Ding You Li scite author profile

The purpose of this scoping review by the American Society for Parenteral and Enteral Nutrition (ASPEN) Coronavirus Disease 2019 (COVID‐19) Nutrition Task Force was to examine nutrition research applicable to the COVID‐19 pandemic. The rapid pace of emerging scientific information has prompted this activity to discover research/knowledge gaps. This methodology adhered with recommendations from the Joanna Briggs Institute. There were 2301 citations imported. Of these, there were 439 articles fully abstracted, with 23 main topic areas identified across 24 article types and sourced across 61 countries and 51 specialties in 8 settings and among 14 populations. Epidemiological/mechanistic relationships between nutrition and COVID‐19 were reviewed and results mapped to the Population, Intervention, Comparator, Outcome, and Time (PICO‐T) questions. The aggregated data were analyzed by clinical stage: pre–COVID‐19, acute COVID‐19, and chronic/post–COVID‐19. Research gaps were discovered for all PICO‐T questions. Nutrition topics meriting urgent research included food insecurity/societal infrastructure and transcultural factors (pre–COVID‐19); cardiometabolic‐based chronic disease, pediatrics, nutrition support, and hospital infrastructure (acute COVID‐19); registered dietitian nutritionist counseling (chronic/post–COVID‐19); and malnutrition and management (all stages). The paucity of randomized controlled trials (RCTs) was particularly glaring. Knowledge gaps were discovered for PICO‐T questions on pediatrics, micronutrients, bariatric surgery, and transcultural factors (pre–COVID‐19); enteral nutrition, protein‐energy requirements, and glycemic control with nutrition (acute COVID‐19); and home enteral and parenteral nutrition support (chronic/post–COVID‐19). In conclusion, multiple critical areas for urgent nutrition research were identified, particularly using RCT design, to improve nutrition care for patients before, during, and after COVID‐19.

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Prostaglandin G/H Synthase-2 Is a Major Contributor of Brain Prostaglandins in the Newborn

Peri

Hardy

et al. 1995

Journal of Biological Chemistry

126

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In order to understand the molecular basis of the elevated cerebral prostaglandin levels in the newborn, we compared the expression of the mRNAs and proteins of prostaglandin G/H synthases (PGHS), PGHS-1 and PGHS-2, in various regions of the brain and the microvasculature of newborn (1-2-day-old) and juvenile (4 -7-week-old) pigs and also measured the relative contribution of PGHS-2 to cerebral prostaglandin synthesis both in vivo and in vitro by using a novel inhibitor of PGHS-2, NS-398. Ribonuclease protection assays using total RNA isolated from various regions of the porcine brain revealed that, unlike PGHS-1 mRNA, PGHS-2 mRNA was abundantly expressed in the cortex and the microvasculature of the newborn compared with those of the juvenile animal. PGHS-2 immunoreactive protein comprised the majority of total PGHS enzyme in neonatal cerebral microvasculature due to a 2-3-fold lower expression of immunoreactive PGHS-1 protein. Inhibition of PGHS-2 by NS-398 decreased the rate of prostaglandin synthesis by purified cerebral microvessels of the newborn by approximately 65% and of juvenile pigs by 30%. The decrease in brain tissue prostaglandin concentrations following intravenous administration of NS-398 was greater in newborn pigs ( 90%) than in the juvenile animals ( 30%). Furthermore, NS-398 substantially reduced the net in vivo cerebrovascular production of prostaglandins in newborn pigs. Taken together, these results indicate that PGHS-2 is the predominant form of prostaglandin G/H synthase in the newborn brain and cerebral microvasculature and the main contributor to the brain prostaglandin levels in the newborn animal.

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Metabolic and molecular insights into an essential role of nicotinamide phosphoribosyltransferase

et al. 2017

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Nicotinamide phosphoribosyltransferase (NAMPT) is a pleiotropic protein implicated in the pathogenesis of acute respiratory distress syndrome, aging, cancer, coronary heart diseases, diabetes, nonalcoholic fatty liver disease, obesity, rheumatoid arthritis, and sepsis. However, the underlying molecular mechanisms of NAMPT in these physiological and pathological processes are not fully understood. Here, we provide experimental evidence that a Nampt gene homozygous knockout (Nampt − / − ) resulted in lethality at an early stage of mouse embryonic development and death within 5-10 days in adult mice accompanied by a 25.24 ± 2.22% body weight loss, after the tamoxifen induction of Nampt F/F × Cre mice. These results substantiate that Nampt is an essential gene for life. In Nampt − / − mice versus Nampt +/+ mice, biochemical assays indicated that liver and intestinal tissue NAD levels were decreased significantly; histological examination showed that mouse intestinal villi were atrophic and disrupted, and visceral fat was depleted; mass spectrometry detected unusual higher serum polyunsaturated fatty acid containing triglycerides. RNA-seq analyses of both mouse and human pediatric liver transcriptomes have convergently revealed that NAMPT is involved in key basic cellular functions such as transcription, translation, cell signaling, and fundamental metabolism. Notably, the expression of all eight enzymes in the tricarboxylic acid cycle were decreased significantly in the Nampt − / − mice. These findings prompt us to posit that adult Nampt − / − mouse lethality is a result of a short supply of ATP from compromised intestinal absorption of nutrients from digested food, which leads to the exhaustion of body fat stores.

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Modulation of the IL-12/IFN-γ axis by IFN-α therapy for hepatitis C

Byrnes

Park

et al. 2006

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Although IFN-alpha forms the foundation of therapy for chronic hepatitis C, only a minority of patients has a sustained response to IFN-alpha alone. The antiviral activities of IFN-alpha formed the rationale for its use in viral hepatitis. However, IFN-alpha and the other Type I IFNs are also pleiotropic immune regulators. Type I IFNs can promote IFN-gamma production by activating STAT4 but can also inhibit production of IL-12, a potent activator of STAT4 and IFN-gamma production. The efficacy of IFN-alpha in the treatment of hepatitis C may therefore depend in part on the balance of IFN-gamma-inducing and IL-12-suppressing effects. We characterized the effects of pegylated IFN-alpha therapy for hepatitis C on the capacity of patients' PBMC to produce IL-12 and IFN-gamma ex vivo. Cells from patients with a sustained virological response to therapy had significantly greater levels of IFN-alpha-driven IFN-gamma production prior to treatment than those from nonresponding patients. No differences in pretreatment IL-12 productive capacity were seen between patient groups. However, therapy with IFN-alpha led to suppression of inducible IL-12 production throughout the course of therapy in both groups of patients.

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Immunopathogenesis of Chronic Hepatitis C Virus Infection

Schwarz²

2002

Journal of Pediatric Gastroenterology and Nutrition

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Ding You Li

Clinical Nutrition Research and the COVID‐19 Pandemic: A Scoping Review of the ASPEN COVID‐19 Task Force on Nutrition Research

Prostaglandin G/H Synthase-2 Is a Major Contributor of Brain Prostaglandins in the Newborn

Metabolic and molecular insights into an essential role of nicotinamide phosphoribosyltransferase

Modulation of the IL-12/IFN-γ axis by IFN-α therapy for hepatitis C

Immunopathogenesis of Chronic Hepatitis C Virus Infection

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