Bioactive fractions from Allium humile alleviate the risk of high fat diet induced atherosclerosis in albino Wistar rats by inhibiting protein kinase C.

Atherosclerosis is a global concern that worsens with age, and plants that are effective medicinal herbs can give a viable alternative. PKC is a key factor in cardiovascular and other disorders; targeting it can reduce the risk of these diseases. We evaluated Allium humile for PKC inhibition and therapeutic efficacy against atherosclerosis. Soxhlet extraction was done to obtain extracts (hexane, ethyl acetate, methanol, ethanol and aqueous) and then tested for DPPH radical scavenging and PKC inhibitory activity. The methanolic extract was more active than the other extracts, so it was subjected to column chromatography, and seventeen fractions were obtained. Only 11, 12, and 15 showed good activity against PKC. Wistar rats were divided into six groups and each group received high fat diet for 30 days. Then the three potent fractions (10 mg/kg) were administered for 15 days along with high fat diet. Fraction II had the highest effectiveness (P < 0.0001) in decreasing lipid levels, lipid peroxidation, reducing IL-6 and TNF-α expression, and raising nitric oxide. This also demonstrated a decrease in PKC activity, as well as a decrease in the formation of the lipoidal layer in the aorta wall and rupture of the intima and media as validated by histological analysis. The two compounds, phytol acetate and cyanidin 3-(6″-o-malonyllaminaribioside) were characterised in fraction II by NMR and HRMS and cyanidin 3-(6″-o-malonyllaminaribioside) inhibited PKC more efficiently. Thus, Allium humile has strong anti-atherogenic activity as well as the ability to inhibit PKC both in vitro and in vivo.

The role of PKC in X-ray-induced megakaryocyte apoptosis and thrombocytopenia.

Thrombocytopenia is a critical complication after radiation therapy and exposure. Dysfunction of megakaryocyte development and platelet production are key pathophysiological stages in ionizing radiation (IR)-induced thrombocytopenia. Protein kinase C (PKC) plays an important role in regulating megakaryocyte development and platelet production. However, it remains unclear how PKC regulates IR-induced megakaryocyte apoptosis. In this study, we found that pretreatment of PKC pan-inhibitor Go6983 delayed IR-induced megakaryocyte apoptosis, and inhibited IR-induced mitochondrial membrane potential and ROS production in CMK cells. Moreover, suppressing PKC activation inhibited cleaved caspase3 expression and reduced p38 phosphorylation levels, and IR-induced PKC activation might be regulated by p53. In vivo experiments confirmed that Go6983 promoted platelet count recovery after 21 days of 3 Gy total body irradiation. Furthermore, Go6983 reduced megakaryocyte apoptosis, increased the number of megakaryocyte and polyploid formation in bone marrow, and improved the survival rate of 6 Gy total body irradiation. In conclusion, our results provided a potential therapeutic target for IR-induced thrombocytopenia.

Inhibitor of protein kinase N3 suppresses excessive bone resorption in ovariectomized mice.

INTRODUCTION: The long-term inhibition of bone resorption suppresses new bone formation because these processes are coupled during physiological bone remodeling. The development of anti-bone-resorbing agents that do not suppress bone formation is urgently needed. We previously demonstrated that Wnt5a-Ror2 signaling in mature osteoclasts promoted bone-resorbing activity through protein kinase N3 (Pkn3). The p38 MAPK inhibitor SB202190 reportedly inhibited Pkn3 with a low Ki value (0.004 µM). We herein examined the effects of SB202190 on osteoclast differentiation and function in vitro and in vivo. MATERIALS AND METHODS: Bone marrow cells were cultured in the presence of M-csf and GST-Rankl to differentiate into multinucleated osteoclasts. Osteoclasts were treated with increasing concentrations of SB202190. For in vivo study, 10-week-old female mice were subjected to ovariectomy (OVX). OVX mice were intraperitoneally administered with a Pkn3 inhibitor at 2 mg/kg or vehicle for 4 weeks, and bone mass was analyzed by micro-CT. RESULTS: SB202190 suppressed the auto-phosphorylation of Pkn3 in osteoclast cultures. SB202190 significantly inhibited the formation of resorption pits in osteoclast cultures by suppressing actin ring formation. SB202190 reduced c-Src activity in osteoclast cultures without affecting the interaction between Pkn3 and c-Src. A treatment with SB202190 attenuated OVX-induced bone loss without affecting the number of osteoclasts or bone formation by osteoblasts. CONCLUSIONS: Our results showed that Pkn3 has potential as a therapeutic target for bone loss due to increased bone resorption. SB202190 is promising as a lead compound for the development of novel anti-bone-resorbing agents.

Endoxifen: A new, protein kinase C inhibitor to treat acute and mixed mania associated with bipolar I disorder.

OBJECTIVES: Endoxifen is a protein kinase C inhibitor. The objective of the present phase III study was to demonstrate the safety and efficacy of endoxifen in treating bipolar I disorder (BPD I) patients. METHODS: A multicenter, double-blind, active-controlled study was conducted using a daily dose of 8 mg endoxifen compared to 1000 mg divalproex, the current standard treatment, in patients with BPD I acute manic episodes with/without mixed features. The primary endpoint of our study was the mean change in total Young Mania Rating Scale (YMRS) score at day 21. RESULTS: Endoxifen (n = 116) significantly (p < 0.0001) reduced total YMRS score (from 33.1 to 17.8. A significant (p < 0.001) improvement in Montgomery-Åsberg Depression Rating Scale (MADRS) score was observed for endoxifen (4.8 to 2.5). Early time to remission of the disease was observed with endoxifen compared to divalproex. None of the patients required rescue medication and there was no drug-associated withdrawals. Changes in Clinical Global Impressions-Bipolar Disorder and Clinical Global Impression-Severity of Illness scores showed that treatment with endoxifen was well-tolerated. CONCLUSIONS: Endoxifen at a low daily dose of 8 mg was as efficacious and safe in patients with BPD I acute manic episodes with/without mixed features.

Efecto de la proteína E2 del virus de hepatitis C sobre la activación de células NK / Effect of E2 protein of hepatitis C virus on the activation of NK cells

En estudios previos, se ha descrito un disminución de la activación y actividad citotóxica de las células NK en los pacientes infectados con hepatitis C; sin embargo, se desconoce el mecanismo por el cual éste fenómeno ocurre. En el presente reporte se estudió el efecto de la proteína E2 de la envoltura del virus o de la estimulación de su receptor con el anticuerpo anti-CD81 sobre la fosforilación de tirosinas, serinas, las enzimas: proteína quinasa C y fosfoinositol 3 quinasa, el factor de transcrición Nfkb y el intercambiador de nueclotidos VAV de células NK de controles normales estimulados con anti-CD16. Ambos, la proteína E2 y anti-CD81, combinado o por separado inducen una disminución de la fosforilación de tirosinas y serinas, así como una marcada disminución de la fosforilación de PKC, NFkB, PI3K y en menor grado VAV. Se concluye que la proteína E2 sola y en conjunto con anti-CD81 inducen señales inhibitorias responsables de la disminución en la activación de las células NK de pacientes infectados por el VHC y que éste fenómeno puede ser responsable de la cronicidad que se reporta en dicha enfermedad

The decrease in NK cell activation and cytotoxic activity in patients infected with hepatitis C virus has been described; however, the mechanism by whcih this phenomenon occurs is not known. In the present report, the effect of the E2 protein of the virus envelope or the stimulation of its receptor CD81 with the antibody anti-CD81 on the phosphorylation of tyrosines, serine, the enzymes protein kinase C, phosphoinositol kinase 3 (PI3K), the transcription factor NfkB and the nucleotide exchange protein VAV was assessed in NK cells from normal controls stimulated with anti-CD16. Both the protein E2 and anti-CD81 by themselves or combined, generated a decrease in tyrosine, serine, and a marked decrease in the phosphorylation of PKC, NfkB, PI3k and in less extent in VAV. It is concluded that the E2 protein alone and combined with anti-CD81 induce inhibitory signals responseible for the decrease in the activation of NK cells of infected HCV patients and it could be responsible for the chronicity observed in this disease

TNF-α signals through PKCζ/NF-κB to alter the tight junction complex and increase retinal endothelial cell permeability.

OBJECTIVE: Tumor necrosis factor-α (TNF-α) and interleukin-1 beta (IL-1ß) are elevated in the vitreous of diabetic patients and in retinas of diabetic rats associated with increased retinal vascular permeability. However, the molecular mechanisms underlying retinal vascular permeability induced by these cytokines are poorly understood. In this study, the effects of IL-1ß and TNF-α on retinal endothelial cell permeability were compared and the molecular mechanisms by which TNF-α increases cell permeability were elucidated. RESEARCH DESIGN AND METHODS: Cytokine-induced retinal vascular permeability was measured in bovine retinal endothelial cells (BRECs) and rat retinas. Western blotting, quantitative real-time PCR, and immunocytochemistry were performed to determine tight junction protein expression and localization. RESULTS: IL-1ß and TNF-α increased BREC permeability, and TNF-α was more potent. TNF-α decreased the protein and mRNA content of the tight junction proteins ZO-1 and claudin-5 and altered the cellular localization of these tight junction proteins. Dexamethasone prevented TNF-α-induced cell permeability through glucocorticoid receptor transactivation and nuclear factor-kappaB (NF-κB) transrepression. Preventing NF-κB activation with an inhibitor κB kinase (IKK) chemical inhibitor or adenoviral overexpression of inhibitor κB alpha (IκBα) reduced TNF-α-stimulated permeability. Finally, inhibiting protein kinase C zeta (PKCζ) using both a peptide and a novel chemical inhibitor reduced NF-κB activation and completely prevented the alterations in the tight junction complex and cell permeability induced by TNF-α in cell culture and rat retinas. CONCLUSIONS: These results suggest that PKCζ may provide a specific therapeutic target for the prevention of vascular permeability in retinal diseases characterized by elevated TNF-α, including diabetic retinopathy.

PKC-theta knockout mice are protected from fat-induced insulin resistance.

Insulin resistance plays a primary role in the development of type 2 diabetes and may be related to alterations in fat metabolism. Recent studies have suggested that local accumulation of fat metabolites inside skeletal muscle may activate a serine kinase cascade involving protein kinase C-theta (PKC-theta), leading to defects in insulin signaling and glucose transport in skeletal muscle. To test this hypothesis, we examined whether mice with inactivation of PKC-theta are protected from fat-induced insulin resistance in skeletal muscle. Skeletal muscle and hepatic insulin action as assessed during hyperinsulinemic-euglycemic clamps did not differ between WT and PKC-theta KO mice following saline infusion. A 5-hour lipid infusion decreased insulin-stimulated skeletal muscle glucose uptake in the WT mice that was associated with 40-50% decreases in insulin-stimulated tyrosine phosphorylation of insulin receptor substrate-1 (IRS-1) and IRS-1-associated PI3K activity. In contrast, PKC-theta inactivation prevented fat-induced defects in insulin signaling and glucose transport in skeletal muscle. In conclusion, our findings demonstrate that PKC-theta is a crucial component mediating fat-induced insulin resistance in skeletal muscle and suggest that PKC-theta is a potential therapeutic target for the treatment of type 2 diabetes.

Recombinant human activated protein C for use in severe sepsis.

OBJECTIVE: To review the efficacy and safety of drotrecogin alfa (recombinant human activated protein C) in the treatment of sepsis. DATA SOURCES: Literature was identified through a MEDLINE search (1966-January 2002), the product manufacturer, and the Food and Drug Administration. STUDY SELECTION/DATA EXTRACTION: All relevant information identified from the data sources was evaluated. DATA SYNTHESIS: Drotrecogin alfa reduces coagulation and inflammation in septic patients. A large placebo-controlled clinical trial (n = 1690) of drotrecogin alfa in severely septic patients demonstrated a reduction in mortality (24.7% vs. 30.8%; p = 0.005), with increased bleeding risks (24.9% vs. 17.7%; p <0.001). Patients with more severe sepsis appeared to gain the most benefit. The complete clinical and economic impact of this agent requires further analysis. CONCLUSIONS: Drotrecogin alfa offers a significant advance in the treatment of severe sepsis. Judicious use in appropriate patients is necessary to control cost and maximize clinical benefits.

Drotrecogin alfa (activated) approved for treatment of severe sepsis.

Drotrecogin alfa (activated) is a recombinant form of human activated protein C that has been shown to reduce mortality in severely septic patients with a high risk of death. Given the complexity of the inclusion and exclusion criteria, the stability and unique duration of infusion, and the cost of treatment, therapy with this agent should be carefully considered to ensure its appropriate use.

Pharmacological profile of recombinant, human activated protein C (LY203638) in a canine model of coronary artery thrombosis.

The antithrombotic activity of recombinant, human activated protein C (rh-APC, LY203638) was examined in a model of canine coronary artery thrombosis. Three doses of rh-APC (0.5, 1.0, and 2.0 mg/kg/h) were administered intravenously for 2 h. Whole blood clotting times (thrombin time, activated partial thromboplastin time), ex vivo platelet aggregation, and template bleeding times were determined. Activated partial thromboplastin time significantly increased 2- and 3.7-fold during the 2-h infusion of rh-APC (1.0 and 2.0 mg/kg/h, respectively); thrombin time did not change. Intravenous infusions of rh-APC (1.0 and 2.0 mg/kg/h) produced significant prolongations to occlusion, 186 +/- 21 and 190 +/- 22 min, respectively, compared with the vehicle and the 0.5 mg/kg/h group (86 +/- 12 and 93 +/- 17 min, respectively). Vessel patency was better at the end of the experiment in the intermediate- and high-dose groups (3 of 6 and 3 of 5 vessels, 1.0 and 2.0 mg/kg/h, respectively) compared with the vehicle and 0.5 mg/kg/h groups (0/5 and 0/6, respectively). Only the 1.0 mg/kg/h group was found to have significantly elevated template bleeding times, with peak increases seen 60 min into the drug infusion. All groups had returned to baseline values by the end of the study. There was no observed inhibition of platelet aggregation. These data demonstrate that recombinant, human activated protein C is an effective anticoagulant and antithrombotic agent in the dog.

Neuroprotection by peptide growth factors against anoxia and nitric oxide toxicity requires modulation of protein kinase C.

Basic fibroblast growth factor (bFGF) and epidermal growth factor (EGF) are neuroprotective during anoxia and nitric oxide (NO) toxicity. Signal transduction systems that modulate protein kinase C (PKC) also can modulate the toxic effects of anoxia and NO. We therefore examined whether PKC was involved in the protective effects of bFGF and EGF during anoxia and NO toxicity. Down-regulation or inhibition of PKC activity before anoxia or NO exposure prevented hippocampal neuronal degeneration. Yet, this protective effect of inhibition of PKC activity was not present with the coadministration of growth factors. Combined inhibition of PKC activity and application of bFGF or EGF lessened the protective mechanisms of the growth factors. In addition, the protective ability of the growth factors was lost during anoxia and NO exposure with the activation of PKC, suggesting that at least a minimal degree of PKC activation is necessary for growth factor protection. Although modulation of PKC activity may be a necessary prerequisite for protection against anoxia and NO toxicity by bFGF and EGF, only inhibition of PKC activity, rather than application of the growth factors, was protective following exposure to NO. These results suggest that the mechanism of protection by bFGF and EGF during anoxia and NO toxicity appears initially to be dependent on a minimum degree of PKC activation, but that other signal transduction pathways independent of PKC also may mediate protection by peptide growth factors.