Molekulare Charakterisierung von NFAT-Transkriptionsfaktoren in experimentellen Mausmodellen

In this work we wanted to investigate the role of NFATc1 in lymphocyte physiology and in pathological conditions (eg. psoriasis). NFATc1 is part of the signal transduction pathways that regulates B cells activation and function. NFATc1 has different isoforms that are due to different promoters (P1 and P2), polyadenylation and alternative splicing. Moreover, we tried to elucidate the points of interactions between the NFAT and the NF-κB pathways in activated B-cell fate. NFAT and NF-κB factors share several properties, such as a similar mode of induction and architecture in their DNA binding domain. We used mice which over-express a constitutive active version of NFATc1/α in their B cells with -or without- an ablated IRF4. IRF4 inhibits cell cycle progression of germinal center B cell-derived Burkitt’s lymphoma cells and induces terminal differentiation toward plasma cells. Our experiments showed that a ‘double hit’ in factors affecting B cell activation (NFATc1 in this case) and late B cell Differentiation (IRF4 in this case) alter the development of the B cells, lead to increase in their numbers and increase in stimulation induced proliferation. Therefore, the overall picture indicates a link between these 2 genes and probable carcinogenic alterations that may occur in B cells. We also show that in splenic B cells, c-Rel (of the NF-κB canonical pathway) Support the induction of NFATc1/αA through BCR signals. We also found evidence that the lack of NFATc1 affects the expression of Rel-B (of the NF-κB non-canonical pathway). These data suggest a tight interplay between NFATc1 and NF-κB in B cells, influencing the competence of B cells and their functions in peripheral tissues. We also used IMQ-induced psoriasis-like inflammation on mice which either lack NFATc1 from B cell. Psoriasis is a systemic chronic immunological disease characterized primarily by abnormal accelerated proliferation of the skin keratinocytes. In psoriasis, the precipitating event leads to immune cell activation. Our experiments showed that NFATc1 is needed for the development of psoriasis. It also showed that IL-10 is the link that enables NFAT from altering the B cell compartment (eg Bregs) in order to affect inflammation. The important role of B cell in psoriasis is supported by the flared up psoriasis-like inflammation in mice that lack B cells. Bregs is a special type of B cells that regulate other B cells and T cells; tuning the immunological response through immunomodulatory cytokines.Diese Arbeit befasst sich mit der Regulation und der Funktion des Transkriptionsfaktors NFATc1 (“nuclear factor of activated T-cells c1) in B-Lymphozyten. Hierzu wurde zum einen die transkriptionelle Kontrolle des Nfatc1-Gens in aktivierten B-Lymphozyten und zum anderen die Bedeutung dieses Faktors für die Wachstumskontrolle und Autoimmunität anhand verschiedener Modellsysteme analysiert. Sechs verschiedene NFATc1-Isoformen können in B-Lymphozyten durch die Nutzung zweier verschiedener Promotoren, zweier Polyadenylierungsstellen und eines alternativen Splicings generiert werden. Wir zeigen hier, dass insbesondere die NF-kB Faktoren c-Rel und p50 eine essentielle Bedeutung für die starke Induktion des Promoters P1 und damit der Expression der kurzen Isoform NFATc1A in B-Zell-Rezeptor-stimulierten B-Zellen spielen. Interessanterweise zeigen NFATc1-defiziente B-Lymphozyten eine geschwächte Aktivierung der NF-kB-Faktoren, was auf eine enge Verknüpfung dieser zwei Signalwege hindeutet. NFATc1-defiziente B-Lymphozyten weisen eine Aktivierungs- und Wachstumsschwäche auf (Bhattacharyya S., et.al.). Hier zeigen wir, dass die Überexpression von konstitutiv aktivem NFATc1A in B-Lymphozyten, insbesondere wenn dies im Kontext einer IRF4-Defizienz geschieht, zu einer verstärkten Expansion der B-Zellpopulation, insbesondere nach deren Aktivierung, führt. Dies belegt die kritische Bedeutung, die der wohldosierten Expressions- und Aktivierungskontrolle der NFATc1-Faktoren in B-Lymphozyten zukommt. Dies zeigt sich auch in einem Imiquimod-induziertem Psoriasis Mausmodell. Hier wird durch Applikation von Imiquimod auf die Haut eine der Schuppenflechte ähnelnde entzündliche Reaktion ausgelöst, die insbesondere durch eine stark verstärkte Proliferation der Keratinozyten gekennzeichnet ist. Wir können zeigen, dass die NFATc1-Faktoren in B-Lymphozyten kritisch an dieser Reaktion beteiligt sind. Fehlt den B-Lymphozyten das NFATc1-Gen, so produziert eine Subpopulation, die sogenannten regulatorischen B-Zellen, verstärkt das immunmodulatorischen Zytokins IL-10, wodurch die entzündliche Reaktion fast komplett unterdrückt wird. Dies ähnelt vorhergehenden Beobachtungen, in denen wir zeigen konnten, dass auch in einem Mausmodell der Multiplen Sklerose (EAE) die Immunreaktion durch den Verlust von NFATc1 in B-Zellen erheblich gelindert werden kann (Bhattacharyya S., et.al.)

Investigating Virological, Immunological, and Pathological Avenues to Identify Potential Targets for Developing COVID-19 Treatment and Prevention Strategies

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is an emerging coronavirus causing respiratory disease commonly known as COVID-19. This novel coronavirus transmits from human to human and has caused profound morbidity and mortality worldwide leading to the ongoing pandemic. Moreover, disease severity differs considerably from individual to individual. Investigating the virology of COVID-19 and immunological pathways underlying its clinical manifestations will enable the identification and design of effective vaccines and potential therapies. In this review, we explore COVID-19 virology, the contribution of the immune system (innate and adaptive) during infection and control of the virus. Finally, we highlight vaccine development and implications of immune system modulation for potential therapeutic interventions to design better therapeutic strategies to guide future cure.https://scholarworks.uaeu.ac.ae/uaeu_books/1003/thumbnail.jp

Characterization of patients with hepatocellular carcinoma on the way for early detection: one center experience

Background Hepatocellular carcinoma (HCC) is the commonest primary liver neoplasm that usually develop in the background of cirrhosis. Hepatitis C virus is endemic in Egypt and is the major cause of cirrhosis. Studying the characteristics of patients with HCC may help in clarifying the schedule for screening of high-risk patients for an early detection of HCC. Patients and methods The 492 patients attending the hepatology and HCC clinics in Specialized Medical Hospital, Mansoura University for follow up of liver cirrhois and HCC were subjected to full history, physical examination, laboratory profile, and imaging studies needed for the diagnosis. Data were collected and analyzed. According to the radiological results, patients were divided into three groups (fibrosis, cirrhosis, and HCC) and compared. Results The study included 336 males and 156 females. Patients with HCC were mainly males with a mean age of 58 years. A statistically significant difference between HCC group and the other groups with respect to hemoglobin level, white blood cells count, platelet count, aspartate aminotransferase, alanine aminotransferase, albumen level, serum bilirubin, international normalized ratio, and α-fetoprotein (AFP) was found. The sensitivity and specificity of AFP in differentiating HCC cases are 81.1 and 71.9%, respectively. Logistic regression for prediction of HCC showed that males with age greater than 58 years, hypoalbuminaemia, and AFP greater than 11.2 ng/dl have a 76.3% positive predicted value. Conclusion Cirrhotic patients with age greater than 58 years, males, hypoalbuminaemia, and AFP greater than 11.2 ng/dl are at a higher risk to develop HCC more than other patients and should be monitored at close quarters with better contrast-enhanced technique either contrast-enhanced ultrasound or computed tomography scan

The Protective Role of Prenatal Alpha Lipoic Acid Supplementation against Pancreatic Oxidative Damage in Offspring of Valproic Acid-Treated Rats: Histological and Molecular Study

Background: Sodium valproate (VPA) is an antiepileptic drug (AED) licensed for epilepsy and used during pregnancy in various indications. Alpha-lipoic acid (ALA) is a natural compound inducing endogenous antioxidant production. Our study aimed to investigate the effect of prenatal administration of VPA on the pancreas of rat offspring and assess the potential protective role of ALA co-administration during pregnancy. Methods: Twenty-eight pregnant female albino rats were divided into four groups: group I (negative control), group II (positive control, ALA treated), group III (VPA-treated), and group IV (VPA-ALA-treated). The pancreases of the rat offspring were removed at the fourth week postpartum and prepared for histological, immune-histochemical, morphometric, molecular, and oxidative stress marker studies. Results: In group III, there were pyknotic nuclei, vacuolated cytoplasm with ballooning of acinar, α, and β cells of the pancreas. Ultrastructural degeneration of cytoplasmic organelles was detected. Additionally, there was a significant increase in oxidative stress, a decrease in insulin-positive cell percentage, and an increase in glucagon positive cells in comparison to control groups. Moreover, VPA increased the gene expression of an apoptotic marker, caspase-3, with a decrease in anti-apoptotic Bcl2 and nuclear factor erythroid 2-related factor 2 (Nrf2) transcriptional factor. Conversely, ALA improved oxidative stress and apoptosis in group VI, and a consequent improvement of the histological and ultrastructure picture was detected. Conclusion: ALA co-administration with VPA significantly improved the oxidative stress condition, histological and morphometric picture of the pancreas, and restored normal expression of related genes, including Nrf2, caspase-3, and Bcl-2. Administration of α-lipoic acid has a protective effect against VPA-induced pancreatic oxidative damage via its cytoprotective antioxidant effect

CD19+ CD24hi CD38hi Regulatory B Cells and Memory B Cells in Periodontitis: Association with Pro-Inflammatory and Anti-Inflammatory Cytokines

Regulatory B cells (Bregs) are unique subpopulations of B cells with immune-regulating or immune-suppressing properties and play a role in peripheral tolerance. Due to the current limitations of human Breg studies among periodontal diseases, in the present study, we tried to analyze the change in circulating Bregs, pro-inflammatory, and anti-inflammatory cytokines in patients with periodontitis. Peripheral blood from 55 patients with stage 2 periodontitis and 20 healthy controls was analyzed using flow cytometry to evaluate the frequency of CD19+CD24+CD38+ Breg cells. ELISA was used to assess the serum levels of the pro-inflammatory cytokines, including interleukins (IL)-1β, IL-6, TNF-α, and anti-inflammatory cytokines including IL-10, IL-35, and TGF-β. Increased proportions of Breg cells were observed in patients with stage 2 periodontitis compared to controls. Serum levels of cytokines were significantly higher in patients with periodontitis compared to controls. A significant positive correlation was observed between the frequencies of Breg cells and IL35 levels, IL10 levels, and TGF-β. In conclusion, our results suggest that the increase in peripheral Breg cells and serum cytokine levels among periodontitis patients seems to be closely associated with disease progression, a possible link between periodontitis, and systemic inflammatory process