Gut Microbiome and Organ Fibrosis

Fibrosis is a pathological process associated with most chronic inflammatory diseases. It is defined by an excessive deposition of extracellular matrix proteins and can affect nearly every tissue and organ system in the body. Fibroproliferative diseases, such as intestinal fibrosis, liver cirrhosis, progressive kidney disease and cardiovascular disease, often lead to severe organ damage and are a leading cause of morbidity and mortality worldwide, for which there are currently no effective therapies available. In the past decade, a growing body of evidence has highlighted the gut microbiome as a major player in the regulation of the innate and adaptive immune system, with severe implications in the pathogenesis of multiple immune-mediated disorders. Gut microbiota dysbiosis has been associated with the development and progression of fibrotic processes in various organs and is predicted to be a potential therapeutic target for fibrosis management. In this review we summarize the state of the art concerning the crosstalk between intestinal microbiota and organ fibrosis, address the relevance of diet in different fibrotic diseases and discuss gut microbiome-targeted therapeutic approaches that are current being explored.

Mouse Microglial Calcitonin Receptor Knockout Impairs Hypothalamic Amylin Neuronal pSTAT3 Signaling but Lacks Major Metabolic Consequences

Amylin and leptin synergistically interact in the arcuate nucleus of the hypothalamus (ARC) to control energy homeostasis. Our previous rodent studies suggested that amylin-induced interleukin-6 release from hypothalamic microglia may modulate leptin signaling in agouti-related peptide expressing neurons. To confirm the physiological relevance of this finding, the calcitonin receptor (CTR) subunit of the amylin receptor was selectively depleted in microglia by crossing tamoxifen (Tx) inducible Cx3cr1-CreERT2 mice with CTR-floxed mice. Unexpectedly, male mice with CTR-depleted microglia (KO) gained the least amount of weight of all groups regardless of diet. However, after correcting for the tamoxifen effect, there was no significant difference for body weight, fat mass or lean mass between genotypes. No alteration in glucose tolerance or insulin release was detected. However, male KO mice had a reduced respiratory quotient suggesting a preference for fat as a fuel when fed a high fat diet. Importantly, amylin-induced pSTAT3 was decreased in the ARC of KO mice but this was not reflected in a reduced anorectic response. On the other hand, KO mice seemed to be less responsive to leptin’s anorectic effect while displaying similar ARC pSTAT3 as Tx-control mice. Together, these data suggest that microglial amylin signaling is not a major player in the control of energy homeostasis in mice.

TGF-β1 Drives Inflammatory Th Cell But Not Treg Cell Compartment Upon Allergen Exposure

TGF-β1 is known to have a pro-inflammatory impact by inducing Th9 and Th17 cells, while it also induces anti-inflammatory Treg cells (Tregs). In the context of allergic airway inflammation (AAI) its dual role can be of critical importance in influencing the outcome of the disease. Here we demonstrate that TGF-β is a major player in AAI by driving effector T cells, while Tregs differentiate independently. Induction of experimental AAI and airway hyperreactivity in a mouse model with inducible genetic ablation of the gene encoding for TGFβ-receptor 2 (Tgfbr2) on CD4+T cells significantly reduced the disease phenotype. Further, it blocked the induction of pro-inflammatory T cell frequencies (Th2, Th9, Th17), but increased Treg cells. To translate these findings into a human clinically relevant context, Th2, Th9 and Treg cells were quantified both locally in induced sputum and systemically in blood of allergic rhinitis and asthma patients with or without allergen-specific immunotherapy (AIT). Natural allergen exposure induced local and systemic Th2, Th9, and reduced Tregs cells, while therapeutic allergen exposure by AIT suppressed Th2 and Th9 cell frequencies along with TGF-β and IL-9 secretion. Altogether, these findings support that neutralization of TGF-β represents a viable therapeutic option in allergy and asthma, not posing the risk of immune dysregulation by impacting Tregs cells.

Practical lessons from a general dentist of more than 50 years private practice plus 2 years of United States Air Force practice

Having practiced over 54 years the art and science of general dentistry, many changes in philosophy and performance have occurred. Some are minor while others very major. This series of observations will treat some in detail while others very briefly. The physical locations have been in the Dallas, Texas area of the USA. Definitions of terms set the stage for discussion of the basis of dentistry. Support for the scientific as well as evidence-based approaches is laid forth. Filling materials have transitioned from amalgam to composite being most prevalent. Fluoride added to local water supplies has decreased the number of decayed/sensitive teeth, the timing of initial decay, and the prognosis for remediation. pH is a major player in the deterioration of tooth structure. New understandings of tooth brushing and oral hygiene have significantly improved the future for continuing dental health. Absence of fluoride in bottled water has taken a front-center stage for helping/hurting chances of keeping teeth free of decay. Fluoride varnishes have widespread acceptance in America. Failure to seek routine dental care has influenced the outcomes for many younger patients, especially those who have graduated high school, gone off to college or into the workforce. Such lack of routine preventive influence raises the costs of care when it is received, often leading to complaints from patients about the high costs of repair. The alternative is prevention with ongoing consistent 6-month recalls/repairs when problems initiate, rather than allowing problems of long duration. The USA dental insurance industry adverse impact on practicing dentists is a vital monologue. Revealing the dental insurance industry as a number one concern of many surveys of practicing dentists is a way of preparing international countries for learning from the flawed USA models. Recent Congressional law, HR 1418, the Competitive Health Insurance Reform Act, will address some of the most critical wrongs by placing the dental insurance industry into antitrust restraints. Current concerns about digital X-ray’s diagnostic potential are revealed. Conservative dentistry is promoted. Results of conservative practice from nearly 50 years are documented with photos and X-rays. Bonded bridge technology is highlighted for its valued impact.

Bioinformatic Evaluation of the miRNAs Targeting ACE2 Gene in COVID-19

Introduction: Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2), which began in late 2019 in Wuhan, China, has become a global epidemic. Angiotensin 2 converting enzyme (ACE2) acts as a receptor for host function to cause acute coronavirus 2 acute respiratory syndrome (SARS-CoV-2). ACE2 is abundantly expressed in different cells of different human organs. In human physiology, ACE2 is a major player in the renin-angiotensin-aldosterone (RAAS) system by degrading angiotensin II. Many factors have been associated with altered ACE2 expression and the severity and progression of COVID-19, including microRNAs that may be effective in it. Identifying pathological changes due to SARS-CoV-2 infection is important because it has major implications for understanding the pathophysiology of COVID-19 and developing evidence-based treatment strategies. Currently, many intervention strategies are being explored in ongoing clinical trials. Objective: The aim of this study is to use bioinformatics databases to find potential antiviral therapies against SARS-CoV-2 through host microRNAs (miRNAs) that can reduce viral gene expression to inhibit virus entry and replication. Methods: Using different algorithms in TargetScan, DIANA, ENCORI and miRWalk databases, the potential microRNAs were identified that target ACE2. Then, a score table was prepared from the candidate microRNAs, based on the affinity of the seed region of microRNAs and the 3`-UTR region of the ACE2 gene. Finally, microRNAs with higher scores were chosen as candidates for practical analysis. Results: The results of Bioinformatical analysis showed that Has-miR-200c-3p, Has-miR-29a, Has-miR-29c, and Has-miR-942 are most likely to inhibit ACE2. These microRNAs are the most potent factors that might be affected on ACE2 during virulence. Conclusion: It seems that ACE2 is under the control of the miR-200c-3p and plays a crucial role in the pathophysiology process. Therefore, this microRNA can be considered as a suitable new candidate for experimental evaluation.

Geminiviral βC1 orchestrates organellar genomic instability to augment viral infection by hijacking host RecA

Chloroplast is the site for transforming light energy to chemical energy. It also acts as a production unit for a variety of defense-related molecules. These defense moieties are necessary to mount a successful counter defence against pathogens including viruses. Geminiviruses disrupt chloroplast homeostasis as a basic strategy for their successful infection inducing vein-clearing, mosaics and chlorosis in infected plants. Here we show that a geminiviral pathogenicity determinant protein βC1 directly interferes with plastid homeostasis. βC1 was capable of inducing organelle-specific nuclease to degrade plastid genome as well as diverted functions of RecA1 protein, a major player in plastid genome maintenance. βC1 interacted with RecA1 in plants and its homolog in bacteria to reduce the ability of host cells to maintain genomic integrity under stresses. Further, reduction in the coding capacity of plastids severely affected retrograde signalling necessary for viral perception and activation of defense. Induction of chloroplast-specific nuclease by βC1 is similar to phosphate starvation-response in which nucleotides are recycled to augment synthesis of new, potentially viral, DNA. These results indicate the presence of a novel strategy in which a viral protein alters host defence by targeting regulators of chloroplast DNA. We predict that the mechanism identified here might have similarities in other plant-pathogen interactions.

The Prospect of Investment Banking and Arbitration in the Space Economy

Morgan Stanley estimates that the global space industry could generate revenues of more than $1 trillion or more by 2040, up from over $400 billion currently. Do declining launch costs, technological advancements and a rising interest in the public sector make space the next trillion-dollar economy? The dynamics of the space sector has led wall street analysts to forecast that the space industry could become the next trillion-dollar industry by 2040. As of January 2018, the global space economy grew more than 8%, generating $414.75 billion in space activities.With unmanned scientific exploration, high levels of private funding advancement in technology the implications of investment for a more accessible, low cost into outer space is significant, with potential opportunities for improvement of the resources in space for profit-making and expansion of business concerns, the expanding interest of public sector migrate into the shift from private finding to public and herald the entrance of traditional finance There are fortunes and resources in the space economy which aids the activities of humans, as well as the bold exploration of countries to expand research and understand the limits use and the extent to the use in the space economy.This paper seeks to explore the prospects of investment banking activities in the growing space economy, seeing the growing development of exchange-traded funds already being explored in the space economy and the new regulations allowing Wall Street to do Venture Capital which expands the exploration of capital and buttresses the objective of raising capital by a major player, Space X which raised about $44 Billion and so grows the prospect of more banking activity. Furthermore, the possibilities that are inherent in the eventual proliferation of investment banking activities in the space industry will be addressed. In attempting to do justice to such a lofty idea, the universal need for funding in the world of business will be examined as a representation of the intersection between banking interests and space interests. The interplay of factors such as risk and understanding of business processes in the dynamics of any relationship between investment banking and the space industry will also be examined. The purpose of such analysis will be to afford an understanding of the role that investment banking has to play in the space industry, as an over text to the elements and characteristics of space activities that define the rate of the growth of the influence and applicability of investment banking to the peculiar needs and unique concerns associated with the pursuit of profitable business in the space economy. Lastly, this paper looks to give an account of the evolution of Space Dispute Arbitration, and how the existing legal mechanisms in force for directing arbitral awards have evolved in scope and flexibility since the first satellite launch. In general, and as a statement of fundamental purpose, this paper will attempt to provide a wide and sufficiently detailed representation of what the space industry is, the dynamics of space arbitration and how its resultant economic sector functions, in order to hypothesize on the part that investment banking has to play in its growth and in the maximization of its resultant profits for all shareholders involved.”

OsFH3 Encodes a Type II Formin Required for Rice Morphogenesis

The actin cytoskeleton is crucial for plant morphogenesis, and organization of actin filaments (AF) is dynamically regulated by actin-binding proteins. However, the roles of actin-binding proteins, particularly type II formins, in this process remain poorly understood in plants. Here, we report that a type II formin in rice, Oryza sativa formin homolog 3 (OsFH3), acts as a major player to modulate AF dynamics and contributes to rice morphogenesis. osfh3 mutants were semi-dwarf with reduced size of seeds and unchanged responses to light or gravity compared with mutants of osfh5, another type II formin in rice. osfh3 osfh5 mutants were dwarf with more severe developmental defectiveness. Recombinant OsFH3 could nucleate actin, promote AF bundling, and cap the barbed end of AF to prevent elongation and depolymerization, but in the absence of profilin, OsFH3 could inhibit AF elongation. Different from other reported type II formins, OsFH3 could bind, but not bundle, microtubules directly. Furthermore, its N-terminal phosphatase and tensin homolog domain played a key role in modulating OsFH3 localization at intersections of AF and punctate structures of microtubules, which differed from other reported plant formins. Our results, thus, provide insights into the biological function of type II formins in modulating plant morphology by acting on AF dynamics.

Impaired SorLA maturation and trafficking as a new mechanism for SORL1 missense variants in Alzheimer disease

The SorLA protein, encoded by the SORL1 gene, is a major player in Alzheimer’s disease (AD) pathophysiology. Functional and genetic studies demonstrated that SorLA deficiency results in increased production of Aβ peptides, and thus a higher risk of AD. A large number of SORL1 missense variants have been identified in AD patients, but their functional consequences remain largely undefined. Here, we identified a new pathophysiological mechanism, by which rare SORL1 missense variants identified in AD patients result in altered maturation and trafficking of the SorLA protein. An initial screening, based on the overexpression of 70 SorLA variants in HEK293 cells, revealed that 15 of them (S114R, R332W, G543E, S564G, S577P, R654W, R729W, D806N, Y934C, D1535N, D1545E, P1654L, Y1816C, W1862C, P1914S) induced a maturation and trafficking-deficient phenotype. Three of these variants (R332W, S577P, and R654W) and two maturation-competent variants (S124R and N371T) were further studied in details in CRISPR/Cas9-modified hiPSCs. When expressed at endogenous levels, the R332W, S577P, and R654W SorLA variants also showed a maturation defective profile. We further demonstrated that these variants were largely retained in the endoplasmic reticulum, resulting in a reduction in the delivery of SorLA mature protein to the plasma membrane and to the endosomal system. Importantly, expression of the R332W and R654W variants in hiPSCs was associated with a clear increase of Aβ secretion, demonstrating a loss-of-function effect of these SorLA variants regarding this ultimate readout, and a direct link with AD pathophysiology. Furthermore, structural analysis of the impact of missense variants on SorLA protein suggested that impaired cellular trafficking of SorLA protein could be due to subtle variations of the protein 3D structure resulting from changes in the interatomic interactions.

221 Effects of energy drinks on inflammatory response: study in vivo in rats

In recent years, the consumption of energy drinks (EDs) has increased constantly among young people because of their capacity to enhance alertness and improve mental and physical performance, reducing fatigue. EDs are beverages containing a high and variable amount of caffeine, which exerts effects on many tissues of the cardiovascular system. In addition to caffeine, they contain several other psychoactive substances including the amino acid taurine, the glucose derivative glucuronolactone, as well as herbal extracts such as guaranà (another source of caffeine, with caffeine-like effects) and ginseng, often present in not well-known concentration. In our project we aim to evaluate whether the consumption of EDs causes alterations in the organs involved in their contact, absorption and metabolism in an animal model, i.e. the rat. We used 28 Sprague Dawley adult male rats, weighing 230–250 g and fed with a standard laboratory diet, randomly divided into four groups (N = 7). Every group received a different treatment (ED, soda-cola, sweetened coffee or water-controls-) for 5 days. All animals were anesthetized and underwent histological analysis and blood sampling at the end of the treatment. We observed eosinophilic infiltrates in gastrointestinal tract, but not in cardiovascular system. We quantified various indicators of tissue damage and cytokines in plasma, including ICAM-1, L-selectin, TIMP-1, VEGF, IL-10, IL-2, IL-4, IL-6, IL-1β, IL-13, IL-33, TNF-α, and IFN-γ. In contrast with the eosinophilic infiltration, we did not detect a systemic increase of Th2 cytokines (i.e. IL-4 and IL-13) after treatment: thus, even if the experiments evaluating the possible presence of an unbalanced Th2 response in the tissues featured by eosinophilic infiltration are still lacking, we exclude further deepening on Th2 immune responses. Interestingly, we observed a decrease of TIMP-1 in plasma from rats orally supplemented with ED, soda-cola or sweetened coffee compared to animals treated with water. TIMP-1 is a major player in preserving tissue integrity and controlling wound healing by balancing the enzymatic activity of matrix metalloproteinases (MMPs) and regulating extracellular matrix turnover. Moreover, elevated levels of the adhesion molecules ICAM-1 and L-selectin were found in plasma from rats receiving ED or soda-cola, together with a high concentration of IL-33 in animals assuming the ED. The circulating form of ICAM-1 is associated with inflammation, particularly due to endothelial damage, and L-selectin and IL-33 play an important role in inflammatory conditions as well. These observations suggest that the consumption of EDs could alter the architecture, and hence function, of the organs involved in their contact, absorption and metabolism. Indeed, the alterations we observed in the periphery could reflect the establishment of inflammation and deregulated mechanisms of damage repair locally in the target tissues.