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Background/Objectives: The broad spectrum of clinical manifestations from SARS-COV-2 infection and observed risk factors for severe disease highlight the importance of understanding molecular mechanisms underlying SARS-CoV-2 associated disease pathogenesis. Research studies have identified a large number of host proteins that play roles in viral entry, innate immune response, or immune signalling during infection. The ability to interrogate subsets of these genes simultaneously within SARSCOV-2 infected samples is critical to understanding how their expression contribute to phenotypic variability of the disease caused by the pathogen. Method(s): 30 Nasopharyngeal swab were obtained and included SARS-CoV-2 infected and control samples. RNA was extracted, reverse transcribed and loaded onto flexible TaqMan array panels designed specifically for targeting the most cited genes related to SARS-COV-2 entry and restriction factors as well as cytokines, chemokines, and growth factors involved in the pathogenesis. Result(s): Our data indicated that not only were the levels of several of these host factors differentially modulated between the two study groups, but also that SARS-CoV-2 infected subjects presented with greater frequency of several important inflammatory cytokines and chemokines such as CCL2, CCL3, IFNG, entry receptors such as ACE2, TMRPS11A, and host restriction factors including LY6E and ZBP1. Conclusion(s): TaqMan array plates provide a fast, midthroughput solution to determine the levels of several virus and host-associated factors in various cell types and add to our understanding of how the pathogenesis may vary depending on gender, age, infection site etc.
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Objective Based on text mining technology and biomedical database, data mining and analysis of coronavirus disease 2019 (COVID-19) were carried out, and COVID-19 and its main symptoms related to fever, cough and respiratory disorders were explored. Methods The common targets of COVID-19 and its main symptoms cough, fever and respiratory disorder were obtained by GenCLiP 3 website, Gene ontology in metascape database (GO) and pathway enrichment analysis, then STRING database and Cytoscape software were used to construct the protein interaction network of common targets, the core genes were screened and obtained. DGIdb database and Symmap database were used to predict the therapeutic drugs of traditional Chinese and Western medicine for the core genes. Results A total of 28 gene targets of COVID-19 and its main symptoms were obtained, including 16 core genes such as IL2, IL1B and CCL2. Through the screening of DGIdb database, 28 chemicals interacting with 16 key targets were obtained, including thalidomide, leflunomide and cyclosporine et al. And 70 kinds of Chinese meteria medica including Polygonum cuspidatum, Astragalus membranaceus and aloe. Conclusion The pathological mechanism of COVID-19 and its main symptoms may be related to 28 common genes such as CD4, KNG1 and VEGFA, which may participate in the pathological process of COVID-19 by mediating TNF, IL-17 and other signal pathways. Potentially effective drugs may play a role in the treatment of COVID-19 through action related target pathway.Copyright © 2022 Tianjin Press of Chinese Herbal Medicines. All Rights Reserved.
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Problem: Environmental stress during pregnancy has known impacts on both maternal and fetal health. In terms of theCOVID-19 pandemic, the majority of published work has focused on the impact of the infection itself, without considering the potential immune impact of pandemic related-stress.We, therefore, assessed the impact of pandemic stress, independently of SARS-CoV-2 infection, on the circulating and placental immune profiles of pregnant individuals. Method(s): Placentas from 239 patients were collected at the Sainte- Justine Hospital, Montreal, Canada. Of these, 199 patients delivered during the pandemic and were exposed to pandemic stress with (+: 79) or without (-: 120) SARS-CoV-2 infection, the latter exposed to pandemic stress only. Pre-pandemic historic controls (uncomplicated pregnancies, Ctrl: 40), were also included. Placental biopsies were collected to assess cytokine levels by ELISAs and histopathological lesions. A sub-study with 35 pre-pandemic pregnancies (unexposed) and 20 who delivered during the pandemic (exposed) was also conducted. The latter (exposed/unexposed) were all uncomplicated pregnancies. We collected maternal blood prior to delivery for immunophenotyping, and plasma/peripheral blood mononuclear cells (PBMCs) were isolated. Inflammatory mediators in the plasma were quantified by ELISAs. Co-culture assays with PBMCs and human umbilical vein endothelial cells (HUVECs) were performed to assess endothelial activation. Demographical/obstetrical data were obtained through chart review. Result(s): SARS-CoV-2+ patients were multiethnic (63.4%), had higher pre-pregnancyBMI (28.9 vs. 24.8 inCtrl, P<.05), and elevated preterm birth rate (16.5% vs. 5.8% in SARS-CoV-2-, P < .05 and 0.0% in Ctrl, P < .01). In the placentas, we observed an increase in the levels of IL- 1Ra (P < .05) and CRP (P < .05) in both SARS-CoV-2 groups, while IL-6 (P = .0790) and MCP-1 (P < .001) were elevated solely in SARS-CoV- 2-. These changes were predominant in placentas with inflammatory lesions on histopathological analysis. Moreover, we observed elevated CD45+ cells (P < .001) in the placentas from both SARS-CoV-2 groups versus Ctrl. Considering that the differences we observed were important in the SARS-CoV-2- group, we performed a study solely on uncomplicated pregnancies, either exposed or unexposed to pandemic stress. At the systemic level, we observed a decrease in the percentage of Th2 cells (P < .001), leading to a pro-inflammatory Th1/Th2 imbalance in exposed individuals. Decreased Treg (P < .05) and Th17 (P < .05) versus unexposed was also observed. Surprisingly, decreased levels of circulating IL-6 (P < .05), MCP-1 (P < .01), and CRP (P<.05) were seen in exposed versus unexposed individuals. Finally,we observed increased secretion of ICAM, a marker of endothelial activation, solely in endothelial cells co-cultured with PBMCs from exposed individuals. Conclusion(s): Overall, placental inflammatory profiles differed between pregnant individuals exposed to pandemic stress with or without SARS-CoV-2 infection. Moreover, we observed that the pandemic stress exposed group presented a systemic pro-inflammatory bias. This highlights the need to understand the differences between the effects of pandemic-related stress and the added burden of SARS-CoV-2 infection itself on maternal and fetal health. Our work also supports an association between an increased risk of hypertension/ preeclampsia and SARS-CoV-2 infection that might be driven in part by pandemic-related stress.
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The coronavirus illness (COVID-19) is caused by serious acute respiratory disorder coronavirus 2 (SARS-CoV-2), moreover known as the COVID-19 virus. After the first-ever reports of COVID-19 in December 2019, the malady spread quickly. In January 2020, the WHO announced the outbreak a Public Health Emergency of Worldwide Concern, and by March 2020, the WHO characterized the episode as a global widespread . The current study aimed to detect the effect of SARS-CoV-2 infection in heart patients and study their immune response by detecting the levels of some cytokines, which may end in a cytokine storm and may lead to death. In this study, one hundred-eight subjects were enrolled on two comparison case-control groups, the case group included 54 patients suffering from SARS-COV2, all were selected from those who were admitted to the Intensive Care Unit (ICU), and were diagnosed by a specialist physician with severe acute respiratory syndrome due to SARS-COV2 documented by Real-Time Polymerase Chain Reaction( RT-PCR ) besides other clinical and laboratory criteria in Marjan Medical City in Babylon province, AL-Amal Hospital for Communicable Diseases and AL-Hakeem Hospital, Najaf/Iraq, for a period from March 2022 to October 2022 to evaluate the role of some selected serological among patients with SARA-COV2 . The control group in this study included 54 subjects, divided into three groups (Apparent Healthy, patients suffered from SARS-COV2, patients suffered from CVD). Blood samples were examined through immunological methods, and an enzyme-linked immunosorbent assay (ELISA) was adopted for the detection of the concentration of TNF-alpha, IL6, IL-10,1L-12 and CCL2 .The immunological evaluation to clarify the theory of cytokines storm carried in the present study revealed that (TNF-alpha, IL6, IL-10,1L-12, and CCL2) for patients with COVID-19 and CVD was significantly higher than all the comparison group. The study reported that interleukin (6, 10, 12) and TNF-a are significantly increased in patients with covid19, CVD, and COVID-19 patients only, compared to healthy people. furthermore, IL-6 and IL-12 levels increased in patients with CVD only when compared to healthy people. There is a significant increase in CCL2 in all study groups compared to healthy people who have lower levels and this study indicated that the infection with Covid disease was severe and critical in most patients with CVD. This increased the number of deaths among them.Copyright © 2021 Muslim OT et al.
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Worldwide, up to 8.8 million excess deaths/year have been attributed to air pollution, mainly due to the exposure to fine particulate matter (PM). Traffic-related noise is an additional contributor to global mortality and morbidity. Both health risk factors substantially contribute to cardiovascular, metabolic and neuropsychiatric sequelae. Studies on the combined exposure are rare and urgently needed because of frequent co-occurrence of both risk factors in urban and industrial settings. To study the synergistic effects of PM and noise, we used an exposure system equipped with aerosol generator and loud-speakers, where C57BL/6 mice were acutely exposed for 3d to either ambient PM (NIST particles) and/or noise (aircraft landing and take-off events). The combination of both stressors caused endothelial dysfunction, increased blood pressure, oxidative stress and inflammation. An additive impairment of endothelial function was observed in isolated aortic rings and even more pronounced in cerebral and retinal arterioles. The increase in oxidative stress and inflammation markers together with RNA sequencing data indicate that noise particularly affects the brain and PM particularly affects the lungs. Noise also increased levels of circulating stress hormones adrenaline and noradrenaline, while PM increased levels of circulating cytokines CD68 and MCP-1. The combination of both stressors has additive adverse effects on the cardiovascular system that are based on PM-induced systemic inflammation and noise-triggered stress hormone signaling. We demonstrate an additive upregulation of ACE-2 in the lung, suggesting that there may be an increased vulnerability to COVID-19 infection. The data warrant further mechanistic studies to characterize the propagation of primary target tissue damage (lung, brain) to remote organs such as aorta and heart by combined noise and PM exposure.Copyright © 2023
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Background: At least 10% of SARS-CoV-2 infected patients suffer from persistent symptoms for >12 weeks, known as post-COVID-19 condition (PCC) or Long Covid. Reported symptomatology is diverse with >200 physical and neurological debilitating symptoms. Here, we analyzed pro-inflammatory cytokine levels as a potential mechanism underlying persistent symptomatology. Method(s): Clinical data and samples used belong to the KING cohort extension, which includes clinically well characterized PCC (N=358, 59 persistent symptoms evaluated), COVID-19 recovered and uninfected subjects. We used Gower distances to calculate symptom's similarity between PCC and Ward's hierarchical clustering method to identify different symptom patterns among PCC patients. Cytokine levels of randomly selected PCC, recovered and uninfected subjects (N=193) were measured on plasma samples collected >6 months after acute infection using the 30-Plex Panel for Luminex. Mann- Whitney t-test was used to compare PCC vs recovered groups and Kruskal-Wallis t-test for >2 groups comparisons (PCC vs recovered vs Uninfected and within PCC clusters). FDR correction was applied for statistical significance (p-adj). Result(s): Hierarchical clustering identified 5 different PCC clusters according to their symptomatology, where PCC3 and PCC5 clusters showed higher prevalence of women ( >80%) and more persistent symptoms, while acute COVID-19 was mild in >80% of the patients. We selected 91 PCC (belonging to each cluster), 57 recovered and 45 uninfected subjects for cytokine profiling (Table 1). 13 soluble markers were significantly elevated (IL-1beta, Eotaxin, MIP-1beta, MCP-1, IL-15, IL-5, HGF, IFN-alpha, IL-1RA, IL-7, MIG, IL-4 and IL-8) in PCC and recovered groups compared to uninfected subjects (all p-adj< 0.04). In addition, PCC subjects tended towards higher levels of IL-1RA compared to recovered group (padj= 0.071). Within PCC clusters, FGF-basic and RANTES were elevated while IL-2 and MIG were decreased in PCC3 and PCC5 compared to the other PCC clusters (all p-adj< 0.04). TNF-alpha, IP-10, G-CSF and MIP-1alpha were decreased in PCC3 and PCC5 not reaching statistical significance (all p-adj=0.07). Conclusion(s): Some cytokines remained altered in all SARS-CoV-2 infected subjects independently of persistent symptoms after 6 months from acute infection. Differences between PCC and recovered individuals are limited after correction. Importantly, PCC cytokine profiles showed differences between clusters, which suggests different PCC subsyndromes with distinct etiology. Subjects Characteristics (Table Presented).
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Background: The CoV-2 envelope (E) protein plays an important role in virus assembly, budding, immunopathogenesis and disease severity. E protein has ion channel activity, is located in Golgi and ER membranes of infected cells and is associated with inflammasome activation and immune dysregulation. Here we report that BIT225, an investigational HIV clinical compound, inhibits E ion channel activity and prevents body weight loss and mortality and reduces inflammation in lethally infected K18-hACE2 transgenic mice. BIT225 efficacy was observed when dosing was initiated before or 24 h or 48 h after infection. Method(s): SARS-CoV-2 E protein ion channel activity and Xenopus TMEM16A were measured in Xenopus oocytes. K18-hACE2 transgenic mice were infected intranasally with 104 pfu SARS CoV 2 (US-WA1/2020) and dosed orally twice daily with BIT225 for up to 12 Days. Dosing was initiated 12 h pre-infection or 24 h or 48 h post-infection. Disease parameters measured were survival, body weight, viral RNA by qPCR and infectious virus titre (plaque assay) in lung tissue homogenates and serum. In addition, levels of pro-inflammatory cytokines (IL-6, IL-1alpha, IL-1beta, TNFalpha & TGFbeta, MCP-1) were measured in lung and serum samples. Result(s): BIT225 inhibited ion channel activity of E-protein, but not that of TMEM16A in Xenopus oocytes. BIT225 dosed at 300mg/kg BID for 12 days starting 12 h pre-infection completely prevented body weight loss and mortality in SARS-CoV-2 infected K18 mice (n=12), while all vehicle-dosed animals reached a mortality endpoint by day 9 across two studies (n=12). Figure 1 shows results from a time of addition study: When treatment with BIT225 started at 24 h post-infection, body weight loss and mortality was also prevented (100% survival, n=5). In the group of mice where treatment started at 48 h after infection, body weight loss and mortality were prevented in 4 of 5 mice. Treatment efficacy was associated with significant reduction in lung viral load (3.5 log10), virus titer (4000 pfu/ml) and lung and serum cytokine levels. Conclusion(s): BIT225 is an inhibitor of SARS-CoV-2 E-protein viroporin activity. In the K18 model BIT225 protected mice from weight loss and death, inhibited virus replication and reduced inflammation. These effects were noted when treatment with BIT225 was initiated before or 24-48 hours after infection and validate viroporin E as a viable antiviral target and support the clinical study of BIT225 in treatment of SARS-CoV-2.
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Background: It is unknown whether individuals with neurological post-acute sequelae of COVID-19 (NeuroPASC) display altered levels of neuroimmune activity or neuronal injury. Method(s): Participants with new or worsened neurologic symptoms at least 3 months after laboratory-confirmed COVID-19 were enrolled in The COVID Mind Study at Yale. Never COVID controls (no history of COVID-19;nucleocapsid (N) antibody negative) were pre-pandemic or prospectively enrolled volunteers. CSF and plasma were assessed for neopterin and for IL-1beta, IL-1RA, IL-2, IL-4, IL-5, IL-6, IL-8, IL-10, IL-12p40, IL-12p70, IL-13, MCP-1, TNFalpha by bead-based multiplex assay;and for anti-SARS-CoV-2 N antibodies by Luminex-based multiplex assay in technical replicate, normalized against bovine serum albumin conjugated beads. Plasma concentrations of D-dimer, C-reactive protein, neurofilament light chain (NFL), and glial fibrillary acid protein (GFAP) were measured using high-sensitivity immunoassays. Group comparisons used non-parametric tests. Result(s): NeuroPASC participants (n=38) were studied 329 (median) days (range 81-742) after first positive test for acute COVID-19. Cognitive impairment (84%) and fatigue (82%) were the most frequent post-COVID symptoms. NeuroPASC and controls (n=22) were median 49 vs 52 yrs old (p=0.9), 74% vs 32% female (p< 0.001), 76% vs 23% white race (p< 0.001), and 6% vs 57% smokers (p< 0.001). CSF white blood cells/mL, CSF protein, and serum:CSF albumin ratio were normal in both groups. CSF TNFalpha (0.66 vs 0.55 pg/ul) and plasma IL12p40 were higher (103.3 vs 42.7);and MCP-1 (503 vs 697 pg/ul) and IL-6 (1.32 vs 1.84 pg/ul;p < 0.05 for IL-6) were lower in NeuroPASC vs controls (p< 0.05);but none of these differences were significant after adjusting for multiple comparisons. Plasma GFAP was elevated in NeuroPASC vs controls (54.4 vs 42.3 pg/ml;adjusted p< 0.03). There were no differences in the other biomarkers tested. 10/31 and 7/31 NeuroPASC had anti-N antibodies in CSF and plasma, respectively. Conclusion(s): When comparing NeuroPASC to never COVID controls, we found no evidence of neuroinflammation (normal CSF cell count, inflammatory cytokines) or blood-brain barrier dysfunction (normal albumin ratio), and no support for ongoing neuronal damage (normal plasma NFL). Future studies should include better gender and race matched controls and should explore the significance of a persistent CNS humoral immune response to SARS-CoV-2 and elevated plasma GFAP after COVID-19. (Figure Presented).
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Obesity is associated with several diseases, including mental health. Adipose tissue is distributed around the internal organs, acting in the regulation of metabolism by storing and releasing fatty acids and adipokine in the tissues. Excessive nutritional intake results in hypertrophy and proliferation of adipocytes, leading to local hypoxia in adipose tissue and changes in these adipokine releases. This leads to the recruitment of immune cells to adipose tissue and the release of pro-inflammatory cytokines. The presence of high levels of free fatty acids and inflammatory molecules interfere with intracellular insulin signaling, which can generate a neuroinflammatory process. In this review, we provide an up-to-date discussion of how excessive obesity can lead to possible cognitive dysfunction. We also address the idea that obesity-associated systemic inflammation leads to neuroinflammation in the brain, particularly the hypothalamus and hippocampus, and that this is partially responsible for these negative cognitive outcomes. In addition, we discuss some clinical models and animal studies for obesity and clarify the mechanism of action of anti-obesity drugs in the central nervous system.Copyright © 2023 Wolters Kluwer Medknow Publications. All rights reserved.
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Background: Previous longitudinal studies (n=6) of objective olfaction performance post-acute COVID-19 have a maximum follow-up of 6-month and do not often test biomarkers. Although olfactory dysfunction appears to improve within two months of symptom onset, 4/6 longitudinal studies show persistent olfactory impairment. Method(s): PCR-confirmed COVID-19 patients in the prospective ADAPT cohort (Sydney, Australia) were assessed across 18 acute symptoms and hospitalization status: 40% mild, 50% moderate, 10% severe/hospitalised - none deceased). Blood samples were taken 2 (N=179), 4 (N=148) and 12-month (N=118) post-diagnosis. The NIH Odor Identification Test (OIT) and the Cogstate brief cognitive battery were performed. 58 also had an olfaction test at 24-month. The OIT raw data were transformed into demographically-corrected T-scores. OIT's attrition was completely random and only initial age (40+/-15 versus 47+/-15) differed between patients lost to follow-up and those in the study at 24-month. We tested peripheral neurobiomarkers (NFL, GFAP, S100B, GM-CSF) and immune markers (Interleukin-IL panel: 1-beta, 1Ralpha, 4, 5, 6, 8, 10, 12p40, 12p70, 13, and MCP-1, TNF-alpha and INF-gamma), analyzed as Log transformed and elevated/normal range using published references. Our previous analyses had shown no relationship with the kynurenine pathway, but an association of impaired olfaction and impaired cognition at 2-month only. Linear mixed effect regressions with time effect (months) tested olfaction trajectories (random subject effect) and their association with the biomarkers (main and time interaction). Result(s): At 2 months post-diagnosis 30% had impaired olfaction and those who had acute severe disease were more likely to be impaired (54% versus 26%, p=.009). 21%, 31% and 37% had impaired olfaction at 4, 12 and 24-months. Olfactory performance declined over time (p< .0001), which was dependent on the initial performance (Fig 1). Neurobiomarkers were within the normal range. IFN-gamma, IL-1Ralpha, IL-13 and TNF-alpha increased across time, p< .03-p< .0005. TNF-alpha and IFN-gamma showed a time covariance with poorer olfaction performance. Conclusion(s): Post-acute mild to moderate COVID-19 is associated with a declining olfactory performance up to 2-yr post-diagnosis, especially when initially impaired with the provisio of attrition although random. Olfactory performance decline may be mediated by upregulated immune parameters which are distinct from those driving cognitive changes. (Figure Presented).
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Introduction: COVID-19 causes a major inflammatory response, which may progress to shock and multiple organ failure. We explored whether continuous renal replacement therapy (CRRT) using adsorption membrane (oXiris) could reduce the inflammatory response in critically ill COVID-19 patients with acute renal failure (ARF) [1, 2]. Method(s): Case-control study including 24 critically ill COVID-2019 patients requiring RRT using an oXiris filter. We measured cytokines before and during treatment as well as relevant clinical endpoints. The control group was selected among COVID-19 patients included into our ongoing RECORDS trial (NCT04280497) who received RRT without adsorbing filters. Result(s): 24 severe COVID-19 patients, admitted to the intensive care unit (ICU) and treated with CRRT using the oXiris filter between March and April 2020 (20 males and 4 females);median age 67. The average time from COVID-19 symptoms to initiation of oXiris treatment was 18 +/- 7 days, and from ICU admission to initiation of oXiris treatment 9.5 +/- 7.8 days and from ARF to oXiris treatment was 3 +/- 5 days. The average length of treatment was 152.8 +/- 92.3 h. Treatment was associated with cytokine decreases for IL-1beta (p = 0.00022), MCP-1 (p = 0.03), and MIP-1 alpha (p = 0.03). The SOFA scores also showed a reduction over 48 h of therapy without reaching statistical significance. Our study found no significant effect of hemodynamic status. The average ICU stay length was 14 +/- 5 days and the mortality rate was 79% in the Oxiris group. We compared the mortality across the two matched groups, there was no evidence of any difference in mortality (Fig. 1). Conclusion(s): In our study, CRRT using the oXiris filter seemed to effectively remove IL-1 beta, MCP-1, and MIP-1 alpha in COVID-19 patients. These exploratory results should be confirmed in a randomized controlled study.
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Background: COVID-19, the disease caused by SARS-CoV-2, has resulted in devastating morbidity and mortality worldwide. Alarming evidence indicates that long-term adverse outcomes of COVID-19 can affect all major systems of the body, including the immune, respiratory, cardiovascular, and neurological systems. While acute COVID-19 pathology does not appear to be markedly different by HIV status, long-term outcomes of COVID-19 in People with HIV (PWH) are unknown and require further investigation. This study evaluates the inflammatory profile longitudinally up to three months after COVID-19. In addition, markers of the blood-brain barrier (BBB) integrity and vascular dysfunction were also evaluated. Method(s): Plasma samples were collected from 15 males and 6 females with COVID-19 and HIV infection (COVID+/HIV+) and 9 males and 14 females with COVID-19 without HIV infection (COVID+/HIV-) between March 2020 and March 2021. Baseline samples were obtained approx. 10 days after COVID-19 diagnosis (T=0) and three months after (T=3). Mean age group for COVID+/HIV-was 45.4+/-17.8 years for males and 39.7+/-15.3 for females and for COVID+/HIV+ was 52.1+/-12.3 for males and 48.7+/-1 for females (N=15 and 6, respectively). 27 inflammatory molecules were measured by Bio-Plex Multiplex Immunoassay (Bio-Rad) and two markers of BBB and vascular dysfunction (soluble ICAM1 and S100beta) by ELISA. Result(s): Out of 27 inflammatory analytes, 20 had detectable signals. Eotaxin (CCL11) and G-CSF levels were differentially upregulated in the COVID+/HIV+ group as compared to the COVID+/HIV-group in both time point studied (Table 1). IFN-g showed sustained increased levels at T=3 in the COVID+/HIV+ group, whereas there was a significant reduction over time in the COVID+/HIV-group. At T3, inflammatory markers (IL-4, IL-8, IL-13, basic FGF, TNF-alpha, MIP-1alpha, and CCL2) either decreased or remained unchanged in both groups. In contrast, the markers of the BBB disruption and vascular dysfunction, such as S100beta and soluble ICAM-1 increased in the COVID+/HIV+ group, suggesting long-term progressive BBB and vascular alterations. Conclusion(s): HIV-1 may potentiate long COVID-19-induced neuropathology, with progressive BBB breakdown and sustained increase in eotaxin-1 and G-CSF. Plasma inflammatory markers in COVID-19 patients with or without HIV-1 co-infection.
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Background: COVID-19 infection can lead to a constellation of longlasting post-infectious sequelae, including myocardial dysfunction, whose outcome is strongly affected by a fine-tuned balance between pro-and anti-inflammatory systemic immune responses. Plasma cytokines are key mediators of this immunological balance. In this preliminary study we evaluated the cross-sectional association between the circulating levels of the main pro-and anti-inflammatory cytokines and cardiac magnetic resonance (CMR) abnormalities. Method(s): 71 subjects (59% female, mean age 52+/-14) with previous diagnosis of COVID-19 infection were enrolled at our institution for MULTICOVID protocol, comprehensive of CMR and biomarkers assessment performed >3 months and <1 year following the first negative swab test. CMR protocols consisted of conventional sequences (cine, T2-weighted imaging, and late gadolinium enhancement [LGE]) and quantitative mapping sequences (T1, T2, and extracellular volume [ECV] mapping). Plasma levels of cytokines TNF-alpha, IL-1beta, IL-1alpha, IFN-alpha2, IL-6, IL-8, IL-13, IL-10, IL-17A, IL-18, IP-10, MIG and MCP-1 were quantified by Multiplex Immunoassays on the Luminex technology platform. Soluble cardiologic and biochemical biomarkers were measured by routine laboratory analysis. Result(s): After a median of 9 (IQR 6-11) months following negative swab, CMR was normal in 48 subjects, while in 23 (32%) it revealed tissue characterization abnormalities (myocardial late enhancement and/or edema). By multivariate regression analysis (adjusted for age, sex, vaccination, severity degrees of the initial COVID disease, presence of comorbidities, smoke, time interval between COVID diagnosis and CMR assessment) the cytokine ratio TNF-alpha/(IL-10+IL-13) was independently associated (OR=2.89, 95% CI 1.19-7.04, p=0.02) with CMR abnormalities. Interestingly, the cumulative pro-/anti-inflammatory cytokine ratio (IL-1beta+TNF-alpha+IFN-alpha2+IL-6+IL-17A+IL-8)/(IL-10+IL-13) showed a positive (OR=1.70, 95% CI: 1.04-2.75) and significant (p=0.03) association with CMR imaging aspects. Also, the ratio IFN-alpha2/(IL-10+IL-13), although without achieving a complete statistical significance (p=0.09), was associated positively with CMR findings. Conclusion(s): The preliminary results of this cross-sectional study suggest that the systemic inflammatory environment, long-lasting unbalanced towards a prevalent cytokine-driven pro-inflammatory condition following COVID infection, could affect the development of CMR-detectable myocardial edema and fibrosis in long-term post-COVID subjects.
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Emerging research shows that innate immunity can also keep the memory of prior experiences, challenging the long-held notion that immunological memory is only the domain of the adaptive immune cells. However, the absence of immunological memory in innate immune responses has recently been brought into question. Now it is known that after a few transient activations, innate immune cells may acquire immunological memory phenotype, resulting in a stronger response to a subsequent secondary challenge. When exposed to particular microbial and/or inflammatory stimuli, trained innate immunity is characterized by the enhanced non-specific response, which is regulated by substantial metabolic alterations and epigenetic reprogramming. Trained immunity is acquired by two main reprogramming, namely, epigenetic reprogramming and metabolic adaptation/reprogramming. Epigenetic reprogramming causes changes in gene expression and cell physiology, resulting in internal cell signaling and/or accelerated and amplified cytokine release. Metabolic changes due to trained immunity induce accelerated glycolysis and glutaminolysis. As a result, trained immunity can have unfavorable outcomes, such as hyper inflammation and the development of cardiovascular diseases, autoinflammatory diseases, and neuroinflammation. In this review, the current scenario in the area of trained innate immunity, its mechanisms, and its involvement in immunological disorders are briefly outlined.Copyright © 2022
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Background The neurotrophic effects of Covid-19 are becoming increasingly recognized, with altered mental state now being the second most common presenting complaint insert numbers. A key question is whether this has long term consequences. Cognitive problems are commonly reported in patients 3 months after acute infection as part of the so called Long-Covid syndrome. However, the underlying cause is not well understood. Candidate explanations include legacy from encephalitis and stroke;however, other complications such as the sequelae, delirium, remain underexplored. Furthermore, little consideration has been given to functional cognitive disorders and the cognitive consequences of depression, anxiety and fatigue. Aims We propose a structured approach to clinical assessment for clinicians reviewing late cognitive complaints after COVID 19. Methods We created our own unique framework for neurocognitive Covid assessment based upon a review of the literature. Results Covid status- Any positive test. If not review of core symptoms such as breathlessness, headache, anosmia, nasal obstruction, cough, myalgia, or gustatory dysfunction;duration, extent of exposure to Covid confirmed cases. Consider rapid antibody testing. Neuropsychiatric history- Part 1 symptoms at onset- in particular disruptions of consciousness and altered mental state. Acute memory impairment, anterograde/retrograde and with/ without a temporal gradient. neurocognitive function. ITU admission and oxygen requirements. Part 2 Current cognitive and mental state- in addition to standard history seek evidence of internal inconsistency of memory symptoms and attentional dysregulation. Has social cognition and meta-cognition been affected. Note attribution bias i.e. no Im not depressed, I cant enjoy anything because of my symptoms Background history- subtle suggestion of neurodegeneration and depression, anxiety and functional symptoms should be explored. MRI findings- signal changes in the medial temporal lobe, nonconfluent multifocal white matter hyperintense lesions, and isolated white matter microhemorrhages. Novel biomarkers IL-6, MCP-1, and IP-10. Conclusion Cognitive symptoms are common after confirmed and assumed COVID exposure. We propose a framework for neuropsychiatric assessment and the use of adjuvant imaging and potential biomarkers.
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Background: Infections with SARS-CoV- 2 cause the coronavirus disease 2019 (COVID-19) pandemic. Alterations in immune cells of COVID-19 patients may predict the subsequent severity of disease. The changes in composition of immune cells in COVID-19 patients include lymphopenia, lower neutrophil to lymphocyte-ratios and an eosinopenia in about 50 to 80% of hospitalized patients. Eosinophils and neutrophils can interact with T cells via immune checkpoints receptors such as programmed death (PD)-1 on T cells and its counterpart PD-ligand 1 (PD-L1) on eosinophils or neutrophils. There are only limited studies on PD-1 and PD-L1 expressions in viral infections, we aimed to elucidate the interplay of T cells and other peripheral cells by analysing the immune checkpoints PD-1 and PD-L1 in expression during COVID-19. Method(s): Using flow cytometry, we have now analysed the immune checkpoint receptor expressions on whole blood cells from a total of 38 COVID-19 patients. The patient cohort comprises all ages and both sexes with the disease severity ranging from mild, moderate to severe, with ~10% mortality. We have further been investigating 21 biomarkers (G-CSF, GM-CSF, IFN-gamma, TGF-beta1, IL-2, IL-4, IL-5, IL-6, IL-10, IL-12p70, IL-13, IL-17A, IL-18, IL-23, IL-33, IP-10, MCP-1, MIP-1beta, TNF-alpha, and YKL-40) in plasma on a cohort of 76 COVID-19 patients using the MesoScale Multiplex Assay platform, with 48 healthy controls. Result(s): PD-L1 expression on eosinophils was significantly lower in COVID-19 patients in initial stages of infection, relative to healthy controls. There was an inverse relationship between disease progression and the expression of PD-1 on CD8+ T cells. These data suggests that analysis of PD-L1- PD1 cell networks in immune cells of EDTA blood of COVID-19 patients can predict disease outcomes. While most detectable biomarkers are strongly increased in COVID samples overall compared to healthy controls, the more severe the disease the higher the blood biomarker concentration. Conclusion(s): Taken together, the analysis of PD-L1- PD1 cell networks in immune cells together with plasma biomarkers of COVID-19 patients can predict disease outcomes.
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Background: In the acute phase, patients with severe COVID-19 exhibit pulmonary inflammation and vascular injury, as well as an exaggerated cytokine response. Aim(s): To describe the inflammatory cytokine and vascular injury mediator profiles in patients previously hospitalised with COVID-19, and to compare these profiles with those in healthy controls and in patients recovering from severe sepsis of other aetiology. Method(s): Plasma levels of 28 different cytokine, chemokine, angiogenic and vascular injury markers were measured by MSD V-PLEX multiplex assays in 49 post-COVID patients 5.0+/-1.9 (mean+/-SD) months after hospitalisation with COVID-19 pneumonia, 11 post-sepsis patients (5.4+/-2.9 months after hospitalised non-COVID sepsis) and 18 healthy controls. Kruskal-Wallis or ANOVA were used to compare groups;false discovery rate correction (Benjamini Hochberg) allowed for multiple testing. Result(s): In the post-COVID group, IL-6, TNFalpha, SAA, MCP1, Tie-2, Flt1, PIGF and CRP were significantly elevated, whereas IL-7 and bFGF were significantly depressed. The differences in TNFalpha, SAA, MCP1, Tie-2, Flt1, IL-7 and bFGF appeared unique to the post-COVID group, but increased IL-6, PIGF and CRP levels were also seen in postsepsis patients compared with controls. In post-COVID patients we found strong negative spearman correlations between each of IL-6 (r=-0.51) and CRP (r=-0.57) with TLCO %predicted (p<0.001) and positive correlations with post-recovery CT abnormality scores: IL-6 (r=0.28) and CRP (r=0.46), p<0.05. Conclusion(s): A unique signature of inflammatory and vascular damage markers is seen months after acute COVID19 infection. Further research is needed to determine their pathophysiological significance.
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SARS-CoV2 infection induces a complex interaction between virus and host immune system, activating multiple inflammatory pathways and leading to hyperinflammation, diffuse alveolar damage (DAD), ARDS, and multiorgan failure. We aimed to correlate the quantification of viral load, inflammatory cells and cytokines in lung tissue of fatal COVID-19. We assessed inflammatory cells by multiplex immunohistochemistry, cytokines by Luminex xMAP Assay and viral load by real time PCR in autopsy lung tissue of 18 COVID-19 patients. Correlations were considered statistically significant if p<0.05. Macrophages correlated with IL-1beta (r=0.54), IL-10 (r=0.5), IFN-alpha2 (r=0.72), IFN-gamma (r=0.6), CCL20 (r=0.5), TGF-beta1 (r=0.6), TGF-beta2 (r=0.6). CD4+T cells correlated with CCL20 (r=0.6), MDC/CCL2 (r=0.53), CCL17 (r=0.5), IP-10 (r=0.6), CXCL9 (r=0.6). CD8+T cells correlated with IL-1beta (r=0.54), IL-4 (r=0.63), IL-6 (r=0.7), IL-8 (r=0.63), IL-10 (r=0.6), TNF-alpha (r=0.6), IFN-gamma (r=0.74), CCL20 (r=0.7), TGF-beta1 (r=0.7), TGF-beta2 (r=0.56), TGF-beta3 (r=0.54), MDC/CCL2 (r=0.7), CCL17 (r=0.64). Langerin dendritic cells (DC) correlated with symptom onset to death interval (r=0.6), hospitalization length (r=0.65), mechanical ventilation (MV) length (r=0.6), ICU stay (r=0.6), exudative DAD (r=-0.5), viral load (r=-0.6). Myeloid DC correlated with symptom onset to death interval (r=0.8), hospitalization length (r=0.8), MV length (r=0.8), ICU stay (r=0.8), exudative DAD (r=-0.5), viral load (r=-0.7). Viral load correlated with symptom onset to death interval (r=-0.7), hospitalization length (r=-0.8), MV length (r=-0.7), ICU stay (r=-0.8), exudative DAD (r=0.6). There is a complex temporal inflammatory modulation in severe COVID-19.
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Background: Novel coronavirus pneumonia COVID-19 has become a serious threat to human health. Traditional Chinese Medicine (TCM) has a good clinical effect in the treatment of COVID-19, with a high effective rate and a low rate of turning to the serious stage. Objective(s): We generated the web-accessed anti-COVID-19 TCM database to provide the anti-COVID-19 TCM information to develop effective drugs for the treatment of COVID-19. Method(s): Herein, we collected these prescriptions data by querying the CNKI and Wanfang Chinese da-tabases, the clinical guidance for COVID-19 pneumonia diagnosis and treatment, and further set up the web-accessible anti-COVID-19 TCM database. Result(s): Altogether, 293 different prescriptions are applied in four different COVID-19 stages of treat-ment, and the prevention of COVID-19 is composed of 452 TCM components. Conclusion(s): The database provides comprehensive information for anti-COVID TCM and thus would help to investigate novel ways to develop new anti-COVID-19 agents.Copyright © 2022 Bentham Science Publishers.
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Dental implants are a standard of care in contemporary dental practice and are widely employed for the restoration of missing teeth. The long-term utility of an implant is largely dependent on the successful implant osseointegration and maintenance of the same over time. Bone metabolism and inflammatory mechanism are interrelated phenomena and are usually collectively termed osteoimmunology, which may affect the predictability and success of implant osseointegration. Many biochemical mediators of inflammation, especially Interleukin (IL)1, IL-6, and Tumour necrosis factor (TNF)alpha, have been documented to increase the activity of bone-resorbing cells through the Receptor Activator of Nuclear Factor Kappa-B (RANK) and Receptor Activator of Nuclear Factor Kappa-B Ligand (RANKL)systems. Some of the earlier studies with very limited data suggest that SARS-CoV2 infection may also directly affect bone resorption. Thus, it is imperative to understand the pathophysiology of osseointegration in COVID-19 patients, to enhance successful implant osseointegration and prevent peri-implant bone loss in these patients. Here, we present a summary of the connection between inflammatory pathways and bone metabolism on a molecular basis which may assume a significant bearing in situations of exaggerated host immune response as seen in COVID-19 infection.Copyright © 2022 Wolters Kluwer Medknow Publications. All rights reserved.