ABSTRACT
Naturally evolved enzymes, despite their astonishingly large variety and functional diversity, operate predominantly through thermochemical activation. Integrating prominent photocatalysis modes into proteins, such as triplet energy transfer, could create artificial photoenzymes that expand the scope of natural biocatalysis1-3. Here, we exploit genetically reprogrammed, chemically evolved photoenzymes embedded with a synthetic triplet photosensitizer that are capable of excited-state enantio-induction4-6. Structural optimization through four rounds of directed evolution afforded proficient variants for the enantioselective intramolecular [2+2]-photocycloaddition of indole derivatives with good substrate generality and excellent enantioselectivities (up to 99% enantiomeric excess). A crystal structure of the photoenzyme-substrate complex elucidated the non-covalent interactions that mediate the reaction stereochemistry. This study expands the energy transfer reactivity7-10 of artificial triplet photoenzymes in a supramolecular protein cavity and unlocks an integrated approach to valuable enantioselective photochemical synthesis that is not accessible with either the synthetic or the biological world alone.
Subject(s)
Biocatalysis , Cycloaddition Reaction , Enzymes , Photochemical Processes , Biocatalysis/radiation effects , Energy Transfer , Stereoisomerism , Enzymes/genetics , Enzymes/metabolism , Enzymes/radiation effects , Indoles/chemistry , Substrate Specificity , Crystallization , Directed Molecular Evolution/methodsABSTRACT
Artificial photoenzymes with novel catalytic modes not found in nature are in high demand; yet, they also present significant challenges in the field of biocatalysis. In this study, a chemogenetic modification strategy is developed to facilitate the rapid diversification of photoenzymes. This strategy integrates site-specific chemical conjugation of various artificial photosensitizers into natural protein cavities and the iterative mutagenesis in cell lysates. Through rounds of directed evolution, prominent visible-light-activatable photoenzyme variants were developed, featuring a thioxanthone chromophore. They successfully enabled the enantioselective [2 + 2] photocycloaddition of 2-carboxamide indoles, a class of UV-sensitive substrates that are traditionally challenging for known photoenzymes. Furthermore, the versatility of this photoenzyme is demonstrated in enantioselective whole-cell photobiocatalysis, enabling the efficient synthesis of enantioenriched cyclobutane-fused indoline tetracycles. These findings significantly expand the photophysical properties of artificial photoenzymes, a critical factor in enhancing their potential for harnessing excited-state reactivity in stereoselective transformations.
Subject(s)
Cycloaddition Reaction , Stereoisomerism , Indoles/chemistry , Indoles/chemical synthesis , Indoles/metabolism , Photochemical Processes , Biocatalysis , Directed Molecular Evolution , Photosensitizing Agents/chemistry , Photosensitizing Agents/chemical synthesis , Light , Escherichia coli/enzymology , Molecular StructureABSTRACT
Multiple Endocrine Neoplasia 1 gene (MEN1), which is known to be a tumor suppressor gene in lung tissues, encodes a 610 amino acid protein menin. Previous research has proven that MEN1 deficiency promotes the malignant progression of lung cancer. However, the biological role of this gene in the immune microenvironment of lung cancer remains unclear. In this study, we found that programmed cell death-ligand 1 (PD-L1) is upregulated in lung-specific KrasG12D mutation-induced lung adenocarcinoma in mice, after Men1 deficiency. Simultaneously, CD8+ and CD3+ T cells are depleted, and their cytotoxic effects are suppressed. In vitro, PD-L1 is inhibited by the overexpression of menin. Mechanistically, we found that MEN1 inactivation promotes the deubiquitinating activity of COP9 signalosome subunit 5 (CSN5) and subsequently increases the level of PD-L1.
Subject(s)
B7-H1 Antigen , Lung Neoplasms , Proto-Oncogene Proteins , Tumor Escape , Animals , B7-H1 Antigen/metabolism , B7-H1 Antigen/genetics , Lung Neoplasms/genetics , Lung Neoplasms/immunology , Lung Neoplasms/pathology , Mice , Humans , Proto-Oncogene Proteins/genetics , Proto-Oncogene Proteins/metabolism , Tumor Escape/genetics , COP9 Signalosome Complex/genetics , COP9 Signalosome Complex/metabolism , Tumor Microenvironment/immunology , Adenocarcinoma of Lung/genetics , Adenocarcinoma of Lung/immunology , Adenocarcinoma of Lung/pathology , Adenocarcinoma of Lung/metabolism , Cell Line, Tumor , CD8-Positive T-Lymphocytes/immunology , CD8-Positive T-Lymphocytes/metabolism , Proto-Oncogene Proteins p21(ras)/genetics , Ubiquitination , MutationABSTRACT
BACKGROUND AND PURPOSE: In recent years, there has been extensive research on the role of exercise as an adjunctive therapy for cancer. However, the potential mechanisms underlying the anti-tumor therapy of exercise in lung cancer remain to be fully elucidated. As such, our study aims to confirm whether exercise-induced elevation of epinephrine can accelerate CD8+ T cell recruitment through modulation of chemokines and thus ultimately inhibit tumor progression. METHOD: C57BL/6 mice were subcutaneously inoculated with Lewis lung cancer cells (LLCs) to establish a subcutaneous tumor model. The tumor mice were randomly divided into different groups to performed a moderate-intensity exercise program on a treadmill for 5 consecutive days a week, 45 min a day. The blood samples and tumor tissues were collected after exercise for IHC, RT-qPCR, ELISA and Western blot. In addition, another group of mice received daily epinephrine treatment for two weeks (0.05 mg/mL, 200 µL i.p.) (EPI, n = 8) to replicate the effects of exercise on tumors in vivo. Lewis lung cancer cells were treated with different concentrations of epinephrine (0, 5, 10, 20 µM) to detect the effect of epinephrine on chemokine levels via ELISA and RT-qPCR. RESULTS: This study reveals that both pre- and post-cancer exercise effectively impede the tumor progression. Exercise led to an increase in EPI levels and the infiltration of CD8+ T cell into the lung tumor. Exercise-induced elevation of EPI is involved in the regulation of Ccl5 and Cxcl10 levels further leading to enhanced CD8+ T cell infiltration and ultimately inhibiting tumor progression. CONCLUSION: Exercise training enhance the anti-tumor immunity of lung cancer individuals. These findings will provide valuable insights for the future application of exercise therapy in clinical practice.
Subject(s)
Carcinoma, Lewis Lung , Lung Neoplasms , Animals , Mice , Lung Neoplasms/drug therapy , Lung Neoplasms/pathology , Mice, Inbred C57BL , CD8-Positive T-Lymphocytes , Chemokines , Carcinoma, Lewis Lung/therapy , Carcinoma, Lewis Lung/pathology , Tumor Microenvironment , Cell Line, TumorABSTRACT
The angiotensin II type 2 receptor (AT2R) is a well-established component of the renin-angiotensin system and is known to counteract classical activation of this system and protect against organ damage. Pharmacological activation of the AT2R has significant therapeutic benefits, including vasodilation, natriuresis, anti-inflammatory activity, and improved insulin sensitivity. However, the precise biological functions of the AT2R in maintaining homeostasis in liver tissue remain largely unexplored. In this study, we found that the AT2R facilitates liver repair and regeneration following acute injury by deactivating Hippo signaling and that interleukin-6 transcriptionally upregulates expression of the AT2R in hepatocytes through STAT3 acting as a transcription activator binding to promoter regions of the AT2R. Subsequently, elevated AT2R levels activate downstream signaling via heterotrimeric G protein Gα12/13-coupled signals to induce Yap activity, thereby contributing to repair and regeneration processes in the liver. Conversely, a deficiency in the AT2R attenuates regeneration of the liver while increasing susceptibility to acetaminophen-induced liver injury. Administration of an AT2R agonist significantly enhances the repair and regeneration capacity of injured liver tissue. Our findings suggest that the AT2R acts as an upstream regulator in the Hippo pathway and is a potential target in the treatment of liver damage.
Subject(s)
Hippo Signaling Pathway , Interleukin-6 , Liver Regeneration , Mice, Inbred C57BL , Protein Serine-Threonine Kinases , Receptor, Angiotensin, Type 2 , Signal Transduction , Animals , Male , Mice , Acetaminophen , Adaptor Proteins, Signal Transducing/metabolism , Chemical and Drug Induced Liver Injury/metabolism , Hepatocytes/metabolism , Hepatocytes/drug effects , Interleukin-6/metabolism , Liver/metabolism , Liver/drug effects , Liver Regeneration/drug effects , Liver Regeneration/physiology , Mice, Knockout , Protein Serine-Threonine Kinases/metabolism , Receptor, Angiotensin, Type 2/metabolism , Signal Transduction/drug effects , STAT3 Transcription Factor/metabolism , YAP-Signaling Proteins/metabolismABSTRACT
OBJECTIVES: To explore an optimal model to predict the response of patients with axillary lymph node (ALN) positive breast cancer to neoadjuvant chemotherapy (NAC) with machine learning using clinical and ultrasound-based radiomic features. METHODS: In this study, 1014 patients with ALN-positive breast cancer confirmed by histological examination and received preoperative NAC in the Affiliated Hospital of Qingdao University (QUH) and Qingdao Municipal Hospital (QMH) were included. Finally, 444 participants from QUH were divided into the training cohort (n = 310) and validation cohort (n = 134) based on the date of ultrasound examination. 81 participants from QMH were used to evaluate the external generalizability of our prediction models. A total of 1032 radiomic features of each ALN ultrasound image were extracted and used to establish the prediction models. The clinical model, radiomics model, and radiomics nomogram with clinical factors (RNWCF) were built. The performance of the models was assessed with respect to discrimination and clinical usefulness. RESULTS: Although the radiomics model did not show better predictive efficacy than the clinical model, the RNWCF showed favorable predictive efficacy in the training cohort (AUC, 0.855; 95% CI 0.817-0.893), the validation cohort (AUC, 0.882; 95% CI 0.834-0.928), and the external test cohort (AUC, 0.858; 95% CI 0.782-0.921) compared with the clinical factor model and radiomics model. CONCLUSIONS: The RNWCF, a noninvasive, preoperative prediction tool that incorporates a combination of clinical and radiomics features, showed favorable predictive efficacy for the response of node-positive breast cancer to NAC. Therefore, the RNWCF could serve as a potential noninvasive approach to assist personalized treatment strategies, guide ALN management, avoiding unnecessary ALND.
Subject(s)
Breast Neoplasms , Humans , Female , Breast Neoplasms/diagnostic imaging , Breast Neoplasms/drug therapy , Breast Neoplasms/pathology , Lymph Nodes/diagnostic imaging , Lymph Nodes/pathology , Neoadjuvant Therapy , Retrospective Studies , Lymphatic Metastasis/pathology , Machine LearningABSTRACT
BACKGROUND: Desensitization of G protein-coupled receptors (GPCRs) refers to a rapid attenuation of responsiveness that occurs with repeated or continuous exposure to agonists. GRK-mediated phosphorylation and subsequent binding with arrestins in the activated receptor cytoplasmic cavity in competition with G proteins has been suggested as the conventional mechanism of desensitization. Along with widely accepted conventional mechanism of desensitization, studies of various GPCRs including dopamine D2-like receptors (D2R, D3R, D4R) have suggested the existence of another desensitization mechanism. In this study, loss-of-function approaches and D2-like receptor mutants that display different desensitization properties were used to elucidate the molecular mechanisms responsible for desensitization. RESULTS: Desensitization development entailed the signaling cascade composed of Src, PDK1, and Akt, the latter of which in turn interacted with USP33, an arrestin deubiquitinase, to promote arrestin deubiquitination. The deubiquitinated arrestin subsequently formed a complex with Gßγ and translocated to the nucleus via an importin complex, wherein it sequestered Gßγ from the receptor and Gα, thereby attenuating receptor signaling. As in D2-like receptors, both USP33 and importin ß1 were involved in the desensitization of the ß2 adrenoceptor. CONCLUSIONS: In addition to the conventional mechanism of desensitization, which occurs on the plasma membrane and in the cytosol, this study provides a new insight that another desensitization pathway in which nuclear trafficking plays a critical role is operating. It is plausible that multiple, complementary desensitization measures are in place to properly induce desensitization depending on receptor characteristics or the surrounding environment. Video Abstract.
Subject(s)
Arrestin , Arrestins , Arrestins/chemistry , Arrestins/metabolism , Arrestin/metabolism , beta-Arrestins/metabolism , Signal Transduction , Phosphorylation , Receptors, G-Protein-Coupled/metabolismABSTRACT
Diagnosis of diffuse malignant peritoneal mesothelioma (DMPM) is challenging due to the lack of efficient biomarkers for early-stage DMPM. This study was designed to characterize three serum-soluble mesothelium-related proteins, including soluble mesothelin-related protein (SMRP), high mobility group box 1 (HMGB1), and cancer antigen 125 (CA125) in diagnosing DMPM. Serum samples of DMPM patients and healthy controls were collected and an enzyme-linked immunosorbent assay (ELISA) was used to measure the levels of HMGB1, CA125, and SMRP. Correlations between these three serum proteins were examined and the diagnostic values of the biomarkers were assessed by receiver operating curve (ROC) analysis. The combined expression levels of the three markers were also analyzed in terms of predicting patient survival. Higher levels of CA125, SMRP, and HMGB1 was found to be a prominent characteristic of DMPM patients (with > two-fold higher for all levels in DMPM patients compared to control patients, all p < .001), particularly for those with higher-stage DMPM (stage III-IV) compared with lower-stage DMPM (stage I-II) (all p < .05). HMGB1, CA125, and SMRP were all significantly inter-correlated with each other (all p < .05), the combination of the three serum markers had high sensitivity and specificity for diagnosing DMPM. Combined values of the three markers demonstrated a high AUC of 0.85, sensitivity of 78.95%, specificity of 82.75% for identifying DMPM. The combined level of the three markers also demonstrated a significant positive correlation with poor survival of DMPM patients (p = .022). CA125, SMRP, and HMGB1 are potentially valuable diagnostic biomarkers to facilitate the diagnosis of DMPM.
Subject(s)
HMGB1 Protein , Mesothelioma , Humans , Mesothelin , Mesothelioma/diagnosis , Mesothelioma/pathology , GPI-Linked Proteins , CA-125 Antigen , Prognosis , Biomarkers, TumorABSTRACT
OBJECTIVES: To explore the knowledge, attitudes, and practice (KAP) of non-medical students regarding impacted teeth and the factors associated with KAP. MATERIALS AND METHODS: This cross-sectional study enrolled non-medical students at two universities (Northeastern University and Shenyang Conservatory of Music) in northeastern China between December 2022 and February 2023. Scores > 70% were defined as adequate knowledge, positive attitudes, and proactive practice. RESULTS: A total of 519 non-medical students participated in this study. Most participants were male (54.72%), ≤ 20 years of age (72.83%), and freshmen (36.03%). The mean knowledge score was 4.98 ± 3.46 (possible range: 0-10), indicating poor knowledge (49.80%). The multivariable analysis showed that having impacted teeth were independently associated with adequate knowledge (OR = 3.114, 95% CI: 1.589-6.103, P = 0.001). The mean attitude score was 24.65 ± 3.78 (possible range: 7-35), indicating favorable attitudes (70.43%). The knowledge (OR = 1.182, 95% CI: 1.116-1.251, P < 0.001), junior grade (OR = 0.541, 95% CI: 0.327-0.895, P = 0.017), senior grade and above (OR = 0.477, 95% CI: 0.274-0.829, P = 0.009), and a history of impacted tooth extraction (OR = 2.386, 95% CI: 1.048-5.436, P = 0.038) were independently associated with the good attitudes. The mean practice score was 21.45 ± 5.64 (possible range: 6-30), indicating positive practice (71.50%). The knowledge (OR = 1.074, 95% CI: 1.017-1.133, P = 0.010) and female (OR = 1.501, 95% CI: 1.052-2.141, P = 0.025) were independently associated with the proactive practices. CONCLUSIONS: Non-medical students had poor knowledge but favorable attitudes and good practice toward impacted teeth. Non-medical students require additional education and awareness about the importance of early detection and management of impacted teeth. CLINICAL RELEVANCE: The study highlights the need for improved education and awareness among non-medical students regarding impacted teeth.
Subject(s)
Tooth, Impacted , Humans , Female , Male , Cross-Sectional Studies , Health Knowledge, Attitudes, Practice , Educational Status , StudentsABSTRACT
Abnormal communication between endothelial cells (ECs) and vascular smooth muscle cells (VSMCs) promotes vascular diseases, including atherogenesis. ETS variant transcription factor 2 (ETV2) plays a substantial role in pathological angiogenesis and the reprogramming of ECs; however, the role of ETV2 in the communication between ECs and VSMCs has not been revealed. To investigate the interactive role of ETV2 in the EC to VSMC phenotype, we first showed that treatment with a conditioned medium from ETV2-overexpressed ECs (Ad-ETV2 CM) significantly increased VSMC migration. The cytokine array showed altered levels of several cytokines in Ad-ETV2 CM compared with those in normal CM. We found that C-X-C motif chemokine 5 (CXCL5) promoted VSMC migration using the Boyden chamber and wound healing assays. In addition, an inhibitor of C-X-C motif chemokine receptor 2 (CXCR2) (the receptor for CXCL5) significantly inhibited this process. Gelatin zymography showed that the activities of matrix metalloproteinase (MMP)-2 and MMP-9 increased in the media of VSMCs treated with Ad-ETV2 CM. Western blotting revealed a positive correlation between Akt/p38/c-Jun phosphorylation and CXCL5 concentration. The inhibition of Akt and p38-c-Jun effectively blocked CXCL5-induced VSMC migration. In conclusion, CXCL5 from ECs induced by ETV2 promotes VSMC migration via MMP upregulation and the activation of Akt and p38/c-Jun.
Subject(s)
Muscle, Smooth, Vascular , Proto-Oncogene Proteins c-akt , Cells, Cultured , Endothelial Cells , Cell Movement , Cytokines/pharmacology , Myocytes, Smooth MuscleABSTRACT
Herein, we disclose the highly enantioselective oxidative cross-coupling of 3-hydroxyindole esters with various nucleophilic partners as catalyzed by copper efflux oxidase. The biocatalytic transformation delivers functionalized 2,2-disubstituted indolin-3-ones with excellent optical purity (90-99 % ee), which exhibited anticancer activity against MCF-7â cell lines, as shown by preliminary biological evaluation. Mechanistic studies and molecular docking results suggest the formation of a phenoxyl radical and enantiocontrol facilitated by a suited enzyme chiral pocket. This study is significant with regard to expanding the catalytic repertoire of natural multicopper oxidases as well as enlarging the synthetic toolbox for sustainable asymmetric oxidative coupling.
Subject(s)
Copper , Oxidoreductases , Copper/metabolism , Stereoisomerism , Molecular Docking Simulation , Oxidoreductases/metabolism , Ceruloplasmin/metabolism , IndolesABSTRACT
The multirelaxation behavior is promising for high-performance dielectric materials based on polarization-controllable high-efficiency electromagnetic attenuation. However, a single polar unit is the main problem that restricts the development of dielectric materials in the field. Herein, by constructing multiple polar units based on nanodomain engineering, enhanced electromagnetic attenuation properties are achieved in La doping BiFeO3 ferroelectric ceramics. A dual-band attenuation with a maximum reflection loss of -43.4 dB together with a wide effective bandwidth (<-10 dB) of 3.3 GHz in X-band, is acquired in Bi0.85 La0.15 FeO3 which just has a thickness of 1.54 mm. A systematic experimental analysis coupled with potential well modeling suggests that the miniaturization of the ferroelectric domain, from micron to nanoscale, induces an additional interface polarization that is capable of responding to microwave frequency, leading to the formation of dual dielectric relaxation. The way that intrinsic polar unit induces another polar unit through size effect to obtain multiple contributions of electromagnetic loss provides a feasible and universal strategy to design high-performance electromagnetic attenuation materials based on the ferroelectric family.
ABSTRACT
The pine wood nematode (PWN), Bursaphelenchus xylophilus, is a destructive invasive species that exerts devastating effects on most native pines in invaded regions, while many of the non-native pines have resistance to PWN. Recently, increasingly more research is focused on how microbial communities can improve host resistance against pathogens. However, the relationship between the microbial community structures and varying levels of pathogen resistance observed in different pine tree species remains unclear. Here, the bacterial and fungal communities of introduced resistant pines Pinus elliottii, P. caribaea, and P. taeda and native susceptible pines healthy and wilted P. massoniana infected by PWN were analyzed. The results showed that 6057 bacterial and 3931 fungal OTUs were annotated. The pine samples shared 944 bacterial OTUs primarily in the phyla Proteobacteria, Acidobacteria, Firmicutes, Bacteroidetes, and Chloroflexi and 111 fungal OTUs primarily in phyla Ascomycota and Basidiomycota, though different pines had unique OTUs. There were significant differences in microbial community diversity between different pines, especially between the bacterial communities of resistant and susceptible pines, and fungal communities between healthy pines (resistant pines included) and the wilted P. massoniana. Resistant pines had a greater abundance of bacteria in the genera Acidothermus (class unidentified_Actinobacteria) and Prevotellaceae (class Alphaproteobacteria), but a lower abundance of Erwinia (class Gammaproteobacteria). Healthy pines had a higher fungal abundance of Cladosporium (class Dothideomycetes) and class Eurotiomycetes, but a lower abundance of Graphilbum, Sporothrix, Geosmithia (class Sordariomycetes), and Cryptoporus (classes Agaricomycetes and Saccharomycetes). These differences in microbial abundance between resistant and healthy pines might be associated with pathogen resistance of the pines, and the results of this study contribute to the studies exploring microbial-based control of PWN.
Subject(s)
Microbiota , Nematoda , Pinus , Animals , Pinus/microbiology , Bacteria/genetics , Introduced Species , Plant DiseasesABSTRACT
BACKGROUND: Antibiotic resistance is increasing day by day, thereby increase the chances of more infections by resistant bacteria. In this situation, antimicrobial photodynamic therapy (aPDT) is gaining more attraction. OBJECTIVE: To evaluate the antimicrobial effect of ALA derivatives using photodynamic therapy. MATERIALS AND METHODS: In this study, we evaluated the aPDT effect of different derivatives of 5-ALA. In vivo and in vitro studies were performed to measure the antimicrobial activity. Different light doses and different concentrations of drugs were used to test anti-bacterial effect of drugs as well as to detect any physiological changes in animal model after the treatment. RESULTS: In vivo studies revealed that ALA-methyl ester, ALA-hexyl ester, and ALA-13A are potent photosensitizers. In vitro studies involved wound healing rate, body weight, and dietary intake were evaluated, and results showed that ALA, ALA-methyl ester, ALA-hexyl ester, and ALA-13A had good anti-bacterial effects, fast healing rate, and no effect on other physical parameters. CONCLUSION: Photodynamic therapy is increasingly used to treat different types of skin infections caused by bacterial strains. Our studies revealed that ALA-methyl ester, ALA-hexyl ester, and ALA-13A are promising photosensitizers for photodynamic therapy to inhibit the growth of resistant bacterial strains.
Subject(s)
Anti-Infective Agents , Photochemotherapy , Aminolevulinic Acid/pharmacology , Animals , Anti-Infective Agents/pharmacology , Esters , Pharmaceutical Preparations , Photosensitizing Agents/pharmacologyABSTRACT
ABSTRACT: Accurate application of the preoperative surgical plan in actual surgical settings is of paramount importance in orthognathic surgery. This randomized controlled clinical trial aimed to evaluate the accuracy of computer-aided intraoperative navigation (Ci-Navi) compared with that of conventional navigation methods in bimaxillary orthognathic surgery. Fifty-two patients were randomly divided into 2 groups. Group A (nâ=â26) patients underwent surgery assisted with Ci-Navi and group B (nâ=â26) patients underwent surgery assisted with conventional intraoperative navigation methods. During the operation, after LeFort I osteotomy, the mobile maxilla was repositioned to the designated position either using assistance from real-time Ci-Navi (group A) or using an intermediate splint (group B). Intra- and intergroup linear and angular differences between preoperative planning and postoperative outcomes were calculated. In group A, the overall mean linear difference was 0.79âmm (0.62âmm for the maxilla and 0.88âmm for the mandible) and the overall mean angular difference was 1.20°. In 23 cases, the difference from the upper incisor point to the Frankfort horizontal plane, midfacial sagittal plane, and coronal plane was less than 1âmm. In group B, the overall mean linear difference was 1.98âmm (1.76âmm for the maxilla and 2.02âmm for the mandible) and the overall mean angular difference was 2.08°. The difference from the upper incisor point to the Frankfort horizontal plane, midfacial sagittal plane, and coronal plane was less than 1âmm in 15 cases. This study demonstrates the utility of Ci-Navi is superior to the conventional methods in aiding the accurate repositioning of bony segments in bimaxillary orthognathic surgery.
Subject(s)
Orthognathic Surgery , Orthognathic Surgical Procedures , Surgery, Computer-Assisted , Computers , Humans , Imaging, Three-Dimensional , Maxilla/diagnostic imaging , Maxilla/surgeryABSTRACT
The study investigated the effects of dietary protein degradation rate on growth performance and immune response of crossbred Dorper × short-tail Han ram lambs experimentally infected with Haemonchus contortus and Trichostrongylus colubriformis. Eighteen lambs were randomly assigned to three dietary treatments, rapidly degradable protein (RDP), moderately degradable protein (MDP), and slowly degradable protein (SDP) diets. Feed intake and body weight of the lambs were recorded weekly until 42 days post-infection. The fecal egg count (FEC), FAMACHA scores, and immunoglobulins (IgG, IgM and IgA) were also monitored during the experimental period. A metabolic trial was conducted to assess apparent digestibility and volatile fatty acids were also determined. The lambs in SDP and MDP groups had higher feed, nutrient intake, weight gain, and feed efficiency than those in the RDP group. Feed conversion ratio (FCR) of the lambs in RDP group was higher than those in the SDP and MDP groups. A significant (P < 0.001) decrease in FEC was observed in the SDP and MDP groups. Dietary treatment had no significant effect on FAMACHA scores and concentration of serum antibodies. Concentration of acetic acid was higher (P < 0.013) in the lambs fed RDP than those fed the SDP and MDP diets. The lambs fed SDP diet had higher apparent digestibility than those fed the RDP diet. The poor performances in RDP group could be overcome by including SDP that ensures adequate post-ruminal protein supply reaching the small intestine.
Subject(s)
Haemonchiasis , Haemonchus , Sheep Diseases , Animal Feed/analysis , Animals , Dietary Proteins , Feces , Haemonchiasis/veterinary , Male , Parasite Egg Count/veterinary , Sheep , TrichostrongylusABSTRACT
Copper-catalyzed azide-alkyne cycloaddition (CuAAC) has been widely used in a variety of scientific research, including dynamic proteomics. The current well-established protocols of CuAAC for proteomics analysis introduce labeling tags (azide- or alkyne-containing reagents) at the protein level, followed by downstream analysis by mass spectrometry. In the present study, a new method for proteomic profiling of nascent proteins relying on highly efficient peptide-based click chemistry is proposed, in which the CuAAC reaction was performed at the peptide level, leading to a significant increase in efficiency of the click conjugation reaction. A remarkable improvement in identification rate for spectrum, distinct peptide, and protein was achieved when proteins to be analyzed were proteolytically cleaved into peptides prior to the click conjugation reaction, which would be beneficial to downstream proteomics analysis, especially for the detection of AHA-tagged proteins in very low amounts.
Subject(s)
Peptides/chemistry , Proteins/analysis , Proteomics , Alkynes/chemistry , Azides/chemistry , Catalysis , Click Chemistry , Copper/chemistry , Cycloaddition Reaction , HEK293 Cells , HumansABSTRACT
Desensitization of G protein-coupled receptors (GPCRs) represents a gradual attenuation of receptor responsiveness by continuous or repeated exposure to agonists. The most widely accepted molecular mechanism responsible for desensitization is that of GRK2-mediated receptor phosphorylation followed by association with ß-arrestins. However, in most cases, this mechanism cannot explain the desensitization of GPCRs. In this study, we investigated whether there exists a direct correlation between desensitization and certain cellular events that commonly observed with desensitizing receptors. Our study showed that constitutive ubiquitination of ß-arrestin, accompanied by nuclear to cytoplasmic translocation of Mdm2, was observed in cells expressing desensitizing GPCRs (dopamine D3 receptor, K149C-dopamine D2 receptor, ß2 adrenoceptor, and lysophosphatidic acid receptor 1). In contrast, Mdm2 was observed in the nucleus in cells expressing non-desensitizing GPCRs (dopamine D2 receptor, C147K-dopamine D3 receptor, and dopamine D4 receptor). Molecular manipulation to convert the characteristics of the dopamine D4 receptor from non-desensitizing to desensitizing changed the status of subcellular localization of Mdm2 from nuclear to cytoplasmic. With repeated agonist treatments of desensitizing receptors, Mdm2 translocated from cytoplasm to nucleus, resulting in the deubiquitination of ß-arrestins. This study suggests that the property of a receptor that causes a change in subcellular localization of Mdm2, from the nuclear to cytoplasmic, could be used as a biomarker to predict the desensitization of a receptor.
Subject(s)
Cytoplasm/metabolism , Proto-Oncogene Proteins c-mdm2/metabolism , Receptors, G-Protein-Coupled/metabolism , beta-Arrestins/metabolism , Cell Nucleus/metabolism , HEK293 Cells , Humans , Protein Transport , UbiquitinationABSTRACT
GRK-mediated receptor phosphorylation followed by association with ß-arrestins has been proposed to be the molecular mechanism involved in the desensitization of G protein-coupled receptors (GPCRs). However, this mechanism does not explain the desensitization of some GPCRs, such as dopamine D3 receptor (D3R), which does not undergo GRK-mediated phosphorylation. Loss-of-function approaches and mutants of dopamine D2 receptor and D3R, which exhibit different desensitization properties, were used to identify the cellular components and processes responsible for desensitization. D3R mediated the recruitment of Mdm2 to the cytosol, which resulted in the constitutive ubiquitination of ß-arrestin2 in the resting state. Under desensitization conditions, cytosolic Mdm2 returned to the nucleus, resulting in the deubiquitination of cytosolic ß-arrestins. Deubiquitinated ß-arrestins formed a tight complex with Gßγ, thereby sequestering it, causing interference in D3R signaling. In conclusion, this study shows that ß-arrestins, depending on their ubiquitination status, control the G protein cycling by regulating their interactions with Gßγ. This is a novel mechanism proposed to explain how certain GPCRs can undergo desensitization without receptor phosphorylation.
Subject(s)
Receptors, Dopamine D3/metabolism , Receptors, G-Protein-Coupled/metabolism , G-Protein-Coupled Receptor Kinase 2/antagonists & inhibitors , G-Protein-Coupled Receptor Kinase 2/genetics , G-Protein-Coupled Receptor Kinase 2/metabolism , G-Protein-Coupled Receptor Kinase 3/metabolism , Gene Knockdown Techniques , HEK293 Cells , Heterotrimeric GTP-Binding Proteins/metabolism , Humans , Mutation , Phosphorylation , Proto-Oncogene Proteins c-mdm2/antagonists & inhibitors , Proto-Oncogene Proteins c-mdm2/genetics , Proto-Oncogene Proteins c-mdm2/metabolism , Receptors, Dopamine D2/agonists , Receptors, Dopamine D2/genetics , Receptors, Dopamine D2/metabolism , Receptors, Dopamine D3/agonists , Receptors, Dopamine D3/genetics , Receptors, G-Protein-Coupled/agonists , Receptors, G-Protein-Coupled/genetics , Signal Transduction , Ubiquitination , beta-Arrestins/metabolismABSTRACT
Poplar canker, mainly caused by Botryosphaeria species, is a serious disease that has resulted in the reduced productivity and death of poplar worldwide. Different Populus species have varied resistance levels to poplar canker; however, whether phenolic compounds in poplar are involved in this resistance remains uncertain. Here, we determined the concentrations of phenolic compounds and their antifungal activities in canker-resistant P. tomentosa and canker-susceptible P. beijingensis. We identified 29 phenolic compounds with significantly different concentrations between the two species. Salicylic acid (SA), tremuloidin, salicin, and poplin were dominant in P. tomentosa, while benzoic acid (BA) and catechol were dominant in P. beijingensis. These six phenolic compounds were further tested for antifungal activities. SA, BA, and catechol showed significant antifungal activities against Botryosphaeria dothidea, while the other three compounds showed no activity. As BA or catechol can be converted in plants to SA, which is a remote signaling molecule that plays an important role in plant defenses, we presumed that the resistance of P. tomentosa was initiated by SA, while the susceptibility of P. beijingensis resulted from the absence of SA. Further studies are required to confirm this hypothesis. These results provide a foundation for future research on the disease-resistance mechanisms of poplar.