent manner; (2) genistein, a tyrosine kinase inhibitor, as well as OKA, reduced tyrosine phosphorylation; (3) sodium orthovanadate, a tyrosine phosphatase inhibitor, potently enhanced tyrosine phosphorylation. Our studies suggest that OKA might reduce tyrosine phosphorylation by affecting the activity of tyrosine phosphatases regulated by serine-threonine phosphorylation.

Transforming growth factor-beta negatively modulates T-cell responses in sepsis

Sepsis is associated with depressed T-cell functions and increased circulating levels of immunosuppressive agents. TGF-beta is a potential anti-inflammatory cytokine that can modify T-cell growth and differentiation. The up-regulation of TGF-beta and the mechanism of its action on the T-cells during septic injury have not been resolved. We hypothesized that in sepsis TGF-beta produced by macrophages acts on T-cells in a paracrine manner to suppress interleukin (IL)-2 production and proliferation. In this study, we examined the circulating TGF-beta levels in a rat model of Gram-negative bacterial sepsis, and compared the abilities of adherent and non-adherent splenocytes to produce TGF-beta. Additionally, we investigated the causal relationships of hrTGF-beta to concanavalin A (ConA)-induced T-cell responses and the intracellular mechanism of the generation of these responses in normal splenic rat T-cells. Sepsis was induced in rats by intraabdominally implanting fecal pellets containing Escherichia coli (150 CFU) and Bacteroides fragilis (10000 CFU). Adherent and non-adherent splenocytes were isolated by differential adherence using Ficoll gradient centrifugation. T-cells were purified by use of Nylon wool columns. We observed a 3-6-fold increase in the circulating levels of TGF-beta in sepsis. Western blots and ELISA determinations revealed a 2.5-3-fold increase in cell-associated TGF-beta protein levels in adherent splenic cells. Northern analyses also showed a marked increase in TGF-beta mRNA expression in adherent cells during sepsis. On the other hand, a significant change was not observed in the TGF-beta protein and mRNA expression in non-adherent splenocytes. Pretreatment of control rat T-cells with hrTGF-beta decreased both ConA-induced proliferation (by 35-40%) and IL-2 mRNA expression (by > 50%). Further, whereas incubation of control rat T-cells with either ConA or TGF-beta for 24 h resulted in a 10-15-fold increase in cAMP generation, the addition of hrTGF-beta along with ConA resulted in a 50-60-fold increase in cAMP. These results suggest that in sepsis, TGF-beta produced by splenic macrophages can act in a paracrine manner on T-cells to depress their IL-2 mRNA expression, IL-2 production and proliferation after up-regulation of cAMP which can interfere with T-cell signaling for proliferation.

Calcium signaling restitution prevents T-cell proliferative suppression by prostaglandin E2

Previous studies from our laboratory have implicated a role for Ca2+ in prostaglandin E2 (PGE2)-induced suppression in T-cell proliferation during sepsis. The present study further elucidated the mechanism of PGE2-induced suppression in T-cell proliferation. We assessed whether prevention of the suppression in Ca2+ mobilization in PGE2-treated T-cells would restore proliferation. Rat splenic T-cell Ca2+ mobilization and proliferation were measured after stimulation of cells with concanavalin A (Con A) employing Fura-2 spectroscopy and cellular [3H]thymidine uptake techniques, respectively. PGE2 and other agents that directly up-regulate the PGE2-mediated cell signaling events (e.g., cholera toxin and forskolin), substantially suppressed both Con A-induced proliferation (p < .01) and Ca2+ mobilization in T-cells (p < .01). When stimulated with Con A plus ionomycin, [Ca2+]i in PGE2 treated T-cells (395 +/- 21, nM) was not significantly different (p > .05) from that observed in Con A-stimulated T-cells without the PGE2 exposure (351 +/- 8.6). The stimulation of PGE2-treated T-cells with ionomycin and Con A also significantly (p < .025), if not completely, prevented the PGE2-induced suppression in T-cell proliferation. These results suggest that the cross-talk between the TCR- and PGE2-mediated signaling in T-cells negatively modulates the TCR signals at the Ca2+ mobilization step and/or earlier to it.

Ca2(+)-dependent and Ca2(+)-independent proteinase contents in the skeletal muscle in septic rats

This study assessed sepsis-induced changes in the contents of calpain and cathepsin B in rat soleus muscle. Sepsis was induced in rats by intra-abdominally implanting fecal pellets containing Escherichia coil and Bacteroides fragilis. Intact soleus muscles were isolated from non-operated control rats, and from rats sacrificed 1 and 2 days after they were implanted with bacteria-free (sterile implanted) or bacteria-laden (septic implanted) pellets. Western blot analyses of muscle homogenates were performed to identify and quantitate these proteinases using specific antibodies. No significant differences in cathepsin B contents were observed between the septic and nonseptic animals on days 1 and 2, post-implantation. Among the three distinct bands recognized by anti-calpain, two prominent bands of 80 and 76 kDa, representing calpain subunits, did not seem to be altered in septic rats compared to the nonseptic groups. The content of the 45-kDa subunit decreased in both the septic and sterile groups compared with non-operated control. These results along with our previous observations suggest that although Gram-negative sepsis does not appear to have an effect on Ca2(+)-insensitive lysosomal cathepsin B content or activity, it upregulates the activity of the Ca2(+)-dependent calpain but not its content in the skeletal muscle during sepsis.

Role of Ca2+ in prostaglandin E2-induced T-lymphocyte proliferative suppression in sepsis

Prostaglandin E2 (PGE2) has been known to modulate immune responses by inhibiting T-cell activation following hemorrhagic and traumatic injury. Recently, we documented a sepsis-related depression in concanavalin A (ConA)-induced T-cell proliferation and intracellular Ca2+ (Ca2+i) mobilization. The present study evaluated the potential role of PGE2 in the sepsis-related attenuation in Ca2+ signaling and proliferation in T cells. Sepsis was induced in rats by implanting into their abdomen fecal pellets containing Escherichia coli (150 CFU) and Bacteroides fragilis (10(4) CFU). A group of rats implanted with septic pellets were treated with indomethacin at three consecutive time points. Levels of PGE2 in blood were measured with a radioimmunoassay kit. ConA-induced [Ca2+]i mobilization in T cells obtained from indomethacin-treated and untreated rats was measured with Fura-2 and microfluorometry. We observed a 10-fold increase in PGE2 levels in the circulation of septic rats compared with levels in rats implanted with bacterium-free sterilized pellets. The proliferative response and Ca2+i mobilization were significantly depressed in T cells obtained from septic rats 48 h after implantations compared with those in rats implanted with sterile pellets. However, treatment of rats with the cyclooxygenase inhibitor indomethacin prevented the sepsis-related depression in ConA-induced T-cell Ca2+i mobilization as well as proliferation. Further, incubation of T cells from nonimplanted control rats with PGE2 resulted in a substantial depression in both T-cell proliferation and Ca2+i mobilization. The restoration of T-cell proliferation and Ca2+ signaling after indomethacin treatment of septic rats and the depression in the mitogen responsiveness in T cells previously exposed to PGE2 suggest that the PGE2 does play a significant role in the modulation of T-cell responses in septic rats and that such PGE2-induced suppression in T-cell activation is likely due to an attenuation in Ca2+ signaling.

Quercetin, a bioflavonoid, inhibits the DNA synthesis of human leukemia cells

Quercetin, a flavonoid, is found in many plants, including edible fruits and vegetables. It has been proposed that flavonoids may have potential as anticancer agents. To test an aspect of this hypothesis, we examined the effects of the flavonoid, quercetin, on the DNA synthesis of the human leukemia cell, HL-60. Quercetin induced a dose-dependent inhibition of DNA synthesis in the test range of 1 microM to 1 mM. The inhibitory effect on DNA synthesis was evident as early as 24 h after the addition of quercetin. At the concentrations of 10 microM, 100 microM and 1 mM, 50, 82 and 85% of DNA synthesis, respectively, was inhibited by quercetin as compared to the control. After 48 and 72 h incubation of the cells with 100 microM and 1 mM quercetin, DNA synthesis was almost completely abolished. These results suggest that the inhibitory effects of quercetin on HL-60 cell DNA synthesis is not due to a non-specific cytotoxic effect, since following removal of quercetin, the treated cells regrew normally.

T-lymphocyte Ca2+ signalling and proliferative responses during sepsis

Alterations in T-lymphocyte kinetics and/or activation have been implicated in burn and traumatic injury. This study evaluated concanavalin A (Con A) regulation of both intracellular Ca2+ (Ca2+i) and proliferation in T-lymphocytes harvested from spleens of septic rats. Rats were implanted with fecal pellets containing Escherichia coli (150 colony forming units (CFU)) and Bacteroides fragilis (10(4) CFU). T-cell [Ca2+]i was measured before and after treatment of cells with Con A, using Fura-2 and microfluorophotometry. Splenic lymphocytes were cultured for 72 h with Con A to assess their proliferative response. As compared to sterile-implanted rats, the septic rat T-lymphocytes Ca2+i response to ConA significantly decreased on days 1 and 2 after implantation. A significant decrease in T-cell proliferative response to Con A, compared to sterile controls, was found in septic rats on day 2 but not on day 1. These results suggest that Con A-mediated proliferation in T-cells occurs secondarily to a decrease in cellular Ca2+ signalling. The depression in the T-cell proliferative response during sepsis could contribute to a decrease in host's resistance against sepsis.

T-lymphocyte Ca2+ signalling and proliferative responses during sepsis

Alterations in T-lymphocyte kinetics and/or activation have been implicated in burn and traumatic injury. This study evaluated concanavalin A (Con A) regulation of both intracellular Ca2+ (Cai2+) and proliferation in T-lymphocytes harvested from spleens of septic rats. Rats were implanted with fecal pellets containing Escherichia coli (150 colony forming units (CFU)) and Bacteroides fragilis (10(4) CFU). T-cell[Ca2+]i was measured before and after treatment of cells with ConA, using Fura-2 and microfluorophotometry. Splenic lymphocytes were cultured for 72 h with Con A to assess their proliferative response. As compared to sterile-implanted rats, the septic rat T-lymphocytes Cai2+ response to Con A significantly decreased on days 1 and 2 after implantation. A significant decrease in T-cell proliferative response to Con A, compared to sterile controls, was found in septic rats on day 2 but not on day 1. These results suggest that Con A-mediated proliferation in T-cells occurs secondarily to a decrease in cellular Ca2+ signalling. The depression in the T-cell proliferative response during sepsis could contribute to a decrease in host's resistance against sepsis.

Sepsis-induced myofibrillar protein catabolism in rat skeletal muscle

This study evaluated sepsis-induced changes in myosin heavy chain (Mhc) protein breakdown and synthesis in rat soleus muscles. Rats were anesthetized and their external jugular veins were cannulated. After 12-16 h, rats were implanted intraabdominally with a sterile fecal pellet, or a pellet containing bacteria (Escherichia coli, 150 CFU and Bacteroides fragilis 10(4) CFU). Thirty hours after implantations, rats were infused with 14C-Leu (60 x 10(3) Bq/h) through the jugular cannula for 4 h. Protein fractional synthetic rate coefficient (FSRC) was determined in muscles of different rat groups. In separate experiments, intact soleus muscles were removed from the three rat groups on days 1 and 2 after implantations, and processed for their wet weight, total protein and Mhc contents. No mortality occurred in sterile-implanted rats. Approximately 40-45% of all septic-implanted rats died on days 1-3, post-implantation. Whereas an approximately 15% (P < 0.01, days 1 or 2) decrease occurred in Mhc content in sterile-implanted rats compared to unoperated controls, septic insult resulted in a greater Mhc loss (a 27% decrease, P < 0.001). Rats' body weight, soleus wet weight and tolat muscle protein changes with sepsis relative to controls were also greater than in the sterile groups. The FSRC value in the septic-implanted rats was significantly lower (P < 0.05) than in non-septic rat muscle. TNF-alpha administration to the septic animals or their treatment with diltiazem did not have a significant effect on FSRC. Overall, these results indicate myosin as a major muscle protein subjected to net catabolism during sepsis, and that the net catabolic response was related to a more pronounced increased in Mhc degradation than the decrease in Mhc synthesis.

Guinea-pig ileal loop assay: a better replacement of the suckling mouse assay for detection of heat-stable enterotoxins of Escherichia coli

The suitability of guinea-pig ileal loop assay (GILA) for the assay of heat-stable (ST) enterotoxin was confirmed. Secretory response against Escherichia coli heat-stable enterotoxin in this model was determined in terms of dilatation index (DI). DI equal to 0.50 or more was considered as a positive secretory response. Kinetics of fluid accumulation and the titration of toxin in guinea-pig ileal loop suggest uniform secretory response throughout the small intestine and 31.5 microgram of crude ST toxin as the minimum effective dose to induce a DI of 0.5. Guinea-pig intestine was found sensitive to both methanol soluble (STa) and methanol insoluble (STb) toxins of E. coli and so was considered superior to the existing suckling mouse assay (SMA), which is known to be sensitive only to STa toxin. In addition, GILA was also found to be more suitable and economical as at least 10 strains together with the positive and negative controls can be tested in one animal, whereas in SMA, four suckling mice were needed to test a single strain. Hence, in SMA individual susceptibility among mice cannot be ruled out. GILA was considered to be an alternative to the presently available test, SMA, in the determination of ST toxin of E. coli.

Development of Vero cell miniculture assay for detection of heat-labile enterotoxin of Escherichia coli and its significance

In the present study the Vero cell miniculture assay was developed for the detection of heat-labile enterotoxin of E. coli. The test was found to be reliable and efficient and was comparable with other tissue culture assays. The new cell lines BHK21, MDBK, LM and CK included in the present study did not respond positively to the E. coli toxins.