The apelin receptor (APJ) is a member of the family A of G-protein-coupled receptors (GPCRs) and is involved in range of physiological and pathological functions, including fluid homeostasis, anxiety, and depression, as well as cardiovascular and metabolic disorders. APJ was classically described as a monomeric transmembrane receptor that forms a ternary complex together with its ligand and associated G proteins. More recently, increasing evidence indicates that APJ may interact with other GPCRs to form heterodimers, which may selectively modulate distinct intracellular signal transduction pathways. Besides, the apelin/APJ system plays important roles in the physiology and pathophysiology of several organs, including regulation of blood pressure, cardiac contractility, angiogenesis, metabolic balance, and cell proliferation, apoptosis, or inflammation. Additionally, the apelin/APJ system is widely expressed in the central nervous system, especially in neurons and oligodendrocytes. This article reviews the role of apelin/APJ in energy metabolism and water homeostasis. Compared with the traditional diuretics, apelin exerts a positive inotropic effect on the heart, while increases water excretion. Therefore, drugs targeting apelin/APJ system undoubtedly provide more therapeutic options for patients with congestive heart failure accompanied with hyponatremia. To provide more precise guidance for the development of clinical drugs, further in-depth studies are warranted on the metabolism and signaling pathways associated with apelin/APJ system.
This experiment was aimed to investigate the effect of Dengzhan Shengmai capsule combined with butylphthalide soft capsule on oxidative stress indexes and serum homocysteine (Hcy) and C-reactive protein (CRP) levels in patients with vascular dementia (VD). From July 2017 to July 2019, 123 patients with VD in our hospital were selected as the research object, and each patient was assigned a random number according to the order of treatment. Among them, No. 1 to 41 were the control group A, No. 42 to 82 were the control group B, and No. 83 to 123 were the research group. Control group A was given butylphthalide soft capsules, control group B was Dengzhanshengmai capsules, and the research group was given Dengzhanshengmai capsules combined with butylphthalide softgels.Comparison of clinical efficacy, the incidence of adverse reactions, and improvement of symptoms [Montreal Cognitive Assessment Scale (MocA) score, Vascular Dementia TCM Syndrome Differentiation Scale (SDSVD) score], vascular endothelial function [NO, endothelin 1 (ET-1)], oxidative stress [lipid peroxide (LPO), superoxide dismutase (SOD), C Dialdehyde (MDA)], endoplasmic reticulum stress response (Hcy, CRP) related indicators before and after treatment in three groups. Results showed that the total effective rate of treatment in the study group was higher than that in the control groups A and B, the difference was statistically significant (p<0.05). In symptom improvement, the MoCA score of the study group was higher than that of the control groups A and B after the treatment course, and the SDSVD score was lower than that of the control groups A and B (p<0.05); In the vascular endothelial function section, after the course of treatment, the serum NO level in the study group was higher than that in the control groups A and B, and the ET-1 level was lower than that in the control groups A and B (p<0.05).In oxidative stress experiment, after the course of treatment in the study group, the serum LPO and MDA levels were lower than those in the control groups A and B, and the SOD levels were higher than those in the control groups A and B (p<0.05). Endoplasmic reticulum stress response results showed that after the course of treatment in the study group, the serum Hcy and CRP levels were lower than those in the control groups A and B (p<0.05). In adverse reactions section, there was no significant difference in the incidence of adverse reactions among the three groups (p>0.05). Dengzhan Shengmai Capsule combined with butylphthalide soft capsule is the first treatment for VD, with definite curative effect, which can effectively reduce the damage of vascular endothelial function and inhibit oxidative stress response, antagonize the endoplasmic reticulum stress response, thereby further alleviating dementia symptoms and improving cognitive function.
Objectives: A frequent emergence of drug resistance has been observed and posed great threat to global public health recently. This work aimed to investigate the potential synergistic effect and the underlying mechanisms of AgNPs-uconazole combination more extensively through 2 clinically isolated uconazole-resistant Candida albicans (C. albicans) strains.Methods: Antifungal properties of AgNPs and uconazole alone or together against planktonic cells and bio lms were tested. Cellular and molecular targets associated with uconazole resistance were monitored after AgNPs treatment. Antifungal potential of AgNPs-uconazole combination was also explored in vivo using a mouse model of disseminated candidiasis. Tissue burden and survival rate were analyzed.Results: The results indicated that AgNPs worked synergistically with uconazole against both planktonic cells of uconazole-resistant C. albicans and bio lms formed < 12 hours. AgNPs treatment downregulated ERG1, ERG11, ERG25, and CDR2, decreased membrane ergosterol levels and membrane uidity, reduced membrane content of Cdr1p, Cdr2p, and thus e ux bump activity. The elevated ROS production was also a likely cause of the synergistic effect. In vivo, AgNPs and uconazole combination signi cantly decreased the fungal burden and improved the survival rate of infected mice. Conclusion:In conclusion, these results further con rm that AgNPs-uconazole combination is a hopeful strategy for the treatment of uconazole-resistant fungal infections.
Objectives: A frequent emergence of drug resistance has been observed and posed great threat to global public health recently. This work aimed to investigate the potential synergistic effect and the underlying mechanisms of AgNPs-fluconazole combination more extensively through 2 clinically isolated fluconazole-resistant Candida albicans (C. albicans) strains.Methods: Antifungal properties of AgNPs and fluconazole alone or together against planktonic cells and biofilms were tested. Cellular and molecular targets associated with fluconazole resistance were monitored after AgNPs treatment. Antifungal potential of AgNPs-fluconazole combination was also explored in vivo using a mouse model of disseminated candidiasis. Tissue burden and survival rate were analyzed. Results: The results indicated that AgNPs worked synergistically with fluconazole against both planktonic cells of fluconazole-resistant C. albicans and biofilms formed < 12 hours. AgNPs treatment down-regulated ERG1, ERG11, ERG25, and CDR2, decreased membrane ergosterol levels and membrane fluidity, reduced membrane content of Cdr1p, Cdr2p, and thus efflux bump activity. The elevated ROS production was also a likely cause of the synergistic effect. In vivo, AgNPs and fluconazole combination significantly decreased the fungal burden and improved the survival rate of infected mice. Conclusion: In conclusion, these results further confirm that AgNPs-fluconazole combination is a hopeful strategy for the treatment of fluconazole-resistant fungal infections.
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