Spontaneous Gastro-pancreatic Fistula: A Rare Complication of Acute Pancreatitis

Introduction: Although Gastrointestinal fistula is a well-recognized complication of acute pancreatitis, it has been rarely reported. Here we present a rare case of spontaneous gastro-pancreatic fistula following acute pancreatitis. Case Description/Methods: 42 y/o female with PMH of SLE with a recent prolonged hospitalization for acute drug-induced pancreatitis with pseudocyst came to ED with fever, abdominal pain, nausea, and vomiting. She was tachycardic, had leukocytosis, and was positive for COVID-19. CT Scan A/P showed multiple infected peripancreatic collections with communication of the left upper quadrant collection with the gastric lumen (Figure). The patient was hospitalized, Kept NPO, and started on fluids and antibiotics. IR evaluated and put 2 pigtail catheters for drainage of peripancreatic collections. The tip of the pigtail catheter in the left peripancreatic/retroperitoneal collection was in the gastric lumen. The surgery team recommended continuing with conservative treatment with parenteral nutrition, and IV antibiotics as the patient were nontoxic with no signs of free perforation, and pancreatitis would more likely erode a staple or suture line and would put the patient at further risk of free perforation if repair attempted. IR was successful in pulling the drain out of the gastric lumen on the second attempt to allow gastric perforation to heal. Antibiotics were upgraded as per the culture and sensitivity results of the drain fluid. Repeated multiple bedside leak tests and CT scans with oral contrast continue to be positive for patent gastro-pancreatic fistula. Pigtails catheter continues to drain significant necrotic collection. The patient continues to be hospitalized and is being managed conservatively with Parenteral nutrition, and IV antibiotics. Discussion(s): Fistula of the GI tract following acute pancreatitis can be caused by multiple reasons. Necrosis of the bowel may occur concomitantly with the pancreatic or peripancreatic tissue. Furthermore, enzyme-rich fluid and necrosis can lead to vascular thrombosis, which compromises the blood supply of the segmental GI tract, eventually leading to bowel necrosis. GI fistulas are more common in patients with necrotizing pancreatitis with infected pancreatic necrosis. Despite pharmacologic suppression of pancreatic exocrine secretion and advances in endoscopic and percutaneous therapeutic techniques, pancreatic fistula continues to be a source of morbidity and mortality following pancreatitis and requires multidisciplinary treatment.

AUTOPHAGY AND Acyl-CoA-BINDING PROTEIN INFLUENCE COVID-19 SEVERITY

Background: Autophagy, a cytosolic-structure degradation pathway, allows production of IL21 by CD4 T-cells and efficient cytolytic responses by CD8 T-cells. Autophagy is in part regulated by acyl-CoA-binding protein (ACBP) which has two functions. Intracellular ACBP favors autophagy, whereas secreted extracellular ACBP inhibits autophagy. Herein, we assessed whether autophagy and the ACBP pathway were associated with COVID-19 severity. Method(s): Through the BQC-19 Quebec biobank, somalogic proteomic analysis was performed on 5200 proteins in plasma samples collected between March 2020 and December 2021. Plasma from 903 patients (all data available) during the acute phase of COVID-19 were assessed. COVID-19 severity was stratified using WHO criteria. In vitro, ACBP intracellular levels, autophagy levels (LC3II) and IL21 production were assessed by flow in PBMCs after a 24h stimulation with IL6, phorbol myristate acetate (PMA)+ionomycin or lipopolysaccharide (LPS). Plasma levels of anti-SARS-CoV-2 (full spike protein or RBD) IgG were assessed by ELISA. Result(s): Median age of the cohort was 62 yo, 48% were female, 55% had comorbidities (see table). Increasing plasma levels of ACBP were found with severity (mild, moderate, severe and fatal groups having 5.3, 7.3, 9.5 and 10.6 RFU/50muL of plasma, respectively, p< 0.001 for all comparisons). Patients with comorbidities had higher plasma ACBP levels (7.4 vs 6.4 RFU/50muL, p< 0.001). Plasma ACBP levels were higher during the delta and omicron-variant periods (8.4 vs 6.8 RFU/50muL;p< 0.001). Plasma ACBP levels correlated with LC3II levels (r=0.51, P< 0.001) and IL6 (r=0.41, p< 0.001), but neither with markers IL1beta nor IL8. ACBP levels negatively correlated with IL21 levels (r=-0.27, p< 0.001), independently of age, sex, and severity. ACBP levels were not associated with levels of anti-SARS-CoV-2 IgG levels. In vitro, IL6 stimulation of healthy control PBMC induced extracellular ACBP release. Moreover, adding recombinant ACBP: 1) reduced autophagy in lymphocytes and monocytes upon polyclonal stimulation with PMA/ionomycin or LPS;2) reduced intracellular production of IL21 in T-cells after PMA/ ionomycin stimulation. Conclusion(s): Plasma ACBP levels were inversely linked with IL21 levels, suggesting that autophagy and IL21 allow control of SARS-CoV-2 infection, independently of the level of SARS-CoV-2 antibody secretion. ACBP is a targetable autophagy checkpoint and its extracellular inhibition may improve SARS-CoV-2 immune control. (Table Presented).

Hyponatremia in COVID-19 Is Not Always Syndrome of Inappropriate Secretion of Antidiuretic Hormone (SIADH): A Case Series.

Hyponatremia is a common complication in COVID-19-positive patients and is associated with significant mortality and morbidity. Several cases of COVID-19-related hyponatremia secondary to the Syndrome of Inappropriate Secretion of Antidiuretic Hormone (SIADH) have been reported in the literature, which might suggest that SIADH is almost always the underlying cause of hyponatremia in COVID-19 infections. However, COVID-19-related hyponatremia can have diverse underlying etiologies, similar to hyponatremia in non-COVID-19 patients, and requires a thorough assessment to reach a correct diagnosis and implement appropriate management.

Transcriptome Profiling in Autoimmune Diseases

Autoimmune diseases are a group of different inflammatory disorders characterized by systemic or localized inflammation, affecting approximately 0.1–1% of the general population. Several studies suggest that genetic risk loci are shared between different autoimmune diseases and pathogenic mechanisms may also be shared. The strategy of performing differential gene expression profiles in autoimmune disorders has unveiled new transcripts that may be shared among these disorders. Microarray technology and bioinformatics offer the most comprehensive molecular evaluations and it is widely used to understand the changes in gene expression in specific organs or in peripheral blood cells. The major goal of transcriptome studies is the identification of specific biomarkers for different diseases. It is believed that such knowledge will contribute to the development of new drugs, new strategies for early diagnosis, avoiding tissue autoimmune destruction, or even preventing the development of autoimmune disease. In this review, we primarily focused on the transcription profiles of three typical autoimmune disorders, including type 1 diabetes mellitus (destruction of pancreatic islet beta cells), systemic lupus erythematosus (immune complex systemic disorder affecting several organs and tissues), and multiple sclerosis (inflammatory and demyelinating disease of the nervous system). © The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG 2014, 2022.

Post-translational modifications: Host defence mechanism, pathogenic weapon, and emerged target of anti-infective drugs

Post-translational modifications are changes introduced to proteins after their translation. They are the means to generate molecular diversity, expand protein function, control catalytic activity and trigger quick responses to a wide range of stimuli. Moreover, they regulate numerous biological processes, including pathogen invasion and host defence mechanisms. It is well established that bacteria and viruses utilize post-translational modifications on their own or their host's proteins to advance their pathogenicity. Doing so, they evade immune responses, target signaling pathways and manipulate host cytoskeleton to achieve survival, replication and propagation. Many bacterial species secrete virulence factors into the host and mediate hostpathogen interactions by inducing post-translational modifications that subvert fundamental cellular processes. Viral pathogens also utilize post translational modifications in order to overcome the host defence mechanisms and hijack its cellular machinery for their replication and propagation. For example, many coronavirus proteins are modified to achieve host invasion, evasion of immune responses and utilization of the host translational machinery. PTMs are also considered potential targets for the development of novel therapeutics from natural products with antibiotic properties, like lasso peptides and lantibiotics. The last decade, significant progress was made in understanding the mechanisms that govern PTMs and mediate regulation of protein structure and function. This urges the identification of relevant molecular targets, the design of specific drugs and the discovery of PTM-based medicine. Therefore, PTMs emerge as a highly promising field for the investigation and discovery of new therapeutics for many infectious diseases.Copyright © 2021 Bentham Science Publishers.

Guillain-Barre syndrome following COVID-19 vaccination: a case report and an updated review

Background: Coronavirus disease-2019 (COVID-19) has caused a pandemic that has recently affected every aspect of life. Fortunately, many vaccines with high safety and efficacy profiles were developed timely to face this pandemic. In a very short time, billions of people were vaccinated. In the meantime, a wide range of neurological syndromes are being reported. Guillain-Barre syndrome (GBS) which is a rare immune-mediated post-infectious peripheral neuropathy was reported after both the COVID-19 infection itself and many types of its vaccines. Method(s): We are reporting a case of post-AstraZeneca vaccine GBS and reviewing the literature of all reported post-COVID-19 vaccines GBS till July 2021. Result(s): 29 adult patients were reported. Of them 58.6% were males. Their mean age is 58.2 years. The median time to clinical onset after vaccine administration was 13.2 days. 86.2% of patients had their symptoms following immunization with the 1st dose of AstraZeneca vector-based covid vaccine. Facial palsy was the most predominant single symptom in 75.8% of patients. Conclusion(s): Guillain-Barre syndrome is a well-recognized but still rare adverse event following vaccination against COVID-19. Although preliminary data incriminates viral vector-based vaccines more than the other types, active post-vaccination surveillance and more powerful statistics are mandatory to reach a solid conclusion regarding the presence of a causal relation.Copyright © 2022

Molecular detection of plasmid-mediated quinolone resistance genes among clinical isolates of Klebsiella pneumoniae during Covid-19 pandemic

Plasmid-mediated quinolone resistance (PMQR) genes confer low resistance to Fluoroquinolones (FQs). This study aims to detect five PMQR genes among FQs-resistant Klebsiella pneumoniae isolated from various clinical specimens. Out of 120 K. pneumoniae isolates, 68 FQs-resistance K. pneumoniae were included in a molecular study. Standard microbiological tests were used for identification and antimicrobial susceptibility. For the detection of PMQR genes, conventional polymerase chain reaction was used. A molecular study revealed that (73.5%) of samples harbored PMQR genes, and among them, 58% were co-carriages of PMQR gene variants. Aac (6')-Ib-cr gene was predominant (47.1%) among samples, and qepA had the lowest percentage (11.8%), qnr genes were (32.4%) (29.4%) (20.6%) qnrS, qnrB, and qnrA respectively. Overall, high percentages of PMQR genes were detected, and almost all of samples were phenotypically resistant to ciprofloxacin. As well, there was a significant statistical relationship between phenotypically ESBL-producers and qnrB and qepA genes.Copyright © Abdulkareem MM et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC-BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Postprandial Thermogenesis Is Reduced in Obesity

Background and Aims: Postprandial thermogenesis is thought to be important for the control of metabolism. This process could be reflected by minute changes in body temperature after glucose load. In this study, we measured body temperature before and its change during a glucose challenge and investigated the relationships with anthropometric and glycemic traits. Methods: We prospectively studied 383 volunteers (251 females, 132 males) with a mean age of 46.6 (SD ± 16) years and a BMI of 27.9 kg/m2 (SD ± 5.9). All participants underwent a 75 g oral glucose tolerance test (OGTT) and repeated bilateral measurements of intra-auricular temperature at time points 0, 30 and 120 minutes during the OGTT using a tympanic thermometer (Covidien Genius 2). Results: Baseline temperature was 0.17°C lower in males compared to females (p = 0.001) and inversely associated with age (p < 0.0001). During the OGTT, there was a significant increase in body temperature (0.18 ± 0.34°C). This response was present in females and males. BMI was negatively associated with the increase of temperature during the OGTT (p = 0.0147). Participants with higher BMI displayed higher fasting temperatures, but less increase of temperature during the OGTT. Body temperature was not associated with glycemia, insulin sensitivity or insulin secretion, neither in females nor males. Conclusions: There is a robust increase in body temperature during a glucose load that can be captured by intra-auricular temperature measurements. We did not detect any associations of the body temperature with glucose metabolism, arguing against a major contribution of the variability of body temperature in the pathogenesis of diabetes. However, the rise in temperature in response to oral glucose is reduced in obesity and might therefore be involved in body weight regulation.

Challenges faced by anesthesiologists during the cesarean section of COVID-19 patients - an observational study

Background: The health-care system has encountered exceptional circumstances, experiencing unique challenges, and manifesting as acute challenges in health-care services due to the spread of COVID-19. Aims and Objectives: The present study aimed to report the difficulties faced by the anesthetists while performing a cesarean section under the subarachnoid block (SAB) in COVID-19 patients at a dedicated COVID Level 3 hospital. Materials and Methods: Twenty healthy anesthetists (six consultants and 14 postgraduate) aged 20-40 years performed 60 elective or emergency cesarean sections of known COVID-19-positive gravida patients aged 20-35 years with no comorbidity and no spine abnormality under the SAB. Anesthetist;s responses to the challenges faced while performing procedures wearing the Level 3 personal protective equipment were recorded using a pre-structure self-administered questionnaire. To quantify the intensity of these problems, all the physical and psychological difficulties were graded as mild, moderate, and severe. Results: In the present study, 75% experienced moderate-to-severe sweating, and 60% experienced moderate-to-severe headaches. A total of 45% experienced moderate-to-severe breathlessness. Though there was little difficulty in communication among doctors and staff, almost 75% of anesthetists faced it. The fear of contracting the disease and spreading it to the family members was expressed by 75-80% of anesthetists. Conclusion: The present scenario has increased physical stress and other psychological problems among health workers. Therefore, hospital support with regular psychological counseling sessions is needed for healthcare workers to cope with the current situation.

Recombinant Proteins for Assembling as Nano- and Micro-Scale Materials for Drug Delivery: A Host Comparative Overview.

By following simple protein engineering steps, recombinant proteins with promising applications in the field of drug delivery can be assembled in the form of functional materials of increasing complexity, either as nanoparticles or nanoparticle-leaking secretory microparticles. Among the suitable strategies for protein assembly, the use of histidine-rich tags in combination with coordinating divalent cations allows the construction of both categories of material out of pure polypeptide samples. Such molecular crosslinking results in chemically homogeneous protein particles with a defined composition, a fact that offers soft regulatory routes towards clinical applications for nanostructured protein-only drugs or for protein-based drug vehicles. Successes in the fabrication and final performance of these materials are expected, irrespective of the protein source. However, this fact has not yet been fully explored and confirmed. By taking the antigenic RBD domain of the SARS-CoV-2 spike glycoprotein as a model building block, we investigated the production of nanoparticles and secretory microparticles out of the versions of recombinant RBD produced by bacteria (Escherichia coli), insect cells (Sf9), and two different mammalian cell lines (namely HEK 293F and Expi293F). Although both functional nanoparticles and secretory microparticles were effectively generated in all cases, the technological and biological idiosyncrasy of each type of cell factory impacted the biophysical properties of the products. Therefore, the selection of a protein biofabrication platform is not irrelevant but instead is a significant factor in the upstream pipeline of protein assembly into supramolecular, complex, and functional materials.

Fungal infections in the ICU during the COVID-19 era

Aim of this study is to evaluate the incidence of fungal infections in COVID-19 intensive care unit (ICU) patients, to identify potential risk factors and to investigate whether differences in patients' outcomes are depicted. Material-Methods: This prospective observational study included critically ill patients diagnosed with COVID-19 that were admitted from 1/9/2020 to 1/11/2021 in ICU of the 1st Respiratory Department of Sotiria Chest Diseases Hospital. Epidemiologic characteristics, severity of disease, medication, outcome and complications were recorded. Result(s): Out of 300 patients included (213 men, 60,4+/-13,23 (mean+/-SD) years-old), 22 (7,3%) developed fungal infections (16 COVID-19 Associated Pulmonary Aspergillosis, 5 COVID-19 Associated Candidemia and 1 both). They were 6 female & 16 male, 55,73+/-13,28 years-old. Most patients had co-infections with multi-drug resistant bacteria. Patients with fungal infections were statistifically more on high dose of corticosteroids, invasive mechanical ventilation and renal replacement treatment (p<0.05). They had statistically more positive blood and bronchial secretion cultures, as well as more incidents of septic shock, venous thromboembolism and varotrauma (p<0.05). Their PaO2/FiO2 ratio on admission was statistically lower (p<0.05). Finally, after adjustment for confounfing factors and ICU days, they were at higher risk of dying (50% mortality). Conclusion(s): Fungal infections are a significant co-infection in critically ill COVID-19 patients. Those patients seem to have more severe respiratory failure on admission, be on higher doses of corticosteroids and in need of organ failure support. They also seem to develop more complications of COVID-19 and be at a higher risk of dying.

IDF2022-0635 Can COVID-19 infection provoke new-onset A-beta+ KPD (ketosis-prone diabetes)? - Insights from an Indian prospective study

Background COVID-19 as a trigger for A-beta+ ketosis-prone diabetes (KPD) [1,2] in previously normoglycemic individuals presenting with new-onset DKA, has been sparsely studied. Aim To study prospective changes in insulin secretion and insulin resistance in suspected A-beta+ KPD patients presenting with COVID-associated new-onset DKA. Method 22 previously non-diabetic, antibody-negative patients with new-onset DKA and RT-PCR positive COVID-19 (suspected A-beta + KPD), were followed up for one year. They were compared with 20 Type 1A and 18 Type 2 DM patients, with serial assessments (0,6 and 12 months) of insulin secretion rates (ISR) and multi-tissue insulin resistance (IR). 75-g OGTT with serial glucose, insulin and C-peptide estimation (0,15, 30,45, 60,90,120, 150 and 180 minutes) was used to derive IS, while hepatic and peripheral IR was calculated based on study by Ghani et al. [3]. Results At baseline, ISR in suspected KPD (n = 22) was significantly reduced but similar to Type 1A DM(p = 0.15). Serial ISR demonstrated complete recovery in 17 (77%) patients who became insulin independent at one-year follow-up (remission), while 5(23%) patients continued to require insulin (non-remission). KPD patients showed significant hepatic and peripheral IR at baseline compared to Type 1A DM (p < 0.05). The remission group (n = 17) showed significantly enhanced recovery of hepatic and peripheral insulin sensitivity at 6 and 12 months follow-up (all p < 0.01) compared to the non-remission (n = 5) group, with IR in the latter being comparable to Type 2 DM at follow-up (all p > 0.05). Younger age, lower BMI, initial severity of DKA and inflammation (IL-6 levels), along-with reduced 25-hydroxy-Vitamin-D levels were factors associated with poorer recovery of beta-cell secretion amongst the KPD patients. Conclusion This is the first prospective study to demonstrate progressive recovery of p-cell secretion in new-onset A-beta + KPD provoked by COVID-19 infection in Indian adults, with a distinctly different profile from Type 1A DM.Copyright © 2023 Elsevier B.V.

Delayed immunological reaction of Human Microvascular Lung Endothelium in response to Human Coronavirus 229E infection

Introduction: In the natural conditions first and major target for respiratory viruses (RVs) are epithelial cells. Nonetheless, recently we have demonstrated that RVs are able to infect not only epithelium, but also Human Microvascular Lung Endothelial Cells (HMVEC-L) which increased network is observed during severe asthma due to increased angiogenesis. Furthermore, on the surface of HMVEC-L we observed intense expression of aminopeptidase N (AP-N)- an entry receptor for Human Coronavirus 229E (HCoV-229E). Due to the facts, that possibility of being infected by HCoV-229E should be considered and there is no research based on this model the aim of this study was to assess the vulnerability of HMVEC-L to HCoV-229E infection. Method(s): HMVEC-L was incubated with HCoV-229E (MOI 0,1;1,0;3,0) for 3 hours, 3x PBS washed and cultured for 120 hours. In relevant time points (5;24;48;72;96 and 120h) viral copy number and mRNA expression of inflammatory, anti-viral and receptor factors were evaluated in Real-Time PCR. Confocal microscopy (CM) and flow cytometry (FACS) were used to measure AP-N surface expression. Result(s): FACS and CM confirmed intense surface expression of AP-N on HMVEC-L. HCoV-229E efficiently infected HMVEC-L (604 945,5 +/-194 930,2 viral copies/mul) in 48h cultures (MOI 0,1) and induced relatively late (between 72- 96h) mRNA expression of RANTES (1181,12);IL-6 (89,6);IFN-beta (53,7);OAS-1 (64,3);PKR (11,4) and TLR-3 (42,4). Increased mRNA expression was also accompanied by protein release to the supernatants. Conclusion(s): HCoV-229E may efficiently infect HMVEC-L and induce delayed inflammatory and anti-viral response.

Treatment of post-COVID-19 patients with chronic recurrent prostatitis: efficacy of recombinant interferon alpha-2b medications.

Introduction. The tactics of managing and treating patients with chronic recurrent bacterial prostatitis (CRBP) in some cases is a difficult-to-treat condition for a practicing urologist. This circumstance occurs because the disease has several predisposing factors, a complex and multifaceted pathogenesis, and certain difficulties in diagnosis and treatment. Objective. To study the effectiveness of recombinant interferon alpha-2b medications in post-COVID-19 patients with chronic recurrent prostatitis against the background of antibiotic multi-drug resistance of microorganisms verified in prostate secretion. Materials and methods. The treatment of 52 post-COVID-19 patients with CRBP was analyzed, divided into three therapy-dependent groups. Group 1 patients (n = 18) received antibiotic therapy (ABT): Levofloxacin 500 mg q.d. PO for 28 days. Group 2 patients (n = 18) underwent combined therapy: ABT supplemented with recombinant interferon alpha-2b with an antioxidant complex of vitamins E and C ("Viferon" rectal suppositories) 3.000.000 IU b.i.d. PR q12h for 28 days. Group 3 patients (n = 16) received monotherapy with recombinant interferon alpha-2b with an antioxidant complex of vitamins E and C ("Viferon"rectal suppositories) 3.000.000 IU b.i.d. PR q12h for 28 days. The follow-up period was 6 months with monitoring of clinical and laboratory parameters assessed before treatment, after 1, 3 and 6 months from the start of therapy. Results. Based on the monitoring of the clinical picture and laboratory parameters, after 1 follow-up month, there was a significant decrease in the symptoms of the disease in all study groups. However, after 3 and 6 follow-up months, this trend was observed only in patients of groups 2 and 3 receiving recombinant interferon alfa-2b with an antioxidant complex (vitamins E and C). Conclusions. Strengthening the standard CRBP-therapy with recombinant interferon alpha-2b with an antioxidant complex of vitamins E and C makes it possible to normalize both clinical and laboratory parameters in most patients.Copyright © Rostovskii Gosudarstvennyi Meditsinskii Universitet. All rights reserved.

Delivery of spike-RBD by bacterial type three secretion system for SARS-CoV-2 vaccine development.

COVID-19 pandemic continues to spread throughout the world with an urgent demand for a safe and protective vaccine to effectuate herd protection and control the spread of SARS-CoV-2. Here, we report the development of a bacterial vector COVID-19 vaccine (aPA-RBD) that carries the gene for the receptor-binding domain (RBD) of the SARS-CoV-2 spike protein. Live-attenuated strains of Pseudomonas aeruginosa (aPA) were constructed which express the recombinant RBD and effectively deliver RBD protein into various antigen presenting cells through bacterial type 3 secretion system (T3SS) in vitro. In mice, two-dose of intranasal aPA-RBD vaccinations elicited the development of RBD-specific serum IgG and IgM. Importantly, the sera from the immunized mice were able to neutralize host cell infections by SARS-CoV-2 pseudovirus as well as the authentic virus variants potently. T-cell responses of immunized mice were assessed by enzyme-linked immunospot (ELISPOT) and intracellular cytokine staining (ICS) assays. aPA-RBD vaccinations can elicit RBD-specific CD4+and CD8+T cell responses. T3SS-based RBD intracellular delivery heightens the efficiency of antigen presentation and enables the aPA-RBD vaccine to elicit CD8+T cell response. Thus, aPA vector has the potential as an inexpensive, readily manufactured, and respiratory tract vaccination route vaccine platform for other pathogens.

TMPRSS2 Impacts Cytokine Expression in Murine Dendritic Cells.

BACKGROUND: The transmembrane protease serine 2 (TMPRSS2) proteolytically activates the envelope proteins of several viruses for viral entry via membrane fusion and is therefore an interesting and promising target for the development of broad-spectrum antivirals. However, the use of a host protein as a target may lead to potential side effects, especially on the immune system. We examined the effect of a genetic deletion of TMPRSS2 on dendritic cells. METHODS: Bone marrow cells from wild-type (WT) and TMPRSS2-deficient mice (TMPRSS2-/-) were differentiated to plasmacytoid dendritic cells (pDCs) and classical DCs (cDCs) and activated with various toll-like receptor (TLR) agonists. We analyzed the released cytokines and the mRNA expression of chemokine receptors, TLR7, TLR9, IRF7 and TCF4 stimulation. RESULTS: In cDCs, the lack of TMPRSS2 led to an increase in IL12 and IFNγ in TLR7/8 agonist resiquimod or TLR 9 agonist ODN 1668-activated cells. Only IL-10 was reduced in TMPRSS2-/- cells in comparison to WT cells activated with ODN 1668. In resiquimod-activated pDCs, the lack of TMPRSS2 led to a decrease in IL-6, IL-10 and INFγ. ODN 1668 activation led to a reduction in IFNα. The effect on receptor expression in pDCs and cDCs was low. CONCLUSION: The effect of TMPRSS2 on pDCS and cDCs depends on the activated TLR, and TMPRSS2 seems to affect cytokine release differently in pDCs and cDCs. In cDCs, TMPRSS2 seems to suppress cytokine release, whereas in pDCS TMPRSS2 possibly mediates cytokine release.

Renal clearance of graphene oxide: glomerular filtration or tubular secretion and selective kidney injury association with its lateral dimension.

BACKGROUND: Renal excretion is one of the major routes of nanomaterial elimination from the body. Many previous studies have found that graphene oxide nanosheets are excreted in bulk through the kidneys. However, how the lateral size affects GO disposition in the kidneys including glomerular filtration, active tubular secretion and tubular reabsorption is still unknown. RESULTS: The thin, two-dimensional graphene oxide nanosheets (GOs) was observed to excrete in urine through the kidneys, but the lateral dimension of GOs affects their renal clearance pathway and renal injury. The s-GOs could be renal excreted via the glomerular filtration, while the l-GOs were predominately excreted via proximal tubular secretion at a much faster renal clearance rate than the s-GOs. For the tubular secretion of l-GOs, the mRNA level of basolateral organic anion transporters Oat1 and Oat2 in the kidney presented dose dependent increase, while no obvious alterations of the efflux transporters such as Mdr1 and Mrp4 mRNA expression levels were observed, suggesting the accumulation of l-GOs. During the GO renal elimination, mostly the high dose of 15 mg/kg s-GO and l-GO treatment showed obvious kidney injuries but at different renal compartment, i.e., the s-GOs induced obvious glomerular changes in podocytes, while the l-GOs induced more obvious tubular injuries including necrosis of renal tubular epithelial cells, loss of brush border, cast formation and tubular dilatation. The specifically tubular injury biomarkers KIM1 and NGAL were shown slight increase with mRNA levels in l-GO administrated mice. CONCLUSIONS: This study shows that the lateral size of GOs affected their interactions with different renal compartments, renal excretion pathways and potential kidney injuries.

Recent Developments in Islet Biology: A Review With Patient Perspectives.

Navigating the coronavirus disease-2019 (COVID-19, now COVID) pandemic has required resilience and creativity worldwide. Despite early challenges to productivity, more than 2,000 peer-reviewed articles on islet biology were published in 2021. Herein, we highlight noteworthy advances in islet research between January 2021 and April 2022, focussing on 5 areas. First, we discuss new insights into the role of glucokinase, mitogen-activated protein kinase-kinase/extracellular signal-regulated kinase and mitochondrial function on insulin secretion from the pancreatic ß cell, provided by new genetically modified mouse models and live imaging. We then discuss a new connection between lipid handling and improved insulin secretion in the context of glucotoxicity, focussing on fatty acid-binding protein 4 and fetuin-A. Advances in high-throughput "omic" analysis evolved to where one can generate more finely tuned genetic and molecular profiles within broad classifications of type 1 diabetes and type 2 diabetes. Next, we highlight breakthroughs in diabetes treatment using stem cell-derived ß cells and innovative strategies to improve islet survival posttransplantation. Last, we update our understanding of the impact of severe acute respiratory syndrome-coronavirus-2 infection on pancreatic islet function and discuss current evidence regarding proposed links between COVID and new-onset diabetes. We address these breakthroughs in 2 settings: one for a scientific audience and the other for the public, particularly those living with or affected by diabetes. Bridging biomedical research in diabetes to the community living with or affected by diabetes, our partners living with type 1 diabetes or type 2 diabetes also provide their perspectives on these latest advances in islet biology.

SARS-CoV-2 is not detectable in cervicovaginal secretions from women with active COVID-19 infection- a pilot study.

OBJECTIVE: To detect the shedding of SARS-CoV-2 in cervicovaginal secretions of women with active COVID 19 infection. METHODS: A cross-sectional study from a COVID facility including women aged 20-45 years with active COVID-19 infection, cervicovaginal secretions were collected from cervix and posterior fornix using dacron swab within 7 days of symptom onset or 5 days of nasopharyngeal rRT-PCR test positivity in asymptomatic women. Cervicovaginal samples of women with mild symptoms were tested using rRT-PCR for SARS-CoV-2. RESULTS: SARS-CoV-2 was not detected in cervicovaginal secretions of any of the 11 women included in the study. CONCLUSIONS: SARS-CoV-2 does not shed in the cervicovaginal secretions of women with mild COVID 19 infection, ruling out sexual and vertical transmission of virus in mild and asymptomatic disease.