Analysis of LMP specific T cell immune response and clinical factors in stage III-IVa nasopharyngeal carcinoma / 中华放射肿瘤学杂志

Objective:To explore the Epstein-Barr virus (EBV) latent infection membrane protein (LMP) 1 or LMP2 specific T cell immune response and clinical significance in stage III-IVa nasopharyngeal carcinoma (NPC), aiming to provide ideas and evidence for immunotherapy in NPC.Methods:Fifty-nine NPC patients admitted to the Affiliated Tumor Hospital of Xinjiang Medical University from February 2018 to October 2020 for primary treatment were collected. Peripheral blood monocytes (PBMCs) were stimulated by LMP antigen. Intracellular cytokine staining and flow cytometry were applied to study the expression levels of IL-2, IL-13, interferon-γ (IFN-γ) and tumor necrosis factor-α (TNF-α) from CD4 + T and CD8 + T cells, and then analyzed in conjunction with clinical factors. Results:The positive rates of total PBMCs to LMP1 and LMP2 in NPC patients were different. The positive rate of LMP1 specific CD4 + T cells was statistically higher in stage T 3-T 4 NPC than that in stage T 1-T 2 (51.0% vs. 10.0%, P=0.042). There were also differences in the expression of cytokines between LMP1 and LMP2, CD4 +T cells and CD8 +T cells. Survival analysis showed the 2-year and 3-year overall survival (OS) rates were 91.5% and 88.2%, and the 2-year and 3-year progression-free survival (PFS) rates were 83.3% and 75.3%. Univariate analysis suggested that smoking history, male and LMP1 stimulated IL-13 positive expression in CD4 + T cells affected the disease progression ( P=0.026, 0.045 and 0.006); multivariate analysis showed LMP1 stimulated IL-13 positive expression in CD4 + T cells and smoking history were the independent prognostic factors affecting PFS ( P=0.017, 0.019). Conclusions:LMP1 and LMP2 generate specific T-cell immune response in PBMCs of NPC patients, with differential expression in two T-cell subsets. LMP1 and LMP2 specific T cell immune response is associated with primary tumor size and metastatic lymph node volume. LMP1 stimulated IL-13 positive expression in CD4 + T cells and smoking history affects the disease progression.

Orange-derived extracellular vesicles nanodrugs for efficient treatment of ovarian cancer assisted by transcytosis effect

Extracellular vesicles (EVs) have recently received much attention about the application of drug carriers due to their desirable properties such as nano-size, biocompatibility, and high stability. Herein, we demonstrate orange-derived extracellular vesicles (OEV) nanodrugs (DN@OEV) by modifying cRGD-targeted doxorubicin (DOX) nanoparticles (DN) onto the surface of OEV, enabling significantly enhancing tumor accumulation and penetration, thereby efficiently inhibiting the growth of ovarian cancer. The obtained DN@OEV enabled to inducement of greater transcytosis capability in ovarian cancer cells, which presented the average above 10-fold transcytosis effect compared with individual DN. It was found that DN@OEV could trigger receptor-mediated endocytosis to promote early endosome/recycling endosomes pathway for exocytosis and simultaneously reduce degradation in the early endosomes-late endosomes-lysosome pathway, thereby inducing the enhanced transcytosis. In particular, the zombie mouse model bearing orthotopic ovarian cancer further validated DN@OEV presented high accumulation and penetration in tumor tissue by the transcytosis process. Our study indicated the strategy in enhancing transcytosis has significant implications for improving the therapeutic efficacy of the drug delivery system.

Disease-specific protein corona formed in pathological intestine enhances the oral absorption of nanoparticles

Protein corona (PC) has been identified to impede the transportation of intravenously injected nanoparticles (NPs) from blood circulation to their targeted sites. However, how intestinal PC (IPC) affects the delivery of orally administered NPs are still needed to be elucidated. Here, we found that IPC exerted "positive effect" or "negative effect" depending on different pathological conditions in the gastrointestinal tract. We prepared polystyrene nanoparticles (PS) adsorbed with different IPC derived from the intestinal tract of healthy, diabetic, and colitis rats (H-IPC@PS, D-IPC@PS, C-IPC@PS). Proteomics analysis revealed that, compared with healthy IPC, the two disease-specific IPC consisted of a higher proportion of proteins that were closely correlated with transepithelial transport across the intestine. Consequently, both D-IPC@PS and C-IPC@PS mainly exploited the recycling endosome and ER-Golgi mediated secretory routes for intracellular trafficking, which increased the transcytosis from the epithelium. Together, disease-specific IPC endowed NPs with higher intestinal absorption. D-IPC@PS posed "positive effect" on intestinal absorption into blood circulation for diabetic therapy. Conversely, C-IPC@PS had "negative effect" on colitis treatment because of unfavorable absorption in the intestine before arriving colon. These results imply that different or even opposite strategies to modulate the disease-specific IPC need to be adopted for oral nanomedicine in the treatment of variable diseases.

Effects of Munc13-1 and Munc18-1 on dopamine secretion dysfunction in manganese-exposed SH-SY5Y cells / 环境与职业医学

Background Neurotransmitter secretion disorder induced by chronic manganese poisoning has always been one of the important causes of body injury, but the mechanism of neurotransmitter secretion disorder caused by manganese is not clear at present. Objective To investigate the effects of presynaptic membrane intracellular protein 13-1 (Munc13-1) and synapse fusion protein binding protein 18-1 (Munc18-1) on dopamine secretion dysfunction induced by manganese chloride (MnCl2) in human neuroblastoma (SH-SY5Y) cells. Methods A SH-SY5Y cell model induced by MnCl2 was established. Cell viability was measured by MTT assay. Four experimental groups were set up: control group and low-, medium-, and high-dose manganese groups (0, 100, 200, and 400 μmol·L−1 MnCl2). They were treated with corresponding doses of MnCl2 for 24 h. The secretion of dopamine was measured by enzyme-linked immunosorbent assay. The mRNA expression of Syntaxin-1 was detected by real-time quantitaive PCR. Total cell proteins were extracted, and the protein expression levels of Munc13-1, Munc18-1, and Syntaxin-1 were detected by Western blotting. The correlations of MnCl2 exposure and dopamine secretion with the protein expressions of Munc13-1 and Munc18-1 were also analyzed by Pearson correlation. Results Compared with the control group, the cell viability rate decreased gradually with the increase of manganese exposure concentration, and the difference between the medium- and the high-dose manganese groups was statistically significant (P<0.05). The concentration of dopamine in cell culture medium of all manganese exposure groups decreased with the increase of manganese concentration, and compared with the control group and the low-dose manganese group, the medium- and the high-dose manganese groups were statistically significant (P<0.05). The expression of Syntaxin-1 at mRNA or protein level did not change significantly among groups (P>0.05). Compared with the control group, the protein expression of Munc13-1 decreased and that of Munc18-1 increased with the increase of manganese concentration (P<0.05). Compared with the low-dose manganese group, the changes of Munc13-1 protein in the high-dose manganese group and Munc18-1 protein in the medium- and high-dose manganese groups had statistical significance (P<0.05). Compared with the medium-dose manganese group, the protein changes of Munc18-1 in the high-dose manganese group were statistically significant (P<0.05). The correlation analysis showed that MnCl2 dose was negatively correlated with Munc13-1 protein expression (r=−0.898, P<0.05), and positively correlated with Munc18-1 protein expression (r=0.678, P<0.05). Dopamine secretion was positively correlated with Munc13-1 protein expression (r=0.932, P<0.05), and negatively correlated with Munc18-1 protein expression (r=−0.817, P<0.05). Conclusion The inhibition of dopamine secretion in SH-SY5Y cells induced by manganese exposure is related to up-regulation of Munc18-1 and down-regulation of Munc13-1 expression levels, which may be one of the reasons for nerve injury caused by manganese.

Development of a flow cytometry method for detection of bovine multi-cytokines / 生物工程学报

This study aims to develop a method to detect bovine multi-cytokines based on flow cytometry. Previously we have prepared and screened monoclonal antibodies against bovine cytokines IFN-γ, IL-2, TNF-α, IP-10 and MCP-1. These bovine cytokine monoclonal antibodies were fluorescently labeled, and the combination of antibody and cell surface molecules were used to develop the method for detecting bovine multi-cytokines. Subsequently, the developed method was used to determine the cytokine expression profile of Mycobacterium bovis BCG infected bovine peripheral blood mononuclear cells in vitro, and evaluate the cytokine expression level of peripheral blood CD4+ T cells of tuberculosis-positive cattle. The bovine multi-cytokine flow cytometry detection method can effectively determine the cytokine expression of BCG-infected bovine peripheral blood T lymphocytes. Among them, the expression levels of IFN-γ, IL-2, and TNF-α continue to increase after 40 hours of infection, while the expression levels of IP-10 and MCP-1 decreased. The combined detection of IFN-γ, IL-2, and TNF-α on CD4+ T lymphocytes in peripheral blood of cattle can effectively distinguish tuberculosis-positive and tuberculosis-negative samples. This method may facilitate evaluating the level of cellular immune response after bovine pathogen infection and vaccine injection.

Direct Evidence for Intracellular Homeostasis in Mammalian Cells: Insulin-independent Glucose Metabolisms

In our previous study, carbonates, NaHCO3 and Na2CO3, influence glucose metabolism in vitro, using Py-3Y1-S2 rat fibroblast cells, and these compounds accelerate significantly glucose consumption. In the present study, the effects of the carbonates on glucose metabolism were examined to determine whether these effects are universal among different cell lines, VERO green monkey kidney cells, TE-13 human esophageal cancer cells, and HepG2 human cells. Glucose was completely converted to lactate, which disappeared gradually from the culture medium. However, the disappearance of lactate from the medium was independent of carbonates. The present study clarified that NaHCO3 and Na2CO3 directly regulate glucose metabolism among different cell lines via an insulin-independent pathway, that is, intracellular homeostasis.

Mechanistic study of endothelium independent vasodilation effects of wogonin

Scutellaria baicalensis Georgi, locally known as HuangQin, and commonly as Baikal or Chinese skullcap, is an important herb in Chinese traditional medicine. The flavonoids from this plant are main active substances responsible for its medicinal applications. Wogonin is one such active ingredient derived from this plant. Here, we investigated the mechanism of the vasodilation effect of wogonin on isolated rat thoracic aortas. For this study, endothelium intact and endothelium removed thoracic aortic rings were prepared from rats. Using a tension transducer, the tension of the rat thoracic aortic rings was recorded. Results showed that wogonin is able to relax the endothelium-intact aortic rings, but L-NAME, indomethacin (Indo), and methylene blue (MB) could not reduce the tension in these rings. Wogonin was also able to relax endotheliumremoved rings. However, treatment with tetraethylammonium (TEA), BaCl2, glibenclamide (Gly), 4-aminopyridine (4-AP), and verapamil (Ver) had no effect on vasodilation induced by wogonin. Using wogonin to pre-treat endothelium-removed aortic rings reduced the contraction induced by K+. Pre-treatment of endothelium-removed aortic rings with wogonin markedly reduced the contraction induced by 10-6 M PE in Ca2+-free solution. It could be concluded that L-type calcium channels and intracellular Ca2+ release is inhibited by wogonin.

Research Progress in Antibodies Related to Autoimmune Encephalitis in Neuropsychiatric Systemic Lupus Erythematosus / 罕见病研究

Several anti-neural antibodies are associated with neuropsychiatric systemic lupus erythematosus (NPSLE) including anti-neuronal antibodies and anti-glial cell antibodies. The anti-neuronal antibodies has two types: anti-neuronal surface protein antibodies represented by anti-N-methyl-D-aspartate receptor (NMDAR) antibodies, and anti-neuronal intracellular protein antibodies. In this paper, we review and classify the anti-neural antibodies related to NPSLE.

Activation-induced markers for evaluation of specific CD4 + T cell immune response in HIV-1-infected patients / 中华微生物学和免疫学杂志

Objective:To establish a method using activation-induced markers (AIM) to detect the function of HIV-1-specific CD4 + T cell subsets for evaluating the immune response of HIV-1-specific CD4 + T cells more effectively. Methods:Twelve chronically HIV-1-infected patients without antiviral therapy and six healthy people without HIV-1 infection were enrolled in this study. The function of HIV-1-specific T lymphocytes was detected by AIM and ICS based on polychromatic flow cytometry. The performance of the two methods in assessing HIV-1-specific CD4 + T cell immune response in HIV-1-infected patients was evaluated. Results:The positive rates of HIV-1-specific PD-1 + CD25 + CD4 + T, CD69 + CD200 + CD4 + T, CD69 + ICOS + CD4 + T, CD69 + ICOS + CD8 + T、CD137 + CD69 + CD8 + T、PD-1 + CD25 + CD8 + T and OX40 + PD-1 + CD8 + T cells in all of the HIV-1 patients were 11/12, 8/12, 7/12, 8/12, 8/12, 7/12 and 7/12 using AIM method. ICS results showed that the positive rates of HIV-1-specific IL-2 + CD4 + T, IFN-γ + CD4 + T, TNF-α + CD4 + T, IFN-γ + CD8 + T, TNF-α + CD8 + T and IL-2 + CD8 + T cells were 2/12, 2/12, 0, 12/12, 10/12 and 5/12, respectively. Conclusions:AIM method was more sensitive in antigen-specific CD4 + T cell detection, and could be used as a complementary method to ICS in assessing antigen-specific T cell response.

Anti-aging Mechanism of Chinese Medicinal Polysaccharides： A Review / 中国实验方剂学杂志

In the greying society， pension burden and high incidence of geriatric diseases have hindered social and economic development to a certain extent. Aging is a biological process involving multiple organs and factors， which leads to the occurrence of a variety of diseases. The occurrence of aging is related to a variety of signal pathways， such as nutrient sensing signal pathway and intracellular stress signal pathway， which attracts the interest of scholars in anti-aging drugs and poses a challenge to the development of such drugs. The anti-tumor， hypoglycemic， hypolipidemic， antioxidant， and antiviral activities of Chinese medicinal polysaccharides have been gradually confirmed， and they also have significant advantages in anti-aging. Thus， they are potential candidates for the development of anti-aging drugs. It has been verified that Chinese medicinal polysaccharides exert the anti-aging effect through a variety of mechanisms. To be specific， through dietary restriction， they promote the expression of longevity genes silencing information regulator 1 （Sirt1） and forkhead box O （FoxO） transcription factor， enhance the sensitivity to insulin， activate Sirt1 deacetylase or inhibit insulin/IGF-1 signaling （IIS） and mammalian target of rapamycin （mTOR） signal pathway， thereby exerting the anti-aging effect. In addition， they can inhibit the production of reactive oxygen species （ROS） and the release of pro-inflammatory mediators， enhance anti-inflammatory and antioxidant capacity， and regulate the immunity to inhibit inflammation and aging. Moreover， they can also inhibit apoptosis and delay aging through p53-mediated pathway. Despite the extensive research on anti-aging effect of Chinese medicinal polysaccharides， and the diverse effects and ideal efficacy of the polysaccharides， the anti-aging mechanism has not been systematically reviewed. Therefore， this paper summarizes the relevant literature in PubMed and CNKI and systematically expounds the aging-related signal pathways regulated by Chinese medicinal polysaccharides， which is expected to provide a reference for researchers and clinical workers.

The upregulated intestinal folate transporters direct the uptake of ligand-modified nanoparticles for enhanced oral insulin delivery

Transporters are traditionally considered to transport small molecules rather than large-sized nanoparticles due to their small pores. In this study, we demonstrate that the upregulated intestinal transporter (PCFT), which reaches a maximum of 12.3-fold expression in the intestinal epithelial cells of diabetic rats, mediates the uptake of the folic acid-grafted nanoparticles (FNP). Specifically, the upregulated PCFT could exert its function to mediate the endocytosis of FNP and efficiently stimulate the traverse of FNP across enterocytes by the lysosome-evading pathway, Golgi-targeting pathway and basolateral exocytosis, featuring a high oral insulin bioavailability of 14.4% in the diabetic rats. Conversely, in cells with relatively low PCFT expression, the positive surface charge contributes to the cellular uptake of FNP, and FNP are mainly degraded in the lysosomes. Overall, we emphasize that the upregulated intestinal transporters could direct the uptake of ligand-modified nanoparticles by mediating the endocytosis and intracellular trafficking of ligand-modified nanoparticles via the transporter-mediated pathway. This study may also theoretically provide insightful guidelines for the rational design of transporter-targeted nanoparticles to achieve efficient drug delivery in diverse diseases.

PathogenTrack and Yeskit: tools for identifying intracellular pathogens from single-cell RNA-sequencing datasets as illustrated by application to COVID-19 / 医学前沿

Pathogenic microbes can induce cellular dysfunction, immune response, and cause infectious disease and other diseases including cancers. However, the cellular distributions of pathogens and their impact on host cells remain rarely explored due to the limited methods. Taking advantage of single-cell RNA-sequencing (scRNA-seq) analysis, we can assess the transcriptomic features at the single-cell level. Still, the tools used to interpret pathogens (such as viruses, bacteria, and fungi) at the single-cell level remain to be explored. Here, we introduced PathogenTrack, a python-based computational pipeline that uses unmapped scRNA-seq data to identify intracellular pathogens at the single-cell level. In addition, we established an R package named Yeskit to import, integrate, analyze, and interpret pathogen abundance and transcriptomic features in host cells. Robustness of these tools has been tested on various real and simulated scRNA-seq datasets. PathogenTrack is competitive to the state-of-the-art tools such as Viral-Track, and the first tools for identifying bacteria at the single-cell level. Using the raw data of bronchoalveolar lavage fluid samples (BALF) from COVID-19 patients in the SRA database, we found the SARS-CoV-2 virus exists in multiple cell types including epithelial cells and macrophages. SARS-CoV-2-positive neutrophils showed increased expression of genes related to type I interferon pathway and antigen presenting module. Additionally, we observed the Haemophilus parahaemolyticus in some macrophage and epithelial cells, indicating a co-infection of the bacterium in some severe cases of COVID-19. The PathogenTrack pipeline and the Yeskit package are publicly available at GitHub.

Ligustrazine suppresses platelet aggregation through inhibiting the activities of calcium sensors

Abstract Ligustrazine is widely used for the treatment of cardiovascular diseases in traditional Chinese medication. It has been reported that Ligustrazine decreases the concentration of intracellular calcium ions (Ca2+); however, the underlying mechanism remains unknown. In the present study, the effect of Ligustrazine on adenosine diphosphate (ADP)-induced platelet aggregation was evaluated using a turbidimetric approach. The changes in concentration of intracellular Ca2+ stimulated by ADP was measured using fluo-4, a fluorescent Ca2+ indicator dye. The mRNA expression of stromal interaction molecule l (STIM1) and Orai1, calcium sensor, was determined using real-time PCR. In addition, the protein expression of STIM1, Orai1, and serum/glucocorticoid-regulated protein kinase 1 (SGK1) was determined using Western blot analysis. The data demonstrated that Ligustrazine significantly suppressed platelet aggregation in a dose-dependent manner and reduced the concentration of intracellular Ca2+ triggered by ADP. Our data showed that Ligustrazine treatment inhibited the expression of STIM1 and Orai1 induced by ADP at both mRNA and protein levels, and suppressed the protein expression of SGK1. Taken together, our data indicated that Ligustrazine suppressed platelet aggregation by partly inhibiting the activities of calcium sensors, thereby suggesting that Ligustrazine may be a promising candidate for the treatment of platelet aggregation.

Oocyte quality assessment in marine invertebrates: a novel approach by fluorescence spectroscopy

BACKGROUND: The assessment of oocyte quality is, nowadays, a major challenge in aquaculture, oocyte cryopreservation, and environmental science. Oocyte quality is a determining factor in fertilization and embryo development; however, there is still a lack of rapid and sensitive cellular markers for its assessment. Currently, its estimation is pre-dominantly based on morphological analysis, which is subjective and does not consistently reflect the developmental competence of the oocytes. Despite several recent studies investigating molecular markers related to oocyte quality, methods currently available for their determination pose various technical challenges and limitations. In this study, we developed a novel approach based on fluorescence spectroscopy to assess different intrinsic physiological parameters that can be employed to evaluate egg quality in marine invertebrates that are widely used as animal models such as sea urchins and mussels. RESULTS: Different physiological parameters, such as viability, mitochondrial activity, intracellular ROS levels, plasma membrane lipid peroxidation, and intracellular pH, for egg quality evaluation have been successfully assessed in sea urchins and mussels by using specific fluorescent dyes and detecting the fluorescent signals in eggs through fluorescence spectroscopy. CONCLUSIONS: Based on our findings, we propose these physiological markers as useful predictors of egg quality in marine invertebrates; they can be estimated rapidly, selectively, and sensitively by employing this novel approach, which, due to the speed of analysis, the low cost, and easy use can be considered a powerful analytical tool for the egg quality assessment.

Methods of macrophages activation and their modulation for the prospection of new antileishmania drugs: a review

Leishmaniasis are a group of parasitic zoonoses provoked by protozoa from Leishmania genus and belonging to the group of neglected tropical diseases. The search and development for new drugs is necessary not only to investigate the activity against only the parasite, but also to investigate the possible synergistic effect of new drugs with the immune response of the host. In the present review, macrophages are pointed out as potential targets of the investigation of new antileishmanial drugs, and some methodologies in order to assess their activation as response to Leishmania-infected cells are presented. Macrophages are an important role in the cellular immune response, since they are cells from mononuclear phagocytic system, the first line of defense of the host, against parasites from Leishmania genus. Phagocytic capacity, lysosomal activity, increase of nitric oxide and intracellular calcium levels are parameters regarding assessment of macrophages activation which allow them to be more hostile in order to solve the infection and lead the patient to cure. In this context, we bring 19 substances already investigated and that activate macrophages, what makes them promising in the antileishmanial treatment. Therefore, assessment of macrophages activation, are important tools for discovery of immunomodulatory compounds which have potential to act in synergism with host immune response. Such compounds might be promising as monotherapy in the treatment of leishmaniasis, as well as being used as adjuvants in vaccines and/or in combination with conventional drugs.

Research progress of nicotinic receptor intracellular interaction proteins / 国际生物医学工程杂志

Nicotinic acetylcholine receptors(nAChRs) is one of the main receptor of acetylcholine in the body. It is an excitatory transmembrane cation channel. It is confirmed that nAChRs has important physiological functions in both the nervous system and non-nervous system, and is related to many diseases.nAChRs has also been confirmed to be related to many diseases, so its structure And functional research is very necessary. Therefore, it is necessary to study the structure and function of nAChRs. It is known that the intracellular loop of the nicotinic receptor protein plays a major role in regulating its intracellular metabolism and downstream signal transduction. However, the structure and function of this protein sequence are still unclear. In this paper, the current research status of nicotinic receptor intracellular interaction proteins were reviewed, aiming to further explore the structural and functional characteristics of nicotinic receptor intracellular loops through the information of their interaction proteins and interaction sites, and to provide ideas for clinical targeted therapy.

Intracellular aggregation of peptide-reprogrammed small molecule nanoassemblies enhances cancer chemotherapy and combinatorial immunotherapy

The intracellular retention of nanotherapeutics is essential for their therapeutic activity. The immobilization of nanotherapeutics inside target cell types can regulate various cell behaviors. However, strategies for the intracellular immobilization of nanoparticles are limited. Herein, a cisplatin prodrug was synthesized and utilized as a glutathione (GSH)-activated linker to induce aggregation of the cisplatin prodrug/IR820/docetaxel nanoassembly. The nanoassembly has been reprogrammed with peptide-containing moieties for tumor-targeting and PD-1/PD-L1 blockade. The aggregation of the nanoassemblies is dependent on GSH concentration. Evaluations

Intracellular uptake of nanocrystals: Probing with aggregation-induced emission of fluorescence and kinetic modeling

Nanocrystal formulations have been explored to deliver poorly water-soluble drug molecules. Despite various studies of nanocrystal formulation and delivery, much more understanding needs to be gained into absorption mechanisms and kinetics of drug nanocrystals at various levels, ranging from cells to tissues and to the whole body. In this study, nanocrystals of tetrakis (4-hydroxyphenyl) ethylene (THPE) with an aggregation-induced emission (AIE) property was used as a model to explore intracellular absorption mechanism and dissolution kinetics of nanocrystals. Cellular uptake studies were conducted with KB cells and characterized by confocal microscopy, flow cytometry, and quantitative analyses. The results suggested that THPE nanocrystals could be taken up by KB cells directly, as well as in the form of dissolved molecules. The cellular uptake was found to be concentration- and time-dependent. In addition, the intracellular THPE also could be exocytosed from cells in forms of dissolved molecules and nanocrystals. Kinetic modeling was conducted to further understand the cellular mechanism of THPE nanocrystals based on first-order ordinary differential equations (ODEs). By fitting the kinetic model against experimental measurements, it was found that the initial nanocrystal concentration had a great influence on the dynamic process of dissolution, cellular uptake, and exocytosis of THPE nanocrystals. As the nanocrystal concentration increased in the culture media, dissolution of endocytosed nanocrystals became enhanced, subsequently driving the efflux of THPE molecules from cells.

Effect of physicochemical properties on

Current advances of immunotherapy have greatly changed the way of cancer treatment. At the same time, a great number of nanoparticle-based cancer immunotherapies (NBCIs) have also been explored to elicit potent immune responses against tumors. However, few NBCIs are nearly in the clinical trial which is mainly ascribed to a lack understanding of

Opposite Modulatory Effects of Crataegus aronia Aqueous Extract on Platelet Aggregation in Rats / 中国结合医学杂志

OBJECTIVES@#To reveal the mechanisms behind the dual effects of Crataegus aronia (C. aronia) aqueous extract on platelet aggregation by focusing on function, regulation, expression, and signaling of platelets P@*METHODS@#Adult male Wistar rats (120 ± 10 g) were classified as control received the vehicle, C. aronia (200 mg/kg), and C. aronia (2,000 mg/kg)-treated rats. After treatments for consecutive 7 days, hematological and molecular experiments were conducted to detect alterations in platelet aggregation, thromboxane B2 (THXB2) and intracellular reactive oxygen species (ROS) content; protein levels of P@*RESULTS@#At a concentration of 200 mg/kg, C. aronia inhibited platelet aggregation through multiple interconnected mechanisms including downregulation P@*CONCLUSION@#Oral administration of C. aronia at low dose inhibits platelet aggregation by reducing THXB2 release, expression of P-selectin and activating cAMP and Akt signaling through two major mechanisms including downregulation of P