Biosensors; a novel concept in real-time detection of autophagy.

Autophagy is an early-stage response with self-degradation properties against several insulting conditions. To date, the critical role of autophagy has been well-documented in physiological and pathological conditions. This process involves various signaling and functional biomolecules, which are involved in different steps of the autophagic response. During recent decades, a range of biochemical analyses, chemical assays, and varied imaging techniques have been used for monitoring this pathway. Due to the complexity and dynamic aspects of autophagy, the application of the conventional methodology for following autophagic progression is frequently associated with a mistake in discrimination between a complete and incomplete autophagic response. Biosensors provide a de novo platform for precise and accurate analysis of target molecules in different biological settings. It has been suggested that these devices are applicable for real-time monitoring and highly sensitive detection of autophagy effectors. In this review article, we focus on cutting-edge biosensing technologies associated with autophagy detection.

Role of autophagy in angiogenic potential of vascular pericytes.

The vasculature system is composed of a multiplicity of juxtaposed cells to generate a functional biological barrier between the blood and tissues. On the luminal surface of blood vessels, endothelial cells (ECs) are in close contact with circulating cells while supporting basal lamina and pericytes wrap the abluminal surface. Thus, the reciprocal interaction of pericytes with ECs is a vital element in the physiological activity of the vascular system. Several reports have indicated that the occurrence of pericyte dysfunction under ischemic and degenerative conditions results in varied micro and macro-vascular complications. Emerging evidence points to the fact that autophagy, a conserved self-digestive cell machinery, can regulate the activity of several cells like pericytes in response to various stresses and pathological conditions. Here, we aim to highlight the role of autophagic response in pericyte activity and angiogenesis potential following different pathological conditions.

Exosomes as Theranostic Agents in Reproduction System.

Exosomes (Exos), belonging to extracellular vesicles, are cell-derived nano-sized vesicles with the potential to carry different kinds of biological molecules. Many studies have proved the impacts of exosomal cargo on several biological processes in female and male reproductive systems. It is also hypothesized that changes in exosomal cargo are integral to the promotion of certain pathological conditions, thus Exos can be used as valid biomarkers for the diagnosis of infertility and other abnormal conditions. Here, efforts are made to collect some recent data related to the physiological significance of Exos in the reproductive system, and their potential therapeutic effects. It is anticipated that the current review article will lay the groundwork for elucidating the source and mechanisms by which Exos control the reproductive system additionally supplying fresh methods and concepts for the detection and treatment of disorders associated with fertility for future studies.

Type 2 diabetes mellitus induced autophagic response within pulmonary tissue in the rat model.

Introduction: The current experiment aimed to address the impact of type 2 diabetes mellitus on autophagy status in the rat pulmonary tissue. Methods: In this study, 20 male Wistar rats were randomly allocated into two groups as follows: control and diabetic groups. To induce type 2 diabetes mellitus, rats received a combination of streptozotocin (STZ) and a high-fat diet. After confirmation of diabetic condition, rats were maintained for 8 weeks and euthanized for further analyses. The pathological changes were assessed using H&E staining. We also measured transforming growth factor-ß (TGF-ß), bronchoalveolar lavage fluid (BALF), and tumor necrosis factor-α (TNF-α) in the lungs using ELISA and real-time PCR analyses, respectively. Malondialdehyde (MDA) and superoxide dismutase (SOD) levels were monitored in diabetic lungs to assess oxidative status. We also measured the expression of becline-1, LC3, and P62 to show autophagic response under diabetic conditions. Using immunofluorescence staining, protein levels of LC3 was also monitored. Results: H&E staining showed pathological changes in diabetic rats coincided with the increase of TNF-α (~1.4-fold) and TGF-ß (~1.3-fold) compared to those in the normal rats (P<0.05). The levels of MDA (5.6 ± 0.4 versus 6.4 ± 0.27 nM/mg protein) were increased while SOD (4.2 ± 0.28 versus 3.8 ± 0.13 U/mL) activity decreased in the diabetic rats (P<0.05). Real-time polymerase chain reaction (PCR) analysis showed the up-regulation of Becline-1 (~1.35-fold) and LC3 (~2-fold) and down-regulation of P62 (~0.8-fold) (P<0.05), showing incomplete autophagic flux. We noted the increase of LC3+ cells in diabetic condition compared to that in the control samples. Conclusion: The prolonged diabetic condition could inhibit the normal activity of autophagy flux, thereby increasing pathological outcomes.

The Progress and Research Trends of Statin Medications: Advanced Epidemiological and Bibliometrical Assessment.

Statin medications are considered as important lipid lowering agents to prevent subsequent cardiovascular events. However, there was limited evidence regarding the bibliometric analysis on preclinical and clinical studies. In January, 2021, the data was retrieved from Scopus and Dimensions database. For detail analysis, we focused on Scopus. Thirty-three thousand two hundred forty-seven research documents were found in the database which contained the word "Statin" either in titles, abstracts and/or keywords of the research documents. They mostly comprised of research articles (n = 22586/67.93%), reviews (n = 6366/19.15%). Scopus classified these documents in various subject categorized like medicine, biochemistry, genetics and molecular biology, pharmacology, toxicology and pharmaceutics, nursing, neuroscience, biological sciences, immunology, and microbiology to name a few. The highest documents are published in 2016 (n = 540/7.16%), followed by 2015 (n = 534/7.08%), 2017 (n = 527/6.99%), 2014 (n = 514/6.81%), and 2020 (n = 504/6.68%). The top sources as well as total number of authors, institutes, and countries involved in publications are described. For detail analysis, we designed the publication and citation clubs. Based on Vosviewer analysis we also provided details about co-authorship network for authors, institutes, and countries. In order to understanding the research focus of the publications, we performed the co-words analysis. The present study may provide details and research trends about statin publications.

Putative Therapeutic Impact of Inflammasome Inhibitors against COVID-19-Induced ARDS.

Given the importance of COVID-19-induced ARDS, recently, researchers have strived to determine underlying mechanisms involved in the inflammatory responses. In this regard, inflammasomes possess a distinct priority for cytokine storm occurrence and, subsequently, ARDS progression in ill patients with SARS-CoV-2 infection. In this minireview, the characteristics of known inflammasome inhibitors and designed research in this field were concretely deciphered.

Novel diagnostic potential of miR-1 in patients with acute heart failure.

BACKGROUND: A number of circulating micro-ribonucleic acids (miRNAs) have been introduced as convincing predictive determinants in a variety of cardiovascular diseases. This study aimed to evaluate some miRNAs' diagnostic and prognostic value in patients with acute heart failure (AHF). METHOD: Forty-four AHF patients were randomly selected from a tertiary heart center, and 44 healthy participants were included in the control group. Plasma levels of assessed miRNAs, including miR -1, -21, -23, and -423-5-p were measured in both groups. The patients were followed for one year, and several clinical outcomes, including in-hospital mortality, one-year mortality, and the number of readmissions, were recorded. RESULTS: An overall 88 plasma samples were evaluated. There was no significant difference in terms of demographic characteristics between the AHF and healthy groups. Our findings revealed that mean levels of miR-1, -21, -23, and -423-5-p in AHF patients were significantly higher than in the control group. Although all assessed miRNAs demonstrated high diagnostic potential, the highest sensitivity (77.2%) and specificity (97.7%) is related to miR-1 for the values above 1.22 (p = 0.001, AUC = 0.841; 95%CI, 0.751 to 946). Besides, the levels of miR-21 and -23 were significantly lower in patients with ischemia-induced HF. However, the follow-up data demonstrated no significant association between miRNAs and prognostic outcomes including in-hospital mortality, one-year mortality, and the number of readmissions. CONCLUSION: The result of our study demonstrated that miR-1, -21, -23, and -423-5-p can be taken into account as diagnostic aids for AHF. Nevertheless, there was no evidence supporting the efficacy of these miRNAs as prognostic factors in our study.

Pharmacotherapy consideration of thrombolytic medications in COVID-19-associated ARDS.

BACKGROUND: In late 2019, the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) which is responsible for coronavirus disease (COVID-19), was identified as the new pathogen to lead pneumonia in Wuhan, China, which has spread all over the world and developed into a pandemic. Despite the over 1 year of pandemic, due to the lack of an effective treatment plan, the morbidity and mortality of COVID-19 remains high. Efforts are underway to find the optimal management for this viral disease. MAIN BODY: SARS-CoV-2 could simultaneously affect multiple organs with variable degrees of severity, from mild to critical disease. Overproduction of pro-inflammatory mediators, exacerbated cellular and humoral immune responses, and coagulopathy such as Pulmonary Intravascular Coagulopathy (PIC) contributes to cell injuries. Considering the pathophysiology of the disease and multiple microthrombi developments in COVID-19, thrombolytic medications seem to play a role in the management of the disease. Beyond the anticoagulation, the exact role of thrombolytic medications in the management of patients with COVID-19-associated acute respiratory distress syndrome (ARDS) is not explicit. This review focuses on current progress in underlying mechanisms of COVID-19-associated pulmonary intravascular coagulopathy, the historical use of thrombolytic drugs in the management of ARDS, and pharmacotherapy considerations of thrombolytic therapy, their possible benefits, and pitfalls in COVID-19-associated ARDS. CONCLUSIONS: Inhaled or intravenous administration of thrombolytics appears to be a salvage therapy for severe ARDS associated with COVID-19 by prompt attenuation of lung injury. Considering the pathogenesis of COVID-19-related ARDS and mechanism of action of thrombolytic agents, thrombolytics appear attractive options in stable patients without contraindications.

Application of exosomes for the alleviation of COVID-19-related pathologies.

The pandemic of COVID-19 caused worldwide concern. Due to the lack of appropriate medications and the inefficiency of commercially available vaccines, lots of efforts are being made to develop de novo therapeutic modalities. Besides this, the possibility of several genetic mutations in the viral genome has led to the generation of resistant strains such as Omicron against neutralizing antibodies and vaccines, leading to worsening public health status. Exosomes (Exo), nanosized vesicles, possess several therapeutic properties that participate in intercellular communication. The discovery and application of Exo in regenerative medicine have paved the way for the alleviation of several pathologies. These nanosized particles act as natural bioshuttles and transfer several biomolecules and anti-inflammatory cytokines. To date, several approaches are available for the administration of Exo into the targeted site inside the body, although the establishment of standard administration routes remains unclear. As severe acute respiratory syndrome coronavirus 2 primarily affects the respiratory system, we here tried to highlight the transplantation of Exo in the alleviation of COVID-19 pathologies.

Putative therapeutic impacts of cardiac CTRP9 in ischaemia/reperfusion injury.

Recently, cytokines belonging to C1q/tumour necrosis factor-related proteins (CTRPs) superfamily have attracted increasing attention due to multiple metabolic functions and desirable anti-inflammatory effects. These various molecular effectors exhibit key roles upon the onset of cardiovascular diseases, making them novel adipo/cardiokines. This review article aimed to highlight recent findings correlated with therapeutic effects and additional mechanisms specific to the CTRP9, particularly in cardiac ischaemia/reperfusion injury (IRI). Besides, the network of the CTPR9 signalling pathway and its possible relationship with IRI were discussed. Together, the discovery of all involved underlying mechanisms could shed light to alleviate the pathological sequelae after the occurrence of IRI.

Cervical and preauricular lymphadenopathies as atypical manifestations in the setting of COVID-19: a case report.

Besides the common symptoms in COVID-19, it has been thought to be a more imperative measure to identify the extraordinary manifestations of the illness, which would be more helpful to improve clinical management. In the current report, a 39-year-old woman and a 44-year-old man showed reactive cervical and preauricular lymphadenopathies, respectively, upon a range of the common symptoms of the disease. Interestingly, none of them showed the symptoms of lower respiratory tract infection as well. Notably, a herpes-like skin lesion was also observed on the right lower eyelid in one of the positive patients.

Dichotomous effects of autophagy on infarct volume in experimental permanent/transient ischemic stroke model: a systematic review and meta-analysis.

According to the recent findings, autophagy modulation is being a potential therapeutic target in the management of ischemic stroke in a pre-clinical setting. However, the pros and cons of autophagic response strongly depend on the activation time of autophagy after injury. In this systematic review, we aimed to explore the impacts of pharmacological modulation of autophagy on infarct size in experimental ischemic stroke models. Based on our preliminary search, 3551 publications were identified. Of twenty-nine publications that met the inclusion criteria, twenty studies reported infarct volume reduction by percentage (%) with no evidence of any publication bias while nine studies reported by mm3, which had publication bias (39.25 units, standardized mean differences (SMD) = 41.92, 95% confidence interval (CI): 30.33 to 53.51). Based on a meta-analysis, the point estimate (pooled mean difference) for improvement of infarct volume during autophagy modulation according to the mm3 and percentage were 35.64 (mean differences (MD) = 35.64, 95% CI: 26.43 to 44.85, z-value = 7.58, p-value < 0.001) and 14.38 (MD = 14.38, 95% CI = 10.50 to 18.26, z-value = 7.26, p < 0.001) units, respectively. Despite the undeniable role of autophagy in ischemic stroke, the dichotomous effects of autophagy regarding infarct volume reduction should be taken into account. Based on our findings, the studies included in this meta-analysis mostly reported a negative relation between autophagy induction and stroke volume development due to over-activity of autophagy upon the severe ischemic stroke; therefore, further pre-clinical studies are also recommended to establish adjusted autophagy with considering a time-dependent effect as a promising therapeutic target.

A close-up view of dynamic biomarkers in the setting of COVID-19: Striking focus on cardiovascular system.

Based on the recent reports, cardiovascular events encompass a large portion of the mortality caused by the COVID-19 pandemic, which drawn cardiologists into the management of the admitted ill patients. Given that common laboratory values may provide key insights into the illness caused by the life-threatening SARS-CoV-2 virus, it would be more helpful for screening, clinical management and on-time therapeutic strategies. Commensurate with these issues, this review article aimed to discuss the dynamic changes of the common laboratory parameters during COVID-19 and their association with cardiovascular diseases. Besides, the values that changed in the early stage of the disease were considered and monitored during the recovery process. The time required for returning biomarkers to basal levels was also discussed. Finally, of particular interest, we tended to abridge the latest updates regarding the cardiovascular biomarkers as prognostic and diagnostic criteria to determine the severity of COVID-19.

Anti-VEGF agents: As appealing targets in the setting of COVID-19 treatment in critically ill patients.

Recently, the medications used for the severe form of the coronavirus disease-19 (COVID-19) therapy are of particular interest. In this sense, it has been supposed that anti-VEGF compounds would be good candidates in the face of "cytokine storm" and intussuscepted angiogenesis due to having an appreciable anti-inflammatory effect. Therefore, they can be subjected to therapeutic protocols to manage acute respiratory distress syndrome (ARDS). Since the compelling evidence emphasized that VEGFs contribute to the inflammatory process and play a mainstay role in disease pathogenesis, in this review, we aimed to highlight the VEGF's plausible participation in the cytokine storm exacerbation in COVID-19. Next, the recent clinical advances regarding the anti-VEGF medications, including humanized monoclonal antibody, immunosuppressant, a tyrosine kinase inhibitor, and a cytokine inhibitor, have been addressed in the setting of COVID-19 treatment in critically ill patients. Together, retrieving the increased level of VEGF subsets, as well as antagonizing VEGF related receptors, could be helpful for the treatment of COVID-19, especially in those suffering from ARDS.

Applications, challenges and prospects of mesenchymal stem cell exosomes in regenerative medicine.

Recent advances in the identification and application of different stem cell types have offered alternative therapeutic approaches for clinicians. The lack of successful engraftment, migration into the injured site, loss of functionality and viability, ethical issues, shortage of donated allogeneic stem cells and the possibility of transmission of infectious are the main challenges associated with direct cell transplantation. The discovery and research on exosomes have led to the rise of hopes for the alleviation of different pathologies in regenerative medicine. Exo are nano-sized extracellular vesicles (40-150 nm) and released by each type. These nanoparticles participate in cell-to-cell communication in a paracrine manner. It is thought that the application of Exo can circumvent several drawbacks related to whole-cell therapies. Because of their appropriate size and stability, Exo are touted as therapeutic bullets transferring signaling factors into the acceptor cells in a paracrine manner. Despite these advantages, technologies associated with Exo isolation and purification are challenging because of heterogeneity in exosomal size and cargo. The lack of standard GMP-grade protocols is the main hurdle that limits the extensive application of Exo in the clinical setting. Here, the authors aimed to inspire a logical and realistic vision about problems associated with Exo application in regenerative medicine.

Melatonin as a promising modulator of aging related neurodegenerative disorders: Role of microRNAs.

One of the host risk factors involved in aging-related diseases is coupled with the reduction of endogenous melatonin (MLT) synthesis in the pineal gland. MLT is considered a well-known pleiotropic regulatory hormone to modulate a multitude of biological processes such as the regulation of circadian rhythm attended by potent anti-oxidant, anti-inflammatory, and anti-cancer properties. It has also been established that the microRNAs family, as non-coding mRNAs regulating post-transcriptional processes, also serve a crucial role to promote MLT-related advantageous effects in both experimental and clinical settings. Moreover, the anti-aging impact of MLT and miRNAs participation jointly are of particular interest, recently. In this review, we aimed to scrutinize recent advances concerning the therapeutic implications of MLT, particularly in the brain tissue in the face of aging. We also assessed the possible interplay between microRNAs and MLT, which could be considered a therapeutic strategy to slow down the aging process in the nervous system.

Chronic asthmatic condition modulated the onset of aging in bone marrow mesenchymal stem cells.

The emergence of an inflammatory condition such as asthma could affect the therapeutic potential of stem cells. Synopsis of previous documents yielded controversial outcomes, leading to a limitation of stem cell-based therapy in the clinical setting. This study aimed to assess the impact of asthmatic serum on the MSCs aging and dynamic growth in vitro. Rats were divided into control and asthmatic groups randomly. The asthmatic change was induced using OVA sensitization. The asthmatic structural changes are monitored by conventional Haematoxylin-Eosin staining. Thereafter, blood samples were taken and sera provided from each group. In this study, primary bone marrow mesenchymal stem cells were cultured in culture medium supplemented with normal and asthmatic serum for 7 days. The MSCs viability was examined using the MTT assay. The expression of the aging-related gene (ß-galactosidase), and stemness-related markers such as Sox2, Kfl-4 and p16INK4a were analysed by real-time PCR assay. Histological examination revealed chronic inflammatory remodelling which is identical to asthmatic changes. MTT assay showed a reduction of mesenchymal stem cell viability compared to the control group (P < .05). Real-time PCR analysis revealed a down-regulation of stemness-related markers Sox2, Kfl-4 and p16INK4a coincided with aging changes (ß-galactosidase) compared to the control group (P < .05). These data show the detrimental effect of asthmatic condition on bone marrow regenerative potential by accelerating early-stage aging in different stem cells and further progenitor cell depletion. SIGNIFICANCE OF THE STUDY: In such inflammatory conditions as asthma, the therapeutic potential of stem cells may be altered. We demonstrate that serum from asthmatic rats had the potential to reduce the viability of mesenchymal stem cells in vitro. Furthermore, we observed that the expression of the aging-related gene known ß-galactosidase was statistically increased in cells co-cultured with asthmatic serum. At the same time, expression of stemness-related markers Sox2, Kfl-4 and p16INK4a down-regulated. These results support the damaging effect of asthmatic condition on bone marrow regenerative ability by inducing early-stage aging in stem cells and additional progenitor cell reduction.

A Comparative Study of the Registry System effect on Patients Satisfaction Rate in Two Emergency Department Settings.

OBJECTIVE: To assess the patient's satisfaction rate during two distinct registry procedures in the emergency department. METHODS: A cross-sectional study was conducted in educational hospitals with a high volume of patient's admission in Tabriz-Iran and Erzurum-Turkey. In this study, we used a Press Ganey questionnaire as a data collection tool that was filled out with patients or their companions before discharging or referred to other areas (wards). Finally, data were analyzed by using SPSS software version 16. RESULTS: The included patients were from three-admission time courses includes morning, evening, and night shifts. The present study results indicated that the total satisfaction score was two scores higher than the classic one (p<0.001) in the model registry system. Furthermore, the findings of the current study interestingly showed a correlation between satisfaction rate and education level as well as patient's location. Thus, patients with moderate education levels had a higher satisfaction rate in urban regions when compared with rural regions and higher/lower education levels (p=0.03). CONCLUSION: Patients' satisfaction rate with multiple variables can be improved by designing an appropriate registry procedure.

Resveratrol reduced the detrimental effects of malondialdehyde on human endothelial cells.

Introduction: According to the statistics, vascular injury occurs during the onset of diabetic changes after the production of several byproducts. Many authorities have focused to find an alternative therapy for diabetic patients. In this study, we investigated the therapeutic effects of natural polyphenol like resveratrol on human endothelial cells exposed to malondialdehyde for 48 hours. Methods: Human Umbilical Vein Endothelial Cells were randomly classified into four groups;control, malondialdehyde (2.5 mM), resveratrol (100 µM), and cells received the combined regime for 48 hours. Cell viability was determined by 3-(4, 5-dimethyl thiazol-2-yl) 2, 5-diphenyl-tetrazoliumbromide (MTT) assay. Griess reaction was performed to measure the content of Nitric oxide (NO).Apoptosis was studied by using real-time polymerase chain reaction (RT-PCR) and western blotting assays. Levels of receptor tyrosine kinases like VEGFR-1, -2, Tie-1, and -2 were analyzed by enzyme-linked immunosorbent assay(ELISA). The affinity of resveratrol and malondialdehyde to serum albumin was measured by Surface Plasmon Resonance Assay. Any changes in chromatin remodeling were detected by PCR array analysis. Results: Resveratrol reduced cytotoxicity and NO content inside cells induced by malondialdehyde(MDA) (P < 0.05). Endothelial cell apoptosis was decreased by the reduction of pro-apoptotic factor Bax and increase of Bcl-2 following the incubation with resveratrol (P < 0.05). MDA-induced receptor tyrosine kinases increase was inhibited by resveratrol and reached near-to-normal levels (P < 0.05).Surface Plasmon Resonance revealed a higher affinity of resveratrol to albumin compared to the malondialdehyde-albumin complex. Polymerase chain reaction (PCR) array revealed the potency of resveratrol in chromatin remodeling following the treatment with malondialdehyde (P < 0.05). Conclusion: Based on our findings, resveratrol has the potential to decrease diabetic vascular injury induced by lipid byproducts such as MDA.