Comparison of the effects of pachymic acid, moronic acid and hydrocortisone on the polysome loading of RNAs in lipopolysaccharide-treated THP-1 macrophages.

We have proposed that analysis of ribosome-loaded mRNAs (i.e., the translatome) is useful for elucidation of pharmacological effects of phytocompounds in immune cells, regarding the involvement of post-transcriptional regulation mechanisms.

Shikonin changes the lipopolysaccharide-induced expression of inflammation-related genes in macrophages.

We aimed to find candidate molecules possibly involved in the anti-inflammatory activity of shikonin (active compound of "Shikon") by analyzing its effects on gene expression of lipopolysaccharide (LPS)-treated THP-1 macrophages. Polysome-associated mRNAs (those expected to be under translation: translatome) from cells treated with LPS alone (LPS: 5 µg/mL), shikonin alone (S: 100 nM), or LPS plus shikonin (LPS&S) for 3 h were analyzed by DNA microarray followed by detection of enriched pathways/gene ontologies using the tools of the STRING database. Candidate genes in enriched pathways in the comparison of LPS&S cells vs.

Inhibition of neutrophil superoxide generation by shikonin is associated with suppression of cellular Ca(2+) fluxes.

Shikonin, an anti-inflammatory compound of "Shikon", inhibits the neutrophil superoxide (O2 (•-)) generation by NADPH oxidase 2 (Nox2); however, the mechanisms of how shikonin affects Nox2 activity remained unclear. We aimed to elucidate the relationship between the inhibition of Nox2 activity and influences on intracellular Ca(2+) concentration ([Ca(2+)]i) by shikonin. For this purpose, we used a simultaneous monitoring system for detecting changes in [Ca(2+)]i (by fluorescence) and O2 (•-) generation (by chemiluminescence) and evaluated the effects of shikonin on neutrophil-like HL-60 cells stimulated with N-formyl-l-methionyl-l-leucyl-l-phenylalanine (fMLP).

Morphological Modifications in Myofibrils by Suppressing Tropomyosin 4α in Chicken Cardiac Myocytes.

Tropomyosin (TPM) localizes along F-actin and, together with troponin T (TnT) and other components, controls calcium-sensitive muscle contraction. The role of the TPM isoform (TPM4α) that is expressed in embryonic and adult cardiac muscle cells in chicken is poorly understood. To analyze the function of TPM4α in myofibrils, the effects of TPM4α-suppression were examined in embryonic cardiomyocytes by small interference RNA transfection.

Evaluation of radical scavenging properties of shikonin.

With the aim of developing effective anti-inflammatory drugs, we have been investigating the biochemical effects of shikonin of "Shikon" roots, which is a naphthoquinone with anti-inflammatory and antioxidative properties. Shikonin scavenged reactive oxygen species like hydroxyl radical, superoxide anion (O2 (•-)) and singlet oxygen in previous studies, but its reactivity with reactive oxygen species is not completely understood, and comparison with standard antioxidants is lacking. This study aimed elucidation of the reactivity of shikonin with nitric oxide radical and reactive oxygen species such as alkyl-oxy radical and O2 (•-).

Shikonin directly inhibits nitric oxide synthases: possible targets that affect thoracic aorta relaxation response and nitric oxide release from RAW 264.7 macrophages.

Recently, an isomeric mixture of herbal anti-inflammatory naphthoquinones shikonin and alkannin, and their derivatives, have been found to impair cellular responses involving nitric oxide (NO) and NO synthesis, like the acetylcholine-induced relaxation response of rat thoracic aorta and NO release from murine RAW 264.7 macrophages. However, the mechanisms of such effects, including whether NO synthase (NOS) activity is affected, remained unclear.

Suppression of cardiac troponin T induces reduction of contractility and structural disorganization in chicken cardiomyocytes.

We herein examine the effect of cardiac troponin T (CTnT) suppression in cultured chicken cardiomyocytes derived from embryonic cardiac ventricular muscle. TnT is an important protein participating in regulation of striated muscle contraction, but it is not clear whether TnT contributes to the formation of sarcomere structure in myofibrils. Double-stranded RNA homologous to the nucleotide sequence of CTnT (CTnT-siRNA) was introduced into cultured muscle cells two days after plating.

Expression of NADPH oxidases and enhanced H(2)O(2)-generating activity in human coronary artery endothelial cells upon induction with tumor necrosis factor-alpha.

Tumor necrosis factor (TNF)-alpha, which potentiates reactive oxygen species (ROS) generation, is crucial for the development of coronary arteritis and aneurysm in Kawasaki disease. We hypothesized that vascular NADPH oxidase (Nox) enzymes participate in the TNF-alpha-triggered endothelial damage through elevating ROS generation. Thus, we herein examine the expression of Nox enzymes in human coronary artery endothelial cells (HCAEC) and the effects of TNF-alpha on Nox-mediated ROS generation.

Fungal metabolite gliotoxin targets flavocytochrome b558 in the activation of the human neutrophil NADPH oxidase.

Fungal gliotoxin (GT) is a potent inhibitor of the O(2)(-)-generating NADPH oxidase of neutrophils. We reported that GT-treated neutrophils fail to phosphorylate p47(phox), a step essential for the enzyme activation, because GT prevents the colocalization of protein kinase C betaII with p47(phox) on the membrane. However, it remains unanswered whether GT directly affects any of NADPH oxidase components.

Fungal metabolite gliotoxin inhibits assembly of the human respiratory burst NADPH oxidase.

Reactive oxygen species are a critical weapon in the killing of Aspergillus fumigatus by polymorphonuclear leukocytes (PMN), as demonstrated by severe aspergillosis in chronic granulomatous disease. In the present study, A. fumigatus-produced mycotoxins (fumagillin, gliotoxin [GT], and helvolic acid) are examined for their effects on the NADPH oxidase activity in human PMN.

Superoxide generation by Nox1 in guinea pig gastric mucosal cells involves a component with p67(phox)-ability.

Nox1, a homologue of gp91(phox) subunit of the phagocyte NADPH oxidase, is responsible for spontaneous superoxide (O(2)(-)) generation in guinea pig gastric mucosal cells (GMC), but involvement of regulatory components (p67(phox), p47(phox), and Rac) which are essential in phagocytes remains unknown. Here, we aimed to figure out how Nox1 of GMC achieves an active oxidase status. GMC in primary culture show low O(2)(-) generation but acquire a 9-fold higher activity when cultured with Helicobacter pylori lipopolysaccharide (LPS), in correlation with a far increased Nox1 expression.