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There are three main components manufactured from whole blood: red blood cells (RBCs), plasma, and platelets. Plasma contains a multitude of different proteins, peptides, and biologic substances. Approximately 53 million liters of plasma was collected in the United States in 2019. Following collection, plasma is frozen and manufactured into plasma-derived medicinal products (PDMPs). During the manufacture process, several thousand plasma units are pooled for Cohn fractionation, which is based upon cold ethanol precipitation of proteins. The PDMPs are further prepared using ion exchange or affinity chromatography and additional steps to inactivate and remove infectious diseases such as viruses. Almost 20 different therapeutic plasma proteins are purified from plasma via these multi-step manufacturing processes. Interestingly, the demand for pharmaceutical plasma products, particularly intravenous immunoglobulin (IVIG) products, has been increasing. The manufacture and therapeutic role of blood derivatives particularly immunoglobulin therapy, Rh immunoglobulin (RhIG), COVID-19 convalescent plasma (CCP) and hyperimmune globulins, albumin, clotting factors, fibrin sealants, and platelet rich plasma will be described.Copyright © 2022 AME Publishing Company. All Rights Reserved.
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Background/Objectives: During COVID-19 pandemic, it is essential to detect patients potentially at risk of life-threatening complications, due to possible specific genetic mutations. The aim of our work is to show a practical application of genetic testing, allowing a diagnosis of alpha 1 antitrypsin deficiency in cases with a severe clinical course during COVID-19 infection. Method(s): During hospitalization for COVID-19, we identified 5 patients (3 female, 2 males from two different families, age range 18-47 years) with a severe course of COVID-19 infection, requiring high pressure ventilation with high volume oxygen supply. Two months after discharge, those patients were reevaluated with respiratory function tests, biochemical tests, genetic counselling and genetic testing. A peripheral blood sampling for SERPINA1 genetic testing has been performed, using Sanger sequencing. Result(s): Two months after discharge, in all 5 patients respiratory function tests were consistent with a dysventilatory obstructive syndrome, in contrast with usual findings related to COVID-19 infection. Blood test still showed increase plasmatic transaminase concentration in 3 out of 5 patients, one having increased serum bilirubin as well. We performed SERPINA1 genetic testing showing homozygosity for SERPINA1 pathogenic mutations (c.193del and c.875C>T, respectively) in all 5 patients. Conclusion(s): These cases showed the importance of genetic testing for patients with unexplained severe COVID-19 infection. Genetic testing allowed the diagnosis of cases affected by alpha 1 antitrypsin deficiency, associated with dysventilatory obstructive syndrome, that may worsen the short and long term prognosis of COVID-19.
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Coronavirus disease 2019 (COVID-19) has emerged as a pandemic leading to unprecedented disruption of global health and economy. Countries with a large population of European/Hispanic ancestry have been found to have the highest COVID-19 related case fatality rates. This prompted us with an interesting question that whether host immune programming and host genetic modifiers might be responsible for the higher mortality rate in these ethnicities. Transmembrane protease serine 2 (TMPRSS2) is critical in priming the viral spike protein and the host ACE2 receptor before the virus enters into the host cell. Recent results from the COVID-19 Host Genetics Initiative identified ELF5 rs766826 as a protective factor to severe COVID-19 which decreases the expression of TMPRSS2. Moreover, multiple studies have experimentally demonstrated that alpha 1 antitrypsin (A1AT) (encoded by SERPINA1 gene) is an inhibitor of TMPRSS2 and provided support to the already approved therapy as a candidate for COVID-19. Interestingly A1AT deficiency is common among Europeans and Latinos. We have also analyzed the gnomAD dataset to show that Europeans and Latinos have a substantially higher carrier frequency of AlAT deficiency (~12%) compared to other large ethnicities. A1AT has the dual role of an antiviral and anti-inflammatory molecule for treating COVID-19. To date, eight clinical trials have been started to find out the effectiveness of A1AT in COVID-19. Low A1AT level in severe COVID-19 has also been found to be a poor prognostic marker. © The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG 2022.
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Alpha-1-antitrypsin (AAT), a serine protease inhibitor (serpin), is increasingly recognized to inhibit SARS-CoV-2 infection and counter many of the pathogenic mechanisms of COVID-19. Herein, we reviewed the epidemiologic evidence, the molecular mechanisms, and the clinical evidence that support this paradigm. As background to our discussion, we first examined the basic mechanism of SARS-CoV-2 infection and contend that despite the availability of vaccines and anti-viral agents, COVID-19 remains problematic due to viral evolution. We next underscored that measures to prevent severe COVID-19 currently exists but teeters on a balance and that current treatment for severe COVID-19 remains grossly suboptimal. We then reviewed the epidemiologic and clinical evidence that AAT deficiency increases risk of COVID-19 infection and of more severe disease, and the experimental evidence that AAT inhibits cell surface transmembrane protease 2 (TMPRSS2) - a host serine protease required for SARS-CoV-2 entry into cells - and that this inhibition may be augmented by heparin. We also elaborated on the panoply of other activities of AAT (and heparin) that could mitigate severity of COVID-19. Finally, we evaluated the available clinical evidence for AAT treatment of COVID-19.
Subject(s)
COVID-19 , alpha 1-Antitrypsin Deficiency , Humans , Heparin , Molecular Epidemiology , SARS-CoV-2ABSTRACT
Introduction: Syphilis is a multi-systemic disease caused by spirochete Treponema pallidum. Very rarely, it can affect the liver and cause hepatitis. Since most cases of hepatitis are caused by viral illnesses, syphilitic hepatitis can be missed. Here, we present a case of syphilitic hepatitis in a 35-year-old male. Case Description/Methods: Patient was a 35-year-old male who presented to the hospital for jaundice and mild intermittent right upper quadrant abdominal pain. His medical history was only significant for alcohol abuse. His last drink was 4 weeks ago. He was sexually active with men. On exam, hepatomegaly, mild tenderness in the right upper quadrant, jaundice, and fine macular rash on both hands and feet were noted. Lab tests revealed an ALT of 965 U/L, AST of 404 U/L, ALP of 1056 U/L, total bilirubin of 9.5 mg/dL, direct bilirubin of 6.5 mg/dL, INR of 0.96, and albumin of 2.0 g/dL. Right upper quadrant ultrasound showed an enlarged liver but was negative for gallstones and hepatic vein thrombosis. MRI of the abdomen showed periportal edema consistent with hepatitis without any gallstones, masses, or common bile duct dilation. HIV viral load and Hepatitis C viral RNA were undetectable. Hepatitis A & B serologies were indicative of prior immunization. Hepatitis E serology and SARS-CoV-2 PCR were negative. Ferritin level was 177 ng/mL. Alpha-1-antitrypsin levels and ceruloplasmin levels were normal. Anti-Smooth muscle antibody titers were slightly elevated at 1:80 (Normal < 1:20). Anti-Mitochondrial antibody levels were also slightly elevated at 47.9 units (Normal < 25 units). RPR titer was 1:32 and fluorescent treponemal antibody test was reactive which confirmed the diagnosis of syphilis. Liver biopsy was then performed which showed presence of mixed inflammatory cells without any granulomas which is consistent with other cases of syphilitic hepatitis. Immunohistochemical stain was negative for treponemes. Patient was treated with penicillin and did have Jarisch-Herxheimer reaction. ALT, AST, ALP, and total bilirubin down trended after treatment. Repeat tests drawn exactly 1 month post treatment showed normal levels of ALT, AST, ALP, and total bilirubin (Figure). Discussion(s): Liver damage can occur in syphilis and can easily be missed because of the non-specific nature of presenting symptoms. In our patient, the fine macular rash on both hands and feet along with history of sexual activity with men prompted us to test for syphilis which ultimately led to diagnosis and treatment in a timely manner. (Figure Presented).
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Introduction: In the US there has been a recent outbreak of adenovirus hepatitis in the pediatric population. However, to our knowledge, there has been only one reported case of adenovirus hepatitis in an immunocompetent adult. We have identified another such case. Case Description/Methods: A 25 year old female with no medical history presented with abdominal pain, nausea, vomiting, diarrhea, and subjective fevers for two weeks and was found to have transaminitis 25-30x the upper limit of normal, which were: AST 791, ALT 542, ALP 92, and total bilirubin of 2.9. The patient reported no prior history of liver disease. She denied alcohol, tobacco, illicit drugs, or herbal medications, but did report taking acetaminophen 1500 mg daily for two weeks. Serum acetaminophen levels were normal and serum and urine toxicology were negative. US with doppler was unremarkable, CT showed cholelithiasis, MRCP showed a normal common bile duct without obstructive calculus. Autoimmune causes of hepatitis, ceruloplasmin and alpha-1 antitrypsin were all unremarkable. HAV, HBV, HCV, HDV, HEV, CMV, HSV, VZV, EBV, HIV, and COVID19 were all negative. Ultimately, the serology for adenovirus was positive. After a week of supportive treatment, the patient's labs trended down and symptoms resolved. Discussion(s): Adenovirus is confirmed by a rise in antibody titer or by virus detection. Coagulative necrosis in histopathology is a finding in liver biopsies if they are pursued in unexplained cases of liver injury. Ultimately, adenovirus hepatitis can be diagnosed once all common causes of hepatitis have been excluded. In the current outbreak, only children have been getting adenovirus hepatitis. In adults, a high prevalence of neutralizing antibodies contributes to immunity, and therefore only in immunocompromised states, do adults get such an infection. Supportive care with IV fluids, electrolyte correction, and antiemetics usually is enough with eventual symptomatic and laboratory improvement as it was for our patient. Studies have shown that extensive disease can be treated with antiviral drugs, cidofovir, and ribavirin. Our patient's history of acetaminophen use is a confounder, however, her normal serum level and her symptoms suggestive of an infectious cause made acetaminophen less of a culprit. We hypothesize that our patient's use of acetaminophen when she was initially exposed to the virus is what made her susceptible to developing adenovirus hepatitis and we hope this case adds insight for clinicians dealing with future adult cases.
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Since the onset of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic, numerous sequelae of this devastating virus have come to light. One organ known to be impacted by SARS-CoV-2 is the liver, as many SARS-CoV-2 patients demonstrate elevated liver enzymes on routine laboratory tests. In this case report, we present a patient with SARS-CoV-2 whose liver enzymes remained persistently elevated throughout his hospitalization. Due to the duration of his elevated liver enzymes, etiologies outside of SARS-CoV-2 were explored. This workup revealed that the patient had alpha-1 antitrypsin (A1AT) deficiency. Thus, this case serves to remind clinicians to continue investigating lab abnormalities despite a presumed etiology, such as SARS-CoV-2, so as not to miss the presentation of new diagnoses.
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Aim. To study the effect of inhalation therapy with an active hydrogen (AH) on the protein composition of exhaled breath condensate (EBC) in patients with post-COVID syndrome (PCS). Material and methods. This randomized controlled parallel prospective study included 60 patients after coronavirus disease 2019 (COVID-19) with PCS during the recovery period and clinical manifestations of chronic fatigue syndrome who received standard therapy according to the protocol for managing patients with chronic fatigue syndrome (CFS). The patients were divided into 2 groups: group 1 (main) - 30 people who received standard therapy and AH inhalations (SUISONIA, Japan) for 10 days, and group 2 (control) - 30 medical workers who received only standard therapy. Patients in both groups were comparable in sex and mean age. All participants in the study were sampled with EBC on days 1 and 10. Samples were subjected to tryptic digestion and high-performance liquid chromatography combined with tandem mass spectrometry analysis using a nanoflow chromatograph (Dionex 3000) in tandem with a high-resolution time-of-flight mass spectrometer (timsTOF Pro). Results. A total of 478 proteins and 1350 peptides were identified using high resolution mass spectrometry. The number of proteins in samples after AH therapy, on average, is 12% more than before treatment. An analysis of the distribution of proteins in different groups of patients showed that only half of these proteins (112) are common for all groups of samples and are detected in EBC before, after, and regardless of hydrogen therapy. In addition to the qualitative difference in the EBC protein compositions in different groups, quantitative changes in the concentration of 36 proteins (mainly structural and protective) were also revealed, which together made it possible to reliably distinguish between subgroups before and after treatment. It is worth noting that among these proteins there are participants of blood coagulation (alpha-1-antitrypsin), chemokine- and cytokine-mediated inflammation, and a number of signaling pathways (cytoplasmic actin 2), response to oxidative stress (thioredoxin), glycolysis (glyceraldehyde-3- phosphate dehydrogenase), etc. Conclusion. The use of hydrogen therapy can contribute to the switching of a number of physiological processes, which may affect the success of recovery in PCS patients. In particular, the obtained results indicate the activation of aerobic synthesis of adenosine triphosphate in mitochondria by hydrogen therapy, which correlates well with the decrease in the blood lactate level detected by laboratory studies. At the same time, this therapy can inhibit pro-inflammatory activity, negatively affecting the coagulation and signaling pathways of integrins and apoptosis, and, in addition, activate protective pathways, tricarboxylic acid cycle, FAS signaling, and purine metabolism, which may be essential for effective recovery after COVID-19.Copyright © 2023 Vserossiiskoe Obshchestvo Kardiologov. All rights reserved.
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Background: Immune-mediated lung injury and complex changes of the immune system, such as lymphopenia and cytokine storm, that have been associated with adverse outcomes underlining a fundamental role of host response in severe acute respiratory syndrome coronavirus 2 infection and the pathogenesis of the disease. Thymosin alpha 1 (Ta1) is one of the molecules used in the management of COVID-19, because it is known to restore the homeostasis of the immune system during infections and cancer. Aim(s): To study the impact of thymosin alpha on the biochemical markers and mortality in covid 19 patients. Methodology: A retrospective, single-centred study including 127 patients with laboratory detected moderate to severe SARS-CoV-2 infection admitted to designated COVID-19 centre in a tertiary care hospital from September 2021 to March 2022 was done. 52 patients received thymosin alpha 1 and their results were compared with 75 patients who received standard care without thymosin alpha. Clinical records, laboratory data, and radiological findings were analysed of patients treated with thymosin alpha 1 to evaluate the role of treatment outcome. Result(s): hospital mortality was 7.6% (n = 4) in the thymosin group as compared to 9.3% (n = 7) in the non-thymosin group. 40 patients in the thymosin group had increased CRP levels on day 1 as compared to 61 in the non-thymosin group. On day 5, 11 patients in thymosin group had increased levels as compared to 47 patients in the nonthymosin group with a significant p-value of<0.001. Statistically significant results were obtained on day 10, only 7 patients in the thymosin group had increased levels as compared to 30 in the nonthymosin group. On day 1, 46 patients in the thymosin group had increased level of IL-6 as compared to 53 in the non-thymosin group. Serial monitoring on day 5 showed that in thymosin group, 18 patients had increased levels as compared to 44 patients in the non-thymosin group (with a significant of<0.05). Again, on day 1difference was statistically significant when in thymosin group only 5 patients had elevated levels as compared to 23 in non-thymosin group. Conclusion(s): Significant difference was seen in terms of biochemical parameters but that could not be translated in clinical improvement in terms of mortality rates.
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Background: Severe COVID-19 is less common in children than in adults. Increasing evidence show that distinct immune-pathological changes can persist weeks or months after SARS-CoV2 infection, leading to Long COVID (LC). We investigated the systemic type I/III interferon (IFN-I/III) and inflammation response in peripheral blood mononuclear cells (PBMCs) of children with and without LC symptoms. Method(s): Blood samples were collected from children attending Umberto I hospital of Rome, within 3-6 months after a SARS-CoV-2 positive test and from control children. RNA was extracted from PBMCs for determining the levels of IFN-I (IFN-Alpha2, -Beta, -Epsilon and -Omega), IFN-III (IFN-Lambda1-3), NLRP3 and IL-1beta genes, and miR-141 expression by quantitative RealTime-PCR assays, normalized to housekeeping GUS gene and RNU6B, respectively. Result(s): 28 participants (M 12.5y SD 3.0) with LC symptoms, 28 participants (M 11.8y SD 3.0) without LC symptoms and 18 children who've never had SARS-CoV- 2 infection (M 10.5y SD 3.1) were enrolled. Comparing the three study groups, we found reduced levels of IFN-Lambda1, IFN-Lambda2 and IFN-Lambda3 (p=0.006, p< 0.001, p=0.012, respectively;Kruskal-Wallis (KW) test) mRNA in patients who have had SARS-CoV-2 infection as opposed to control group, whereas transcript levels of IFN-Epsilon (p= 0.019;KW test) were increased in the former with respect to the latter group;as well, remaining IFN-I genes analyzed showed a tendency to be up-regulated. As far as NLRP3 and IL-1beta levels was concerned, these genes were increased in LC patients (p< 0.001 for both genes;KW test). Additionally, miR-141, which has been reported to regulate inflammasome response, was overexpressed in LC patients (p< 0.001;Mann-Whitney test). Conclusion(s): These results showed a decreased levels of IFN-III mRNAs and an overexpression of IFN-Epsilon in children after 3-6 months of SARS-CoV-2 infection regardless of development of LC symptoms, suggesting that SARSCoV- 2 could have caused dysregulation of IFN response through unknown mechanisms (e.g. epigenetic modifications). Also, we found an overexpression of miR-141, NLRP3 and IL-1beta mRNAs in LC patients, indicating that a prolonged activation of inflammasome pathways could be associated with the development of LC symptoms.
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Hyperglycemia with or without blood glucose in diabetes range is an emerging finding not uncommonly encountered in patients with COVID-19. This work is to investigate the association between serum alpha-1-antitrypsin, hyperglycemia, and clinical outcomes in COVID-19, and community-acquired pneumonia, gastric cancer and renal cell carcinoma. Alpha-1-antitrypsin levels in serum was determined by the immunoturbidimetric method. We have set the level of alpha-1-antitrypsin in patients with community-acquired pneumonia and COVID-19 with or without hyperglycemia. Levels of alpha-1-antitrypsin in COVID-19 patients with hyperglycemia who survived > those who did not survive. Concentration of alpha-1-antitrypsin levels in COVID-19 men-patients with hyperglycemia who survived was significantly higher than compared with COVID-19 women-patients with hyperglycemia who survived. The obtained data convincingly demonstrate the value of testing the level of alpha-1-antitrypsin in the blood as one of the important indicators of the effectiveness of cancer diagnosis and prognosis.
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Background. Thymosin-alpha-1 (T alpha 1) may be a treatment option for coronavirus disease 2019 (COVID-19), but efficacy and safety data remain limited. Methods. Prospective, open-label, randomized trial assessing preliminary efficacy and safety of thymalfasin (synthetic form of T alpha 1), compared with the standard of care, among hospitalized patients with hypoxemia and lymphocytopenia due to COVID-19. Results. A total of 49 patients were included in this analysis. Compared with control patients, the incidence of clinical recovery was higher for treated patients with either baseline low-flow oxygen (subdistribution hazard ratio, 1.48 [95% confidence interval, .68-3.25] ) or baseline high-flow oxygen (1.28 [.35-4.63]), although neither difference was significant. Among patients with baseline low-flow oxygen, treated patients, compared with control patients, had an average difference of 3.84 times more CD4(+) T cells on day 5 than on day 1 (P = .01). Nine serious adverse events among treated patients were deemed not related to T alpha 1. Conclusions. T alpha 1 increases CD4(+) T-cell count among patients with baseline low-flow oxygen support faster than the standard of care and may have a role in the management of hospitalized patients with hypoxemia and lymphocytopenia due to COVID-19.
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Alpha-1 antitrypsin deficiency (AATD) is a genetic disorder that manifests as lung and/or liver disease. Because symptoms of AATD overlap with those of common pulmonary and hepatic conditions, AATD is often misdiagnosed, which has resulted in substantial underdiagnosis of AATD worldwide. Although screening patients for AATD is recommended, the lack of procedures to facilitate testing remains a barrier to accurate diagnosis of AATD. Delays in AATD diagnosis can worsen outcomes for patients by postponing appropriate disease-modifying treatments. Patients with AATD-related lung disease experience symptoms similar to other obstructive lung disorders and are often misdiagnosed for years. In addition to existing screening guidelines, we recommend that screening for AATD become a standard part of allergists' workups of patients with asthma and fixed obstructive disease, chronic obstructive pulmonary disease, bronchiectasis without known origin, and patients under consideration for treatment with biologics. This Rostrum article reviews screening and diagnostic tests available in the United States and emphasizes evidence-based strategies to increase testing frequency and improve AATD detection rates. We underscore the pivotal role of allergists in managing care for patients with AATD. Finally, we urge health care providers to be aware of potentially poor clinical outcomes among patients with AATD during the coronavirus disease 2019 pandemic.
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Biomarker detection has attracted increasing interest in recent years due to the minimally or non-invasive sampling process. Single entity analysis of biomarkers is expected to provide real-time and accurate biological information for early disease diagnosis and prognosis, which is critical to the effective disease treatment and is also important in personalized medicine. As an innovative single entity analysis method, nanopore sensing is a pioneering single-molecule detection technique that is widely used in analytical bioanalytical fields. In this review, we overview the recent progress of nanopore biomarker detection as new approaches to disease diagnosis. In highlighted studies, nanopore was focusing on detecting biomarkers of different categories of communicable and noncommunicable diseases, such as pandemic COVID-19, AIDS, cancers, neurologic diseases, etc. Various sensitive and selective nanopore detecting strategies for different types of biomarkers are summarized. In addition, the challenges, opportunities, and direction for future development of nanopore-based biomarker sensors are also discussed.Copyright © 2023 Elsevier B.V.
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SARS-CoV-2 infected patients show heterogeneous clinical presentations ranging from mild symptoms to severe respiratory failure and death. Consequently, various markers reflect certain disease presentations. Our cohort included moderate (n = 10) and severe (n = 10) COVID-19 patients, and 10 healthy controls. We determined plasma levels of nine acute phase proteins by nephelometry, full-length (M65), caspase-cleaved (M30) cytokeratin 18, and ADAMTS13 (a disintegrin-like and metalloprotease with thrombospondin type-1 motif 13) by ELISA. In addition, we examined whole plasma N-glycosylation by capillary gel electrophoresis coupled to laser-induced fluorescence detection. When compared to healthy controls, COVID-19 patients had significantly lower concentrations of ADAMTS13 and albumin (ALB) but higher M30, M65, alpha-1-acid glycoprotein, alpha1-antitrypsin (AAT), ceruloplasmin, haptoglobin, and highsensitivity C-reactive protein. The concentrations of alpha1-antichymotrypsin, alpha2-macroglobulin and serum amyloid A proteins did not differ. We found significantly higher levels of AAT and M65 but lower ALB in severe compared to moderate COVID-19 patients. N-glycan analysis of the serum proteome revealed increased levels of oligomannose and sialylated di-antennary glycans, while the non-sialylated di-antennary glycan A2G2 significantly decreased in COVID-19 patients compared to controls. COVID-19-associated changes in levels and N-glycosylation of specific plasma proteins highlight involvement of different pathophysiological mechanisms and grant further investigations.
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Recombinant trimeric SARS-CoV-2 Spike protein with PIKA (polyI:C) adjuvant induces potent and durable neutralizing antibodies that protect against multiple SARS-CoV-2 variants. The immunoglobulin subclasses of viral-specific antibodies remain unknown, as do their glycosylation status on Fc regions. In this study, we analyzed immunoglobulins adsorbed by plate-bound recombinant trimeric SARS-CoV-2 Spike protein from serum of Cynomolgus monkey immunized by recombinant trimeric SARS-CoV-2 Spike protein with PIKA (polyI:C) adjuvant. The results showed that IgG1 was the dominant IgG subclass as revealed by ion mobility mass spectrometry. The average percentage of Spike protein-specific IgG1 increased to 88.3% as compared to pre-immunization. Core fucosylation for Fc glycopeptide of Spike protein-specific IgG1 was found to be higher than 98%. These results indicate that a unique Th1-biased, IgG1-dominant antibody response was responsible for the effectiveness of PIKA (polyI:C) adjuvant. Vaccine-induced core-fucosylation of IgG1 Fc region may reduce incidence of severe COVID-19 disease associated with overstimulation of FCGR3A by afucosylated IgG1.
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Background: To search for molecular biomarkers of pulmonary pathologies using non-invasive samples, such as urine, is of high clinical relevance. However, there are almost no proteomic studies using urine applied to respiratory diseases. Aim(s): To develop a biomarker discovery strategy using non-targeted proteomics in urine with applicability to different pulmonary diseases. Method(s): Urine samples were centrifuged and DTT treated to decrease uromodulin (THP). Low-THP samples were concentrated (ultrafiltration), ultracentrifugated, and exosome free urine was analysed using LC-MS/MS. GO terms/Pathway analyses were performed using STRING database. Result(s): Urine proteome (765 proteins) was enriched (FDR < 0.05) in proteins from different tissues, including respiratory system (N = 124), lung (N = 107), and immune system (N = 88). We detected an enrichment of relevant pathways for respiratory diseases, including several innate (e.g., TLR and NFkB pathways, complement system), and adaptive (e.g., interleukin signalling) immune system pathways. Some of these proteins have been previously studied in respiratory system disease (e.g., MPO, NAPSA, CHL1, FREM2, PLG), lower respiratory tract disease (e.g., NCAM1, MTOR, SERPINA1), viral infectious disease (e.g., ITIH4, CD209, CLEC4M, CD55), or specific pathologies such as coronavirus infection (e.g., ACE2, TMPRSS2), bronchiectasis (e.g., SAA1, SAA2, ELANE) or asthma (e.g., IGFALS, IGFBP7, HSPG2, DPP4, CD44, IL6R, MASP1). Conclusion(s): We have developed a protocol for the detection of proteomic biomarkers in urine. This proteome is enriched in proteins from the immune and respiratory systems, with a potential clinical and translational relevance.
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Diagnosis of alpha1-antitrypsin deficiency, a rare genetic disorder, consists of biochemical serum analysis to evaluate protein deficiency and electrophoretic abnormalities, as well as genetic analysis to identify SERPINA1 gene variants responsible for the protein deficiency. In majority of European countries diagnostic is centralized, blood and/or DNA samples are referred to dedicated reference laboratories. We aimed at analyzing data reported by the 8 leading European centers (AATD LABnet part of the EARCO ERS CRC and ERN-LUNG activities) to assess the effect of COVID-19 pandemic and healthcare disruption on the AATD diagnostic provision. In total, the number of tests dropped in 2020 vs 2019 by -20,43% (+/-13,25) for AAT concentration analysis, -25,5% (+/-12,79) for AAT phenotyping and -23,57% (+/-10,28) for SERPINA1 genotyping, while in 2021 vs 2019 by respectively -16,86% (+/-21,34), -9,2% (+/-30,38), -13,57% (+/-40,82). Specifically, diagnostics in Poland and Italy were affected the most with -48% and -28% fewer samples analyzed (2021 vs 2019, phenotyping), while in France and Portugal referrals recovered by the end of 2021, with + 18% and +29% respectively (2021 vs 2019, genotyping). Disorganization of healthcare provision due to the COVID-19 pandemic severely disrupted AATD diagnostics in Europe. In some countries the detrimental effect was temporary, while in others it continued in 2021.
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Background Patients with hypoplastic left heart syndrome (HLHS) undergo a Fontan procedure as part of single ventricle surgical palliation. Post-Fontan, sluggish blood flow and an imbalance in coagulant factor proteins may predispose to thrombus formation. Other risk factors may include chylothorax as well as acute and chronic inflammation. Currently, there is no standardized surveillance strategy to detect thrombus in Fontan patients. Case A 34-month old male with HLHS underwent an extracardiac non-fenestrated Fontan complicated by chylothorax treated with 5 days of IV steroids and diuretics. He was on therapeutic aspirin. After progressive worsening of right pleural effusion, a chest tube was placed three weeks post-Fontan with continued chylous output. Stool alpha 1 antitrypsin was negative. Decision-making Given persistent chylothorax, a repeat echocardiogram was performed revealing a large mass in the Fontan circuit less than one month post-op. Cardiac CT showed occlusive thrombus filling the entirety of the Fontan conduit extending into hepatic veins and bilateral pulmonary arteries. He underwent extensive surgical thrombectomy and Fontan conduit revision. Hypercoagulable work-up revealed elevated factor 8 and von Willebrand factor activity which persisted more than one month post-op. Patient's history was also significant for COVID-19 infection 6 months prior. He was initially anticoagulated with bivalirudin with tirofiban initiated for antiplatelet therapy. He was ultimately transitioned to rivaroxaban, pentoxifylline and aspirin with chylothorax resolution over one month without thrombus recurrence. Conclusion Development of risk stratification tools to identify patients at higher risk for thrombi formation post-Fontan may facilitate patient selection for more aggressive anticoagulation. Consideration of elevated factor 8 as well as persistent or recurrent chylothorax may be beneficial, as increased thrombosis risk has been reported for both conditions in Fontan patients.Copyright © 2023 American College of Cardiology Foundation
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Neutrophils (Neu) play a pathogenic role in COVID19 by releasing Neutrophils Extracellular Traps (NETs) or HNE. Being HNE inhibited by a1AT, supplementation of this protein has been proposed. We aim to study a1AT/HNE balance in BALf from ICU admitted COVID19 patients. To assess HNE, a1AT and HNE/a1AT complexes, 33 COVID 19 BALf samples were analysed by means of ELISA or gel-Electrophoresis + Western Blot. Proteins bound to a1AT or HNE were identified by Liquid chromatography-mass spectrometry. NETs release (PMA stimulated Neu +/- a1AT) was analysed by confocal microscopy. Both HNE and a1AT were clearly detectable in BALf at high levels. Contrary to what previously observed in other settings (Bronchiolits obliterans) (Cagnone, M. et al. High Throughput 2019;8(1):5) we couldn't detect any HNE/ a1AT complex in COVID19 even when purified HNE was added to samples (Fig 1a). HNE was found to be bound to acute phase proteins, histones and C3. Due to the relevant role of NETs, we assessed the ability of free a1AT to bind to histones. Although this binding was confirmed, a1AT wasn't able to inhibit NETs formation (Fig 1b). Despite the finding of a high burden of free and bound HNE in COVID 19 BALf, the formation of HNE/ a1AT inhibitory complex is prevented. Furthermore, a1AT binds to histones but does not prevent NETs formation and their noxious activity.