RESUMO

Mucosal epithelial cells act as the first immunologic barrier of organisms, and contact directly with pathogens. Therefore, hosts must have differential strategies to combat pathogens efficiently. Reactive oxygen species (ROS), as a kind of oxidizing agents, participates in the early stage of killing pathogens quickly. Recent reports have revealed that dual oxidase (DUOX) plays a key role in mucosal immunity. And the DUOX is a transmembrane protein which produces ROS as their primary enzymatic products. This process is an important pattern for eliminating pathogens. In this review, we highlight the DUOX immunologic functions in the respiratory and digestive tract of vertebrates.(AU)

As células epiteliais da mucosa atuam como a primeira barreira imunológica dos organismos e entram em contato direto com os patógenos. Portanto, os hospedeiros devem ter estratégias diferenciadas para combater os patógenos de forma eficiente. Trabalhos recentes revelaram que a oxidase dupla (DUOX) desempenha um papel fundamental para a imunidade da mucosa. A DUOX é uma proteína transmembrana geradora de espécies reativas de oxigênio (EROs) como seus principais produtos enzimáticos. Nesta revisão, apresentaremos as funções imunológicas da DUOX no trato respiratório e digestivo dos vertebrados.(AU)

Assuntos

RESUMO

Abstract Mucosal epithelial cells act as the first immunologic barrier of organisms, and contact directly with pathogens. Therefore, hosts must have differential strategies to combat pathogens efficiently. Reactive oxygen species (ROS), as a kind of oxidizing agents, participates in the early stage of killing pathogens quickly. Recent reports have revealed that dual oxidase (DUOX) plays a key role in mucosal immunity. And the DUOX is a transmembrane protein which produces ROS as their primary enzymatic products. This process is an important pattern for eliminating pathogens. In this review, we highlight the DUOX immunologic functions in the respiratory and digestive tract of vertebrates.

Resumo As células epiteliais da mucosa atuam como a primeira barreira imunológica dos organismos e entram em contato direto com os patógenos. Portanto, os hospedeiros devem ter estratégias diferenciadas para combater os patógenos de forma eficiente. Trabalhos recentes revelaram que a oxidase dupla (DUOX) desempenha um papel fundamental para a imunidade da mucosa. A DUOX é uma proteína transmembrana geradora de espécies reativas de oxigênio (EROs) como seus principais produtos enzimáticos. Nesta revisão, apresentaremos as funções imunológicas da DUOX no trato respiratório e digestivo dos vertebrados.

Assuntos

RESUMO

Mucosal epithelial cells act as the first immunologic barrier of organisms, and contact directly with pathogens. Therefore, hosts must have differential strategies to combat pathogens efficiently. Reactive oxygen species (ROS), as a kind of oxidizing agents, participates in the early stage of killing pathogens quickly. Recent reports have revealed that dual oxidase (DUOX) plays a key role in mucosal immunity. And the DUOX is a transmembrane protein which produces ROS as their primary enzymatic products. This process is an important pattern for eliminating pathogens. In this review, we highlight the DUOX immunologic functions in the respiratory and digestive tract of vertebrates.

Assuntos

RESUMO

Abstract Mucosal epithelial cells act as the first immunologic barrier of organisms, and contact directly with pathogens. Therefore, hosts must have differential strategies to combat pathogens efficiently. Reactive oxygen species (ROS), as a kind of oxidizing agents, participates in the early stage of killing pathogens quickly. Recent reports have revealed that dual oxidase (DUOX) plays a key role in mucosal immunity. And the DUOX is a transmembrane protein which produces ROS as their primary enzymatic products. This process is an important pattern for eliminating pathogens. In this review, we highlight the DUOX immunologic functions in the respiratory and digestive tract of vertebrates.

Resumo As células epiteliais da mucosa atuam como a primeira barreira imunológica dos organismos e entram em contato direto com os patógenos. Portanto, os hospedeiros devem ter estratégias diferenciadas para combater os patógenos de forma eficiente. Trabalhos recentes revelaram que a oxidase dupla (DUOX) desempenha um papel fundamental para a imunidade da mucosa. A DUOX é uma proteína transmembrana geradora de espécies reativas de oxigênio (EROs) como seus principais produtos enzimáticos. Nesta revisão, apresentaremos as funções imunológicas da DUOX no trato respiratório e digestivo dos vertebrados.

RESUMO

Abstract Mucosal epithelial cells act as the first immunologic barrier of organisms, and contact directly with pathogens. Therefore, hosts must have differential strategies to combat pathogens efficiently. Reactive oxygen species (ROS), as a kind of oxidizing agents, participates in the early stage of killing pathogens quickly. Recent reports have revealed that dual oxidase (DUOX) plays a key role in mucosal immunity. And the DUOX is a transmembrane protein which produces ROS as their primary enzymatic products. This process is an important pattern for eliminating pathogens. In this review, we highlight the DUOX immunologic functions in the respiratory and digestive tract of vertebrates.

Resumo As células epiteliais da mucosa atuam como a primeira barreira imunológica dos organismos e entram em contato direto com os patógenos. Portanto, os hospedeiros devem ter estratégias diferenciadas para combater os patógenos de forma eficiente. Trabalhos recentes revelaram que a oxidase dupla (DUOX) desempenha um papel fundamental para a imunidade da mucosa. A DUOX é uma proteína transmembrana geradora de espécies reativas de oxigênio (EROs) como seus principais produtos enzimáticos. Nesta revisão, apresentaremos as funções imunológicas da DUOX no trato respiratório e digestivo dos vertebrados.

RESUMO

Target leaf spot is a sorghum leaf disease caused by Bipolaris sorghicola, a species of fungus with a global distribution. In this study, we investigated the process by which B. sorghicola invades cells of barley, onion, Arabidopsis thaliana species, and sorghum. The results showed that within 8 h of coming into contact with host cells, the hyphal ends of B. sorghicola expand and form a uniform infective penetration pegbolt-like structure; a primary infection mycelium can be formed inside host cells within 24 h after contact, which can infect closed cells after 48 h. A mycelium can grow within the gap between cells and form infective hyphae. The pathogen infection process was the same in different host cells. B. sorghicola can affect root cells through soil infection, indicating that it may also have characteristics of soil-borne pathogens.

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We determined whether genetically engineered immature dendritic cells (imDCs) mediated by lentiviral vectors alleviate acute graft-versus-host disease (GVHD) after allogeneic bone marrow transplantation (allo-BMT) in mice. We introduced the mouse chemokine receptor 7 (Ccr7) gene into the bone marrow-derived imDCs of C57BL/6 mice to construct genetically engineered imDCs. A 1:1 mixture of bone marrow and spleen cells from the donors was injected into the recipients, which were divided into four groups: radiation, transplantation, empty vector, and transgenic imDC groups. Symptoms, clinical scores, GVHD pathological changes, and survival times and rates of recipients were recorded; secretion of IFN-γ and IL-4, and allogeneic chimerism rates were detected. The survival time of the transgenic imDC group (27.5 ± 7.55 days) was significantly longer than in the other three groups (P < 0.01). The GVHD score of the imDC group mice was significantly lower than in the transplantation and empty vector groups (P < 0.05), which meant that mice in the transgenic imDC group had the lightest pathology damage in the target organs. In the transplantation group, IFN-γ increased while IL-4 decreased. In contrast, IFN-γ decreased and IL-4 increased in both empty vector and trans-imDC groups, and the difference was significant in the latter (P < 0.01). Thirty days or more following transplantation, the allogeneic chimerism rate was still 95-100%, suggesting complete donor type implantation. Ccr7 transfection into imDCs suppressed occurrence and severity of acute GVHD after allo-BMT in mice; the mechanism might be associated with IFN-γ decrease and IL-4 increase.

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To better understand the reproductive transformation mechanism of Daphnia carinata, a Doublesex (Dsx) gene was cloned based on rapid amplification of cDNA ends (RACE), and was designated DapcaDsx2. Next, we compared similarities and assumed homology based on deduced amino acid sequences. It showed 97.52, 87.94, and 85.11% identity to orthologous genes in D. magna, D. pulex, and D. galeata respectively. Phylogenetic analysis revealed that DapcaDsx2 clustered in the same class, and was evolutionarily more distant to sequences from other species. qRT-PCR showed that DapcaDsx2 was most abundantly expressed during sexual reproduction (P < 0.05). Using digoxigenin-labeled RNA probes, we studied DapcaDsx2 expression in parthenogenetic and sexual females by whole-mount in situ hybridization. The results revealed that DapcaDsx2 was mainly expressed in the second antennae and several sites of the ventral carapace, whereas higher expression levels were found in sexual than in parthenogenetic females. This suggests that the DapcaDsx2 gene is involved in switching modes of reproduction and in sexual differentiation.

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This study investigated functional changes in the ovaries of women who have had conservative laparoscopic endometrial cystectomy and the effects of traditional kidney-reinforcing and blood-activating Traditional Chinese Medicine (TCM) on ovarian function. Seventy female patients who underwent laparoscopic endometrial cystectomy were randomized into two groups: TCM group receiving kidney-reinforcing and blood-activating Chinese medicine (N = 35) and control group receiving only routine follow-up (N = 35). The serum levels of all study participants were measured for follicle-stimulating hormone (FSH), luteinizing hormone (LH), estradiol (E2) and inhibin B (INHB) prior to and after endometrial surgery. Postoperative menstruation conditions were also assessed. Compared to preoperative conditions, both LH and FSH levels during the postoperative 1st month increased in both groups, while E2 and INHB levels decreased (P < 0.05). In the TCM group, in contrast to the control group and the postoperative 1st month, we observed a decrease in LH and FSH levels during the postoperative 4th month, while E2 and INHB levels increased (P < 0.05). In this study, we found that certain TCM prescriptions lowered postoperative serum FSH and LH levels and increased the serum INHB and basal E2 levels, thereby improving the ovarian reserve.

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PURPOSE: To explore the altered different expression of miRNAs and the mechanisms underlying the relapse and metastasis of pancreatic cancer. MATERIALS AND METHODS: The most differentially expressed miRNAs were analyzed by gene ontology (GO) term analysis, Kyoto encyclopedia of genes and genomes (KEGG) pathway analysis and protein interaction analysis. The potentially regulated target genes of the most differentially expressed miRNAs were also analyzed further by GO term analysis and KEGG pathway analysis, and quantitated by qRT-PCR. RESULTS: In total, we found 12 miRNAs displayed at least a 30-fold increase or decrease in expression of carcinoma and relapse vs. para-carcinoma human pancreatic cancer (C/R vs. P). In addition, our study found that pancreatic cancer was related to pathways in cancer, including Jak-STAT signaling pathway, MAPK signaling pathway and PPAR signaling pathway. CONCLUSIONS: The differential expressed miRNAs and their predicted target genes that involved in Jak-STAT signaling pathway, MAPK signaling pathway and PPAR signaling pathway indicating their potential roles in pancreatic carcinogenesis and progress.

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