Comparative genomic analysis of symbiotic and free-living Fluviibacter phosphoraccumulans strains provides insights into the evolutionary origins of obligate Euplotes-bacterial endosymbioses.

Endosymbiosis is a widespread and important phenomenon requiring diverse model systems. Ciliates are a widespread group of protists that often form symbioses with diverse microorganisms. Endosymbioses between the ciliate Euplotes and heritable bacterial symbionts are common in nature, and four essential symbionts were described: Polynucleobacter necessarius, "Candidatus Protistobacter heckmanni," "Ca. Devosia symbiotica," and "Ca. Devosia euplotis." Among them, only the genus Polynucleobacter comprises very close free-living and symbiotic representatives, which makes it an excellent model for investigating symbiont replacements and recent symbioses. In this article, we characterized a novel endosymbiont inhabiting the cytoplasm of Euplotes octocarinatus and found that it is a close relative of the free-living bacterium Fluviibacter phosphoraccumulans (Betaproteobacteria and Rhodocyclales). We present the complete genome sequence and annotation of the symbiotic Fluviibacter. Comparative analyses indicate that the genome of symbiotic Fluviibacter is small in size and rich in pseudogenes when compared with free-living strains, which seems to fit the prediction for recently established endosymbionts undergoing genome erosion. Further comparative analysis revealed reduced metabolic capacities in symbiotic Fluviibacter, which implies that the symbiont relies on the host Euplotes for carbon sources, organic nitrogen and sulfur, and some cofactors. We also estimated substitution rates between symbiotic and free-living Fluviibacter pairs for 233 genes; the results showed that symbiotic Fluviibacter displays higher dN/dS mean value than free-living relatives, which suggested that genetic drift is the main driving force behind molecular evolution in endosymbionts. IMPORTANCE: In the long history of symbiosis research, most studies focused mainly on organelles or bacteria within multicellular hosts. The single-celled protists receive little attention despite harboring an immense diversity of symbiotic associations with bacteria and archaea. One subgroup of the ciliate Euplotes species is strictly dependent on essential symbionts for survival and has emerged as a valuable model for understanding symbiont replacements and recent symbioses. However, almost all of our knowledge about the evolution and functions of Euplotes symbioses comes from the Euplotes-Polynucleobacter system. In this article, we report a novel essential symbiont, which also has very close free-living relatives. Genome analysis indicated that it is a recently established endosymbiont undergoing genome erosion and relies on the Euplotes host for many essential molecules. Our results provide support for the notion that essential symbionts of the ciliate Euplotes evolve from free-living progenitors in the natural water environment.

The Deficiency of Hypusinated eIF5A Decreases the Putrescine/Spermidine Ratio and Inhibits +1 Programmed Ribosomal Frameshifting during the Translation of Ty1 Retrotransposon in Saccharomyces cerevisiae.

Programmed ribosomal frameshifting (PRF) exists in all branches of life that regulate gene expression at the translational level. The eukaryotic translation initiation factor 5A (eIF5A) is a highly conserved protein essential in all eukaryotes. It is identified initially as an initiation factor and functions broadly in translation elongation and termination. The hypusination of eIF5A is specifically required for +1 PRF at the shifty site derived from the ornithine decarboxylase antizyme 1 (OAZ1) in Saccharomyces cerevisiae. However, whether the regulation of +1 PRF by yeast eIF5A is universal remains unknown. Here, we found that Sc-eIF5A depletion decreased the putrescine/spermidine ratio. The re-introduction of Sc-eIF5A in yeast eIF5A mutants recovered the putrescine/spermidine ratio. In addition, the Sc-eIF5A depletion decreases +1 PRF during the decoding of Ty1 retrotransposon mRNA, but has no effect on -1 PRF during the decoding of L-A virus mRNA. The re-introduction of Sc-eIF5A in yeast eIF5A mutants restored the +1 PRF rate of Ty1. The inhibition of the hypusine modification of yeast eIF5A by GC7 treatment or by mutating the hypusination site Lys to Arg caused decreases of +1 PRF rates in the Ty1 retrotransposon. Furthermore, mutational studies of the Ty1 frameshifting element support a model where the efficient removal of ribosomal subunits at the first Ty1 frame 0 stop codon is required for the frameshifting of trailing ribosomes. This dependency is likely due to the unique position of the frame 0 stop codon distance from the slippery sequence of Ty1. The results showed that eIF5A is a trans-regulator of +1 PRF for Ty1 retrotransposon and could function universally in yeast.

"Candidatus Euplotechlamydia quinta," a novel chlamydia-like bacterium hosted by the ciliate Euplotes octocarinatus (Ciliophora, Spirotrichea).

Our knowledge of ciliate endosymbiont diversity greatly expanded over the past decades due to the development of characterization methods for uncultivable bacteria. Chlamydia-like bacteria have been described as symbionts of free-living amoebae and other phylogenetically diverse eukaryotic hosts. In the present work, a systematic survey of the bacterial diversity associated with the ciliate Euplotes octocarinatus strain Zam5b-1 was performed, using metagenomic screening as well as classical full-cycle rRNA approach, and a novel chlamydial symbiont was characterized. The metagenomic screening revealed 16S rRNA gene sequences from Polynucleobacter necessarius, three previously reported accessory symbionts, and a novel chlamydia-like bacterium. Following the full-cycle rRNA approach, we obtained the full-length 16S rRNA gene sequence of this chlamydia-like bacterium and developed probes for diagnostic fluorescence in situ hybridizations. The phylogenetic analysis of the 16S rRNA gene sequences unambiguously places the new bacterium in the family Rhabdochlamydiaceae. This is the first report of chlamydia-like bacterium being found in Euplotes. Based on the obtained data, the bacterium is proposed as a new candidate genus and species: "Candidatus Euplotechlamydia quinta."

Genome-Wide Identification and Expression Analysis of the Aquaporin Gene Family in Lycium barbarum during Fruit Ripening and Seedling Response to Heat Stress.

Plant−water relations mediated by aquaporins (AQPs) play vital roles in both key plant growth processes and responses to environmental challenges. As a well-known medicinal and edible plant, the harsh natural growth habitat endows Lycium plants with ideal materials for stress biology research. However, the details of their molecular switch for water transport remain unclear. In the present work, we first identified and characterized AQP family genes from Lycium (L.) barbarum at the genome scale and conducted systemic bioinformatics and expression analyses. The results showed that there were 38 Lycium barbarum AQPs (LbAQPs) in L. barbarum, which were classified into four subfamilies, including 17 LbPIP, 9 LbTIP, 10 LbNIP, and 2 LbXIP. Their encoded genes were unevenly distributed on all 12 chromosomes, except chromosome 10. Three of these genes encoded truncated proteins and three genes underwent clear gene duplication events. Cis-acting element analysis indicated that the expression of LbAQPs may be mainly regulated by biotic/abiotic stress, phytohormones and light. The qRT-PCR assay indicated that this family of genes presented a clear tissue-specific expression pattern, in which most of the genes had maximal transcript levels in roots, stems, and leaves, while there were relatively lower levels in flowers and fruits. Most of the LbAQP genes were downregulated during L. barbarum fruit ripening and presented a negative correlation with the fruit relative water content (RWC). Most of their transcripts presented a quick and sharp upregulation response to heat stress following exposure of the 2-month-old seedlings to a 42 °C temperature for 0, 1, 3, 12, or 24 h. Our results proposed that LbAQPs were involved in L. barbarum key development events and abiotic stress responses, which may lay a foundation for further studying the molecular mechanism of the water relationship of Lycium plants, especially in harsh environments.

[Compatibility for toxicity attenuation of toxic traditional Chinese medicine: a review and strategies].

Toxicity-attenuating compatibility is an effective measure to ensure the safety of Chinese medicine. Involving the origin, processing method, compatibility mode, and dosage, it faces multiple challenges, such as the uncertainty of toxic substances, toxicity latency, indefinite safe dose, complex toxicity-efficacy relationship, and individual difference. As a result, research on clinical safety of Chinese medicine is limited by the consistency at "molecular-cellular-organ-overall" levels, unclear interaction of multiple medicinals and multiple substances, the "toxicity-efficacy-compatibility-syndrome" correlation, and the "dosage-time-toxicity-efficacy" conversion law. Therefore, following the principle of "starting from the clinical practice, verifying via the theoretical basis, and finally applying in clinical practice", we verified the toxicity at "molecular-cellular-organ-overall" levels, revealed the interaction of multiple medicinals and substances, collected evidence at multiple levels, clarified the "dosage-time-toxicity-efficacy" relationship, and tested the consistency between basic and clinical biomarkers. On this basis, we studied the toxicity-alleviating and efficacy-enhancing(preserving) compatibility characteristics, the fate of one medicinal and multiple medicinals in vivo, the molecular mechanism of toxicity, the "dosage-time-toxicity-efficacy" conversion law, and the clinical characteristics of toxic traditional Chinese medicine based on disease and syndrome. The three mechanisms of toxicity-attenuating compatibility reflect the seven-reaction theory in Chinese medicine compatibility. Finally, the strategies for safe use of Chinese medicine were proposed.

[Risk assessment, safe medication and scientific supervision of traditional Chinese medicine containing aristolochic acids--toxicity is different among aristolochic acids, and detection and control of aristolochic acid â /â ¡ is critical].

The safety problem of traditional Chinese medicine containing aristolochic acid is of great concern in China and abraod, which poses a challenge in clinical application and supervision. There are many types of aristolochic acid analogues(AAAs) and 178 have been reported. According to the structure, they are classified into aristolochic acids(AAs) and aristololactams(ALs). The toxi-city is remarkably different among AAAs of different types. For example, AA-Ⅰ has strong nephrotoxicity and carcinogenicity, and the toxicity of AA-Ⅱ is lower than that of AA-Ⅰ. Besides, AA-Ⅳa and AA-Ⅰa are considered to have no obvious nephrotoxicity and carcinogenicity. The types and content of AAAs are significantly different among traditional Chinese medicines derived from different Aristolochiaceae species. For example, Asari Radix et Rhizoma and Aristolochiae Herba mainly consist of AAAs without obvious toxicity(such as AA-Ⅳa). The content of AAAs in compound preparations is related to the proportions of the medicinals and the processing method. The content of AA-Ⅰ in some compound preparations is very low or below the detection limit. Therefore, the author concludes that AAAs of different types have different toxicity, but not all AAAs has nephrotoxicity and carcinogenicity. Moreover, the toxicity of traditional Chinese medicines containing AAAs should not be generalized and AA-Ⅰ and AA-Ⅱ should be emphasized. In this paper, it is suggested that traditional Chinese medicine containing AAAs should be used rationally and research, analysis, and toxicological study of AAAs species and content should be strengthened. In addition, limit standards of AA-Ⅰ and AA-Ⅱ should be formulated and science-based supervision should be performed.

[A novel mouse allergy tested model and its application for traditional Chinese medicine injections's allergy evaluation].

When the drug induces the organism to produce a type Ⅰ allergic reaction, the combination of IgE and mast cells results in the degranulation of the mast cells. Release of vasoactive substances, increase in vascular permeability, and exudation of intravascular substances outside the blood vessels. Based on this pathophysiological mechanism, a mouse model that can objectively and quantitatively assess the allergic response to the injection has been established. ICR mice were sensitised by intraperitoneal injection of different doses of OVA once every two days for three times. 14 days after the last sensitization, a combination OVA solution of 4 times the sensitizing dose and Evans blue were injected intravenously into mice for the challenge. Compared with the normal group, OVA 0.625/2.5, 1.25/5, 2.5/10, 5/20 mg·kg~(-1) sensitized and challenged can induce allergic reactions mainly manifested by blue staining of the auricle in mice. Direct injection of OVA intravenously did not cause an auricular blue colouration reaction in mice. The passive cutaneous anaphylaxis reaction in mice was conducted with the aforementioned OVA-sensitized mouse serum, and there were obvious blue spots on the mouse's back. In addition, the content of anti-OVA-IgE in 5 mg·kg~(-1) OVA-sensitized mice was significantly increased. Ears and lungs of mice sensitized to OVA showed evident exudation inflammation. Significantly elevated inflammatory factors(VEGF and IL-10) were also detected in the serum of OVA-sensitized mice. The equivalent dose of OVA caused obvious allergic reactions in both guinea pigs and mice. Compared with nude mice, ICR and BALB/c mice are more sensitive to OVA sensitization. Injections of selected TCMI did not induce type Ⅰ allergic reactions in mice and guinea pigs, but there was a risk of inducing pseu-doallergic reactions in mice. The model is problematic and may well reflect the sensitization effect of allergens. It obtains the benefits of simple operation, accuracy, low cost, easy extension, and high repeatability. It is suitable for predicting and researching for IgE-dependent type Ⅰ allergic reactions.

αB-crystallin/HSPB2 is critical for hyperactive mTOR-induced cardiomyopathy.

Even though aberrant mechanistic target of rapamycin (mTOR) signaling is known to cause cardiomyopathy, its underlying mechanism remains poorly understood. Because augmentation of αB-crystallin and hspB2 was presented in the cortical tubers and lymphangioleiomyomatosis of tuberous sclerosis complex patients, we deciphered the role of αB-crystallin and its adjacent duplicate gene, hspB2, in hyperactive mTOR-induced cardiomyopathy. Cardiac Tsc1 deletion (T1-hKO) caused mouse mTOR activation and cardiomyopathy. Overexpression of αB-crystallin and hspB2 was presented in the hearts of these mice. Knockout of αB-crystallin/hspB2 reversed deficient Tsc1-mediated fetal gene expression, mTOR activation, mitochondrial damage, cardiomyocyte vacuolar degeneration, cardiomyocyte size, and fibrosis of T1-hKO mice. These cardiac-Tsc1; αB-crystallin; hspB2 triple knockout (tKO) mice had improved cardiac function, smaller heart weight to body weight ratio, and reduced lethality compared with T1-hKO mice. Even though activated mTOR suppressed autophagy in T1-hKO mice, ablation of αB-crystallin and hspB2 failed to restore autophagy in tKO mice. mTOR inhibitors suppressed αB-crystallin expression in T1-hKO mice and rat cardiomyocyte line H9C2. Starvation of H9C2 cells activated autophagy and suppressed αB-crystallin expression. Since inhibition of autophagy restored αB-crystallin expression in starved H9C2 cells, autophagy is a negative regulator of αB-crystallin expression. mTOR thus stimulates αB-crystallin expression through suppression of autophagy. In conclusion, αB-crystallin and hspB2 play a pivotal role in Tsc1 knockout-related cardiomyopathy and are therapeutic targets of hyperactive mTOR-associated cardiomyopathy.

[Research progress on adverse reactions and pseudo-allergic reactions of traditional Chinese medicine injections].

Since the safety re-evaluation of traditional Chinese medicine(TCM) injections began in 2009, some TCM injection companies and research institutes have done a lot of work. And with the increase of drug development and drug production technology levels in China, the safety of some TCM injections has been greatly improved. There are safety risks in TCM injections, which are mainly reflected in unclear basis of medicinal materials, simple production process, poor controllability of quality standards, nonstan-dard drug instructions and irrational medication in the use process. This paper describes the research progress of the above-mentioned aspects of TCM injections. In addition, the author team found that adverse reactions of TCM injections are mainly pseudo-allergic reactions. Therefore, a lot of work has been done in detection of pseudo-allergic reactions, mechanism research and risk control. This part of the work is also described in this article.

[Study on synergistic effect of Qingkailing Injection and Shengmai Injection on organ injury in endotoxemia rats].

As a dangerous disease with rapid progression, endotoxemia is easy to induce the damage to multiple organs. However, its specific and efficient treatment methods are still lacking at present. Both Qingkailing Injection(QKLI) and Shengmai Injection(SMI) have been proved effective in anti-inflammation, anti-endotoxin and organ protection. In this study, carrageenan and endotoxin were injected successively into rats to establish an endotoxemia model. Different doses of QKLI and SMI were administered to the endotoxemia rats by intraperitoneal injection separately or in combination. Then the count of white blood cells, the number of platelets, the content of cytokines, biochemical indexes, organ coefficient and pathological changes of main organs in the rats were detected. The results showed that the rats in the model group had obvious symptoms of endotoxemia, i.e., leucopenia, thrombocytopenia, increase in cytokines(IL-6 and TNF-α) and biochemical indexes of liver and kidney function as well as pathological damage to liver, kidney and lung. QKLI alone can alleviate the above symptoms of endotoxemia and the organ injury. SMI alone is less effective in improving disseminated intravascular coagulation(DIC) and cytokine secretion complicated with endotoxemia, but capable of reducing the inflammation degree of the lung, liver and kidney. The combination of QKLI and SMI remarkably increased the number of platelets in the peripheral blood, improved the liver and kidney function and reduced inflammatory factors, with lung, liver, kidney and other organ structures protected well. Moreover, the improvement effect of the combination of QKLI and SMI was stronger than those of the two injections alone at fixed doses, indicative of a synergistic effect.

Ac154 carried out anti-apoptotic role during AcMNPV infection process in the host insect cells.

AcMNPV is the first baculovirus to be sequenced and is considered a model of baculovirus. ac154 is a later expression gene in AcMNPV genome and its function is unknown. In this study, we explored the function of Ac154 in AcMNPV infection process in host Sf9 cells. The results showed that Ac154 was distributed in both nucleus and cytoplasm. Knockout of ac154 did not affect the production of BV, but the yield of progeny virus was reduced, indicating the auxiliary function of Ac154 in virus production. MTT assay showed that Ac154 promoted the proliferation and inhibited apoptosis of Sf9 cells. Overexpression of ac154 gene significantly increased the transcription level of anti-apoptotic gene p35, and delayed the expression of the pro-apoptotic protein SfP53 and reduced its expression level, which indicated its anti-apoptotic role in the host cells. In conclusion, our results demonstrated Ac154 could delay apoptosis process in host cells by regulating the transcription of p35 gene and the expression of SfP53 protein, which provided a more favorable environment for progeny virus replication and packaging, thereby promoting the proliferation of progeny virus. So we provided a potentially improved bac-to-bac eukaryotic protein expression system and biopesticide in this work.

UAA and UAG may Encode Amino Acid in Cathepsin B Gene of Euplotes octocarinatus.

The ciliate Euplotes deviates from the universal genetic code by translating UGA as cysteine and using UAA and UAG as the termination codon. Here, we cloned and sequenced the Cathepsin B gene of Euplotes octocarinatus (Eo-CTSB) which containing several in-frame stop codons throughout the coding sequence. We provide evidences, based on 3'-RACE method and Western blot, that the Eo-CTSB gene is actively expressed. Comparison of the derived amino acid sequence with the homologs in other eukaryotes revealed that UAA and UAG may code for glutamine in Eo-CTSB. These findings imply an evolutionary complexity of stop codon reassignment in eukaryotes.

Genome-wide transcriptional analysis of Aristolochia manshuriensis induced gastric carcinoma.

Context: Aristolochia manshuriensis Kom (Aristolochiaceae) (AMK) is known for toxicity and mutagenicity.Objective: The tumorigenic role of AMK has yet to be understood.Materials and methods: AMK extracts were extracted from root crude drug. SD (Sprague Dawley) rats underwent gavage with AMK (0.92 g/kg) every other day for 10 (AMK-10) or 20 (AMK-20) weeks. Stomach samples were gathered for histopathological evaluation, microarray and mRNA analysis.Results: The gastric weight to body weight ratio (GW/BW) is 1.7 in the AMK-10 cohort, and 1.8 in AMK-20 cohort compared to control (CTL) cohort. Liver function was damaged in AMK-10 and AMK-20 rats compared to CTL rats. There were no significant changes of CRE (creatinine) in AMK-10 and AMK-20 rats. Histopathological analysis revealed that rats developed dysplasia in the forestomach in AMK-10 rats, and became gastric carcinoma in AMK-20 rats. Genes including Mapk13, Nme1, Gsta4, Gstm1, Jun, Mgst2, Ggt6, Gpx2, Gpx8, Calml3, Rasgrp2, Cd44, Gsr, Dgkb, Rras, and Amt were found to be critical in AMK-10 and AMK-20 rats. Pik3cb, Plcb3, Tp53, Hras, Myc, Src, Akt1, Gnai3, and Fgfr3 worked in AMK-10 rats, and PDE2a and PDE3a played a pivotal role in AMK-20 rats.Discussion and conclusions: AMK induced benign or malignant gastric tumours depends on the period of AMK administration. Genes including Mapk13, Nme1, Gsta4, Gstm1, Jun, Mgst2, Ggt6, Gpx2, Gpx8, Calml3, Rasgrp2, Cd44, Gsr, Dgkb, Rras, Amt, Pik3cb, Plcb3, Tp53, Hras, Myc, Src, Akt1, Gnai3, Fgfr3, PDE2a, and PDE3a were found to be critical in aristolochic acid-induced gastric tumour process.

Shuxuening injection, derived from Ginkgo biloba leaf, induced pseudo-allergic reactions through hyperactivation of mTOR.

Context: Shuxuening injection (SXNI), derived from the leaf of Ginkgo biloba L. (Ginkgoaceae), is widely used to treat cardio-cerebral vascular system related disease due to the efficacy of dilating the blood vessels and improving the function of microcirculation. Nevertheless, SXNI induces immediate hypersensitivity reactions in clinics and the molecular mechanisms are unknown.Objective: The present study investigates the molecular mechanism of SXNI mediated hypersensitivity reactions.Materials and methods: Naive male ICR mice (n = 10) were administered (i.v.) with negative control combined with Evans blue (EB) (CTL-EB), SXNI (14 or 70 mg/kg) combined with EB (SXNI/1-EB or SXNI/4-EB), vascular leakage was evaluated, ears and lungs were collected for histopathological analysis. In vitro, TSC1 was knockdown in human umbilical vein endothelial cells (HUVECs). HUVECs were incubated with SXNI, and the alterations of endothelial cell permeability were observed. Rapamycin (mTOR inbibitor) was used to investigate SXNI-induced hypersensitivity reactions both in mice and HUVECs.Results: SXNI (70 mg/kg) induced vascular leakage in mice. Slight oedema and microvascular dilation in the ears, and broaden of alveolar septal and monocyte infiltration in the lungs were observed in SXNI (70 mg/kg) treated mice. mTOR inhibitor alleviates SXNI mediated vascular endothelial hyperpermeability both in vitro and in vivo.Discussion and conclusions: SXNI stimulates pseudo-allergic reactions through hyperactivation of mTOR signalling pathway. Our work provides the new molecular mechanism of drug related pseudo-allergic reactions, and a potential drug to prevent and treat SXNI mediated hypersensitivity reactions.

Untargeted LC-MS-based metabonomics revealed that aristolochic acid I induces testicular toxicity by inhibiting amino acids metabolism, glucose metabolism, ß-oxidation of fatty acids and the TCA cycle in male mice.

As the main toxic component of aristolochic acid, aristolochic acid I (AAI) is primarily found in Aristolochiaceae plants such as Aristolochia, Aristolochia fangchi and Caulis aristolochiae manshuriensis. AAI has been proven to be carcinogenic, mutagenic and nephrotoxic. Although the role of AAI in testicular toxicity has been reported, its mechanism of action is unknown. Using metabonomics and molecular biology techniques, we tried to identify the differential endogenous metabolites of AAI that may affect the changes in testicular function in mice, map the network of metabolic pathways, and systematically reveal the molecular mechanism of AAI-induced testicular toxicity. We found that AAI inhibited amino acid metabolism in mouse testicular cells, impeded the uptake and oxidative decomposition of fatty acids, prevented normal glucose uptake by testicular cells, which inhibited glycolysis and gluconeogenesis, affected the mitochondrial tricarboxylic acid (TCA) cycle, which impaired the ATP energy supply, decreased the number of spermatogenic cells and sperm in the testes, induced changes in the mitochondrial state of spermatogonial cells, and ultimately led to physiological and pathological changes in the testes. AAI also regulated the testicular physiological activity by regulating the androgen receptor and hormone levels. This study used metabonomics and other methods to elucidate the mechanism of AAI-induced testicular toxicity from a new angle.

Ac34 protein of AcMNPV promoted progeny virus production and induced the apoptosis in host Sf9 cells.

OBJECTIVES: To analyze the function of Ac34 in Autographa californica multiple nuclear polyhedrosis virus (AcMNPV) and elucidate the JNK apoptotic signaling pathway activation in host Spodoptera frugiperda 9 (Sf9) cells induced by the recombinant virus AcMNPV-Ac34-EGFP. RESULTS: AcMNPV is an important species of baculoviruses. First, viral propagation assay indicated that overexpression of Ac34 protein promoted replication of AcMNPV. Quantitative RT-PCR analysis showed that Ac34 increased the transcriptional level of late genes 38k and vp39, which suggested that Ac34 promoted the production of progeny virus by upregulating transcription of late genes. Second, AcMNPV-Ac34-EGFP inhibited the proliferation of Sf9 cells. Moreover, Sf9 cells infected with AcMNPV-Ac34-EGFP resulted in abundant expression of SfP53 and its accumulation in the nucleus. c-Jun N-terminal kinase (JNK) activation requires MKK4 and MKK7 mediated phosphorylation at Thr183 and Tyr185. We found increased levels of p-JNK1/2 in Sf9 cells infected by AcMNPV-Ac34-EGFP, with concomitant induction of Sf9 cell death. Furthermore, treatment of infected Sf9 cells with SP600125 (an inhibitor of JNK pathway) downregulated p-JNK1/2 and influenced the expression of virus-induced apoptosis protein SfP53, as well as Cytochrome C and Bax. CONCLUSION: AcMNPV-Ac34-EGFP virus upregulated the progeny virus production and triggered apoptosis via activation of the JNK pathway in Sf9 cells. In this work, we unveiled an effective virus replication factor-Ac34 and more importantly, developed a recombinant virus that can be used as an improved version of biopesticide.

Ac25 in Autographa californica multiple nucleopolyhedrovirus was crucial for progeny budded virion production.

OBJECTIVES: To analyze the effect of Ac25 on the proliferation of AcMNPV (Autographa californica multicapsid nucleopolyhedrovirus) progeny virus and its function in virogenic stroma. RESULTS: AcMNPV is a model of baculovirus and is the most widely studied baculovirus. Ac25, as a single-stranded DNA-binding protein, is involved in viral genomic DNA replication. Viral proliferation assay showed that AcMNPV progeny virus could not be produced when Ac25 was knocked out, which indicated it was crucial for BV production. Absolute quantitative PCR analysis indicated that Ac25 was able to promote replication of the AcMNPV genome in host Sf9 cells. It was also found that Ac25 could increase the transcription level of 38k and vp39 late expression genes, and inhibit host cell proliferation. CONCLUSION: Ac25 is highly accumulated in the nucleus and promotes progeny virus production by stimulating viral genome replication and up-regulating the expression of late genes. Two potential applications of vAc-Ac25-EGFP were proposed: an improved bac-to-bac eukaryotic protein expression systems and biopesticides.

Forsythoside A and Forsythoside B Contribute to Shuanghuanglian Injection-Induced Pseudoallergic Reactions through the RhoA/ROCK Signaling Pathway.

In recent years, hypersensitivity reactions to the Shuanghuanglian injection have attracted broad attention. However, the componential chief culprits inducing the reactions and the underlying mechanisms involved have not been completely defined. In this study, we used a combination of approaches based on the mouse model, human umbilical vein endothelial cell monolayer, real-time cellular monitoring, immunoblot analysis, pharmacological inhibition, and molecular docking. We demonstrated that forsythoside A and forsythoside B contributed to Shuanghuanglian injection-induced pseudoallergic reactions through activation of the RhoA/ROCK signaling pathway. Forsythoside A and forsythoside B could trigger dose-dependent vascular leakage in mice. Moreover, forsythoside A and forsythoside B slightly elicited mast cell degranulation. Correspondingly, treatment with forsythoside A and forsythoside B disrupted the endothelial barrier and augmented the expression of GTP-RhoA, p-MYPT1, and p-MLC2 in a concentration-dependent manner. Additionally, the ROCK inhibitor effectively alleviated forsythoside A/forsythoside B-induced hyperpermeability in both the endothelial cells and mice. Similar responses were not observed in the forsythoside E-treated animals and cells. These differences may be related to the potential of the tested compounds to react with RhoA-GTPγS and form stable interactions. This study innovatively revealed that some forsythosides may cause vascular leakage, and therefore, limiting their contents in injections should be considered.

The Involvement of the RhoA/ROCK Signaling Pathway in Hypersensitivity Reactions Induced by Paclitaxel Injection.

A high incidence of hypersensitivity reactions (HSRs) largely limits the use of paclitaxel injection. Currently, these reactions are considered to be mediated by histamine release and complement activation. However, the evidence is insufficient and the molecular mechanism involved in paclitaxel injection-induced HSRs is still incompletely understood. In this study, a mice model mimicking vascular hyperpermeability was applied. The vascular leakage induced merely by excipients (polyoxyl 35 castor oil) was equivalent to the reactions evoked by paclitaxel injection under the same conditions. Treatment with paclitaxel injection could cause rapid histamine release. The vascular exudation was dramatically inhibited by pretreatment with a histamine antagonist. No significant change in paclitaxel injection-induced HSRs was observed in complement-deficient and complement-depleted mice. The RhoA/ROCK signaling pathway was activated by paclitaxel injection. Moreover, the ROCK inhibitor showed a protective effect on vascular leakage in the ears and on inflammation in the lungs. In conclusion, this study provided a suitable mice model for investigating the HSRs characterized by vascular hyperpermeability and confirmed the main sensitization of excipients in paclitaxel injection. Histamine release and RhoA/ROCK pathway activation, rather than complement activation, played an important role in paclitaxel injection-induced HSRs. Furthermore, the ROCK inhibitor may provide a potential preventive approach for paclitaxel injection side effects.

EOGD: the Euplotes octocarinatus genome database.

BACKGROUND: Euplotes, a ciliated protozoan, is a useful unicellular model organism. Studies on Euplotes have provided excellent insights into various basic biological principles. We have recently sequenced the macronuclear genome of the common freshwater species Euplotes octocarinatus to provide novel insights into Euplotes genetics and molecular biology. RESULTS: In this study, we present the E. octocarinatus Genome Database (EOGD), a functional annotation and analysis platform for the global study of the Euplotes genome. EOGD includes macronuclear genomic and transcriptomic data, predicted gene models, coding sequences, protein sequences, and functional annotations. The GBrowser and BLAST tools are embedded in EOGD to enable the search, visualization and analysis of E. octocarinatus genomic and transcriptomic data. CONCLUSIONS: EOGD is a useful resource for the research community, particularly for researchers who conduct genome-scale analysis and molecular biology studies of Euplotes or other ciliates. EOGD will be continuously updated to integrate more datasets and analytical tools. EOGD is freely available at http://ciliates.ihb.ac.cn/database/home/#eo .