Effects of C-reactive protein on atherogenic mediators and adrenomedullin in human coronary artery endothelial and smooth muscle cells

We examined the effects of recombinant human C-reactive protein (rhCRP) on atherosclerosis-related factors in cultured human coronary artery endothelial and smooth muscle cells (HCAECs and HCASMCs). After removing endotoxin from commercial rhCRP preparations using the appropriate column, the purified (P)-rhCRP retained the ability to Ca(2+)-dependently bind to phosphorylcholine, but did not augment the secretion of interleukin-6 and MCP-1 from HCAECs, as non-purified (NP)-rhCRP did. By contrast, P-rhCRP elicited 2- to 3-fold increases in the secretion of both hormones from HCASMCs, though the effect was smaller than that obtained with NP-rhCRP. Production of PAI-1 and endothelin-1 was little affected by either rhCRP preparation in either cell type. In addition, P-rhCRP dose-dependently diminished adrenomedullin release from both cell types, but did not affect adrenomedullin receptor expression or function. Our findings highlight the importance of removing endotoxin from commercial rCRP preparations and show that hCRP elicits atherogenic responses from HCASMCs, but not HCAECs.     

Comparative genomics of emerging human ehrlichiosis agents

Anaplasma (formerly Ehrlichia) phagocytophilum, Ehrlichia chaffeensis, and Neorickettsia (formerly Ehrlichia) sennetsu are intracellular vector-borne pathogens that cause human ehrlichiosis, an emerging infectious disease. We present the complete genome sequences of these organisms along with comparisons to other organisms in the Rickettsiales order. Ehrlichia spp. and Anaplasma spp. display a unique large expansion of immunodominant outer membrane proteins facilitating antigenic variation. All Rickettsiales have a diminished ability to synthesize amino acids compared to their closest free-living relatives. Unlike members of the Rickettsiaceae family, these pathogenic Anaplasmataceae are capable of making all major vitamins, cofactors, and nucleotides, which could confer a beneficial role in the invertebrate vector or the vertebrate host. Further analysis identified proteins potentially involved in vacuole confinement of the Anaplasmataceae, a life cycle involving a hematophagous vector, vertebrate pathogenesis, human pathogenesis, and lack of transovarial transmission. These discoveries provide significant insights into the biology of these obligate intracellular pathogens.     

Autophagy and cancer therapy

Autophagy is a dynamic process of protein degradation, which is typically observed during nutrient deprivation. Recently, interest in autophagy has been renewed among oncologists, because different types of cancer cells undergo autophagy after various anticancer therapies. This type of nonapoptotic cell death has been documented mainly by observing morphological changes, e.g., numerous autophagic vacuoles in the cytoplasm of dying cells. Thus, autophagic cell death is considered programmed cell death type II, whereas apoptosis is programmed cell death type I. These two types of cell death are predominantly distinctive, but many studies demonstrate cross-talk between them. Whether autophagy in cancer cells causes death or protects cells is controversial. In multiple studies, autophagy has been inhibited pharmacologically or genetically, resulting in contrasting outcomes--survival or death--depending on the specific context. Interestingly, the regulatory pathways of autophagy share several molecules with the oncogenic pathways activated by tyrosine kinase receptors. Tumor suppressors such as Beclin 1, PTEN and p53 also play an important role in autophagy induction. Taken together, these accumulating data may lead to development of new cancer therapies that manipulate autophagy.     

Resistance profiles of novel electrostatically constrained HIV-1 fusion inhibitors

Human immunodeficiency virus (HIV) gp41 plays a key role in viral fusion; the N- and C-terminal heptad repeats (N-HR and C-HR) of gp41 form a stable 6-helical conformation for fusion. Therefore, HR-derived peptides, such as enfuvirtide (T-20), inhibit HIV-1 fusion by acting as decoys, and have been used for the treatment of HIV-1 infection. However, the efficacy of T-20 is attenuated by resistance mutations in gp41, including V38A and N43D. To suppress the resistant variants, we previously developed electrostatically constrained peptides, SC34 and SC34EK, and showed that both exhibited potent anti-HIV-1 activity against wild-type and T-20-resistant variants. In this study, to clarify the resistance mechanism to this next generation of fusion inhibitors, we selected variants with resistance to SC34 and SC34EK in vitro. The resistant variants had multiple mutations in gp41. All of these mutations individually caused less than 6-fold resistance to SC34 and SC34EK, indicating that there is a significant genetic barrier for high-level resistance. Cross-resistance to SC34 and SC34EK was reduced by a simple difference in the polarity of two intramolecular electrostatic pairs. Furthermore, the selected mutations enhanced the physicochemical interactions with N-HR variants and restored activities of the parental peptide, C34, even to resistant variants. These results demonstrate that our approach of designing gp41-binding inhibitors using electrostatic constraints and information derived from resistance studies produces inhibitors with enhanced activity, high genetic barrier, and distinct resistance profile from T-20 and other inhibitors. Hence, this is a promising approach for the design of future generation peptide fusion inhibitors.     

Proteomic Analysis of Neorickettsia sennetsu Surface-Exposed Proteins and Porin Activity of the Major Surface Protein P51

Neorickettsia sennetsu is an obligate intracellular bacterium of monocytes and macrophages and is the etiologic agent of human Sennetsu neorickettsiosis. Neorickettsia proteins expressed in mammalian host cells, including the surface proteins of Neorickettsia spp., have not been defined. In this paper, we isolated surface-exposed proteins from N. sennetsu by biotin surface labeling followed by streptavidin-affinity chromatography. Forty-two of the total of 936 (4.5%) N. sennetsu open reading frames (ORFs) were detected by liquid chromatography-tandem mass spectrometry (LC/MS/MS), including six hypothetical proteins. Among the major proteins identified were the two major β-barrel proteins: the 51-kDa antigen (P51) and Neorickettsia surface protein 3 (Nsp3). Immunofluorescence labeling not only confirmed surface exposure of these proteins but also showed rosary-like circumferential labeling with anti-P51 for the majority of bacteria and polar to diffuse punctate labeling with anti-Nsp3 for a minority of bacteria. We found that the isolated outer membrane of N. sennetsu had porin activity, as measured by a proteoliposome swelling assay. This activity allowed the diffusion of l-glutamine, the monosaccharides arabinose and glucose, and the tetrasaccharide stachyose, which could be inhibited with anti-P51 antibody. We purified native P51 and Nsp3 under nondenaturing conditions. When reconstituted into proteoliposomes, purified P51, but not Nsp3, exhibited prominent porin activity. This the first proteomic study of a Neorickettsia sp. showing new sets of proteins evolved as major surface proteins for Neorickettsia and the first identification of a porin for the genus Neorickettsia.Neorickettsia spp. are unique environmental, Gram-negative, obligate intracellular bacteria maintained in nature through vertical transmission in trematodes (16, 17, 39, 42). Neorickettsia spp. are polymorphic cocci belonging to the family Anaplasmataceae within the order Rickettsiales in the class Alphaproteobacteria (7). Neorickettsia sennetsu (formerly called Rickettsia sennetsu or Ehrlichia sennetsu) is the first human pathogen in the family Anaplasmataceae to have been isolated and cultured (11, 34). N. sennetsu infects human monocytes and macrophages and causes the disease Sennetsu neorickettsiosis (10, 34, 41). Epidemiologic studies of Sennetsu neorickettsiosis show a strong link between the human ingestion of metacercaria-infested gray mullet fish and acquisition of the disease (11). Symptoms are similar to those of infectious mononucleosis and include swelling of the lymph nodes, pyrexia, inappetence, lethargy, sleeplessness, and overall malaise (10, 34, 41). Geographically, N. sennetsu infections have been reported mainly in western and southern Japan, although antibodies to N. sennetsu have also been found in humans in Malaysia, and one strain of N. sennetsu has been isolated from Malaysia (10, 19, 44). Recently, N. sennetsu infection was found in Laos (35). Treatment of Sennetsu neorickettsiosis involves tetracycline therapy and is normally highly successful at resolving the symptoms (10).Gram-negative bacteria generally have porins spanning their outer membranes. These proteins enable the transport of hydrophilic molecules, such as amino acids, sugars, and other nutrients (36). As seen in other members of the Anaplasmataceae, N. sennetsu is limited in its ability to synthesize necessary compounds, including amino acids and enzymes for intermediary metabolism and glycolysis (20). Therefore, porins are an absolute necessity for the survival of this bacterium. To date, the only porins defined for the order Rickettsiales are major outer membrane proteins of Anaplasma phagocytophilum named P44s (22) and OMP-1F and P28 in Ehrlichia chaffeensis (26). These porins contain 16 (P44s) or 12 (OMP-1F and P28) transmembrane passes, and some are large enough to allow the slow diffusion of tetrasaccharides. P44/Msp2 and OMP-1/P28/P30 proteins belong to the family pfam01617, and the N. sennetsu genome was reported to encode only one hypothetical protein from this family (GenBank accession no. NSE_0875) (20), later named Neorickettsia surface protein 3 (Nsp3) (29).In the present study, surface-exposed proteins of N. sennetsu were isolated from cell culture and identified by proteomics. We first isolated the outer membrane fraction from host cell-free N. sennetsu and examined porin activity by using an in vitro proteoliposome swelling assay. Second, we used antibodies against the dominant protein P51 to examine neutralization of the porin activity. Third, we purified native P51 and Nsp3 from the isolated outer membrane fraction by high-pressure liquid chromatography (HPLC) and tested whether these proteins have porin activity. Identification of surface-exposed proteins and the protein with major porin activity will help in understanding N. sennetsu and the disease that it causes.     

Novel method to observe subtle structural modulation of stratum corneum on applying chemical agents

In the development of functional chemicals such as percutaneous penetration enhancers and cosmetics, the structural evidence at the molecular level in stratum corneum (SC) is highly desirable. We developed a method to observe a minute structural change of intercellular lipid matrix and corneocytes on applying the chemicals to the SC using synchrotron X-ray diffraction technique. The performance of the present method was demonstrated by applying typical chemicals, chloroform/methanol mixture, hydrophilic ethanol and hydrophobic d-limonene. From the small- and wide-angle X-ray diffraction we obtained the following results: on applying chloroform/methanol mixture the intercellular lipids were extracted markedly, on applying ethanol the intercellular lipid structure was slightly disrupted, ethanol molecules were taken into the corneocytes and in addition the pools of ethanol seem to be formed in the hydrophilic region of the intercellular lipid matrix in the SC, and on applying d-limonene the repeat distance of the long lamellar structure increased by incorporating d-limonene molecules, the intercellular lipid structure was slightly disrupted, and the pools of d-limonene were formed in the hydrophobic region of the intercellular lipid matrix in the SC.     

Occurrence of the Fimbria Gene hifA in clinical isolates of nonencapsulated Haemophilus influenzae

The adherence of Haemophilus influenzae to epithelial cells plays a crucial role in infections. However, little is known about the occurrence of fimbriae. In this study, we examined the distribution of the fimbria gene (hifA) by PCR among 167 H. influenzae strains isolated from patients with respiratory infections. Almost all (163; 98%) of the isolates were nonencapsulated strains. The carriage rate of hifA by the nonencapsulated strains was 18.4%. Electron microscopy showed that fimbriae were abundantly present on the cell surface of hifA-positive strains tested. Only four (2.4%) isolates were encapsulated, all of which were type b and did not possess hifA. The present work suggests that fimbriae may play a considerable role as adhesins in nonencapsulated H. influenzae strains.     

S-adenosylmethionine (SAM)-accumulating sake yeast suppresses acute alcohol-induced liver injury in mice

The suppressive effects on acute alcoholic liver injury of S-adenosylmethionine (SAM) and the sake yeast, Saccharomyces cerevisiae Kyokai No. 9, have been shown previously. To enhance the suppression of acute alcoholic liver injury by sake yeast, we prepared SAM-accumulating sake yeast (SAM yeast). Male C57BL/6 mice that had been fed on a diet containing 0.25% SAM yeast or sake yeast for two weeks received three doses of ethanol (5 g/kg BW). In the mice fed on the SAM yeast, the ethanol-induced increases in both triglyceride (TG) and alanine aminotransferase (ALT) were significantly repressed. In addition, the SAM yeast-fed mice did not show an ethanol-induced decrease in hepatic SAM level, suggesting that a disorder of methionine metabolism in the liver caused by ethanol was relieved by the SAM yeast. These results suggest that the SAM yeast had a stronger effect suppressing acute alcoholic liver injury in mice than the sake yeast.     

Cutting Edge: Lentiviral short hairpin RNA silencing of PTEN in human mast cells reveals constitutive signals that promote cytokine secretion and cell survival

Engagement of the FcepsilonRI expressed on mast cells induces the production of phosphatidylinositol 3, 4, 5-trisphosphate by PI3K, which is essential for the functions of the cells. PTEN (phosphatase and tensin homologue deleted on chromosome ten) directly opposes PI3K by dephosphorylating phosphatidylinositol 3, 4, 5-trisphosphate at the 3' position. In this work we used a lentivirus-mediated short hairpin RNA gene knockdown method to study the role of PTEN in CD34(+) peripheral blood-derived human mast cells. Loss of PTEN caused constitutive phosphorylation of Akt, p38 MAPK, and JNK, as well as cytokine production and enhancement in cell survival, but not degranulation. FcepsilonRI engagement of PTEN-deficient cells augmented signaling downstream of Src kinases and increased calcium flux, degranulation, and further enhanced cytokine production. PTEN-deficient cells, but not control cells, were resistant to inhibition of cytokine production by wortmannin, a PI3K inhibitor. The findings demonstrate that PTEN functions as a key regulator of mast cell homeostasis and FcepsilonRI-responsiveness.     

XCR2, one of three Xenopus EGF-CFC genes, has a distinct role in the regulation of left-right patterning

Members of the EGF-CFC family facilitate signaling by a subset of TGFbeta superfamily ligands that includes the nodal-related factors and GDF1/VG1. Studies in mouse, zebrafish, and chick point to an essential role for EGF-CFC proteins in the action of nodal/GDF1 signals in the early establishment of the mesendoderm and later visceral left-right patterning. Antisense knockdown of the only known frog EGF-CFC factor (FRL1), however, has argued against an essential role for this factor in nodal/GDF1 signaling. To address this apparent paradox, we have identified two additional Xenopus EGF-CFC family members. The three Xenopus EGF-CFC factors show distinct patterns of expression. We have examined the role of XCR2, the only Xenopus EGF-CFC factor expressed in post-gastrula embryos, in embryogenesis. Antisense morpholino oligonucleotide-mediated depletion of XCR2 disrupts left-right asymmetry of the heart and gut. Although XCR2 is expressed bilaterally at neurula stage, XCR2 is required on the left side, but not the right side, for normal left-right patterning. Left-side expression of XNR1 in the lateral plate mesoderm depends on XCR2, whereas posterior bilateral expression of XNR1 does not, suggesting that distinct mechanisms maintain XNR1 expression in different regions of neurula-tailbud embryos. Ectopic XCR2 on the right side initiates premature right-side expression of XNR1 and XATV, and can reverse visceral patterning. This activity of XCR2 depends on its co-receptor function. These observations indicate that XCR2 has a crucial limiting role in maintaining a bistable asymmetry in nodal family signaling across the left-right axis.