Rhinovirus infections in young children: Clinical manifestations, susceptibility, and host response

Rhinoviruses are the most common cause of respiratory infections, but the burden of rhinovirus infections in young children has not been evaluated. A diagnostic marker of virus infections detecting also rhinovirus infections could be useful for avoiding the unnecessary use of antibiotics. In this prospective birth cohort study, we followed 1570 children for acute respiratory infections from birth to two years of age. We aimed to establish the burden of rhinovirus infections in young children and to study the genetic susceptibility and blood myxovirus resistance protein A (MxA) response to respiratory infections. Altogether 12 846 episodes of acute respiratory infection were documented with an annual rate of 5.9 per child. Rhinovirus was detected in 59% of acute respiratory infections that were analyzed for viruses. Rhinoviruses were associated with 50% of acute otitis media episodes, 41% of wheezing illnesses, 49% of antibiotic treatments, and 48% of outpatient office visits for acute respiratory infections. The estimated annual rate of rhinovirus infections was 3.5 per child. Children with recurrent respiratory infections were at an increased risk for asthma in early childhood. Genetic polymorphisms of mannose-binding lectin and toll-like receptors were associated with the risk of respiratory infections. Blood MxA protein levels were increased in children with symptomatic virus infections, including rhinovirus infections, as compared to asymptomatic virus-negative children. Rhinovirus infections impose a major burden of acute respiratory illness and antibiotic use on young children. Genetic polymorphisms may partly explain why some children are more prone to respiratory infections. Blood MxA protein is an informative marker of viral respiratory infections including rhinovirus infections.Siirretty Doriast

Finding representative nodes in probabilistic graphs

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A Model for Mining Relevant and Non-redundant Information

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Xenobiotics that affect oxidative phosphorylation alter differentiation of human adipose-derived stem cells at concentrations that are found in human blood

Adipogenesis is accompanied by differentiation of adipose tissuederived stem cells to adipocytes. As part of this differentiation, biogenesis of the oxidative phosphorylation system occurs. Many chemical compounds used in medicine, agriculture or other human activities affect oxidative phosphorylation function. Therefore, these xenobiotics could alter adipogenesis. We have analyzed the effects on adipocyte differentiation of some xenobiotics that act on the oxidative phosphorylation system. The tested concentrations have been previously reported in human blood. Our results show that pharmaceutical drugs that decrease mitochondrial DNA replication, such as nucleoside reverse transcriptase inhibitors, or inhibitors of mitochondrial protein synthesis, such as ribosomal antibiotics, diminish adipocyte differentiation and leptin secretion. By contrast, the environmental chemical pollutant tributyltin chloride, which inhibits the ATP synthase of the oxidative phosphorylation system, can promote adipocyte differentiation and leptin secretion, leading to obesity and metabolic syndrome as postulated by the obesogen hypothesis

Miten korjaavat liikkeet tehdään? : Jälkikäteinen oikeusturva rajoitustoimenpiteissä

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Early prenatal alcohol exposure alters imprinted gene expression in placenta and embryo in a mouse model

Prenatal alcohol exposure (PAE) can harm the embryonic development and cause life-long consequences in offspring's health. To clarify the molecular mechanisms of PAE we have used a mouse model of early alcohol exposure, which is based on maternal ad libitum ingestion of 10% (v/v) ethanol for the first eight days of gestation (GD 0.5-8.5). Owing to the detected postnatal growth-restricted phenotype in the offspring of this mouse model and both prenatal and postnatal growth restriction in alcohol-exposed humans, we focused on imprinted genes Insulin-like growth factor 2 (Igf2), H19, Small Nuclear Ribonucleoprotein Polypeptide N (Snrpn) and Paternally expressed gene 3 (Peg3), which all are known to be involved in embryonic and placental growth and development. We studied the effects of alcohol on DNA methylation level at the Igf2/H19 imprinting control region (ICR), Igf2 differentially methylated region 1, Snrpn ICR and Peg3 ICR in 9.5 embryonic days old (E9.5) embryos and placentas by using MassARRAY EpiTYPER. To determine alcohol-induced alterations globally, we also examined methylation in long interspersed nuclear elements (Line-1) in E9.5 placentas. We did not observe any significant alcohol-induced changes in DNA methylation levels. We explored effects of PAE on gene expression of E9.5 embryos as well as E9.5 and E16.5 placentas by using quantitative PCR. The expression of growth promoter gene Igf2 was decreased in the alcohol-exposed E9.5 and E16.5 placentas. The expression of negative growth controller H19 was significantly increased in the alcohol exposed E9.5 embryos compared to controls, and conversely, a trend of decreased expression in alcohol-exposed E9.5 and E16.5 placentas were observed. Furthermore, increased Snrpn expression in alcohol-exposed E9.5 embryos was also detected. Our study indicates that albeit no alterations in the DNA methylation levels of studied sequences were detected by EpiTYPER, early PAE can affect the expression of imprinted genes in both developing embryo and placenta.Peer reviewe

Serological Follow-Up Study Indicates High Seasonal Coronavirus Infection and Reinfection Rates in Early Childhood

Seasonal human coronaviruses (HCoVs) cause respiratory infections, especially in children. Currently, the knowledge on early childhood seasonal coronavirus infections and the duration of antibody levels following the first infections is limited. Here we analyzed serological follow-up samples to estimate the rate of primary infection and reinfection(s) caused by seasonal coronaviruses in early childhood. Serum specimens were collected from 140 children at ages of 13, 24, and 36 months (1, 2, and 3 years), and IgG antibody levels against recombinant HCoV nucleoproteins (N) were measured by enzyme immunoassay (EIA). Altogether, 84% (118/140) of the children were seropositive for at least one seasonal coronavirus N by the age of 3 years. Cumulative seroprevalences for HCoVs 229E, HKU1, NL63, and OC43 increased by age, and they were 45%, 27%, 70%, and 44%, respectively, at the age of 3 years. Increased antibody levels between yearly samples indicated reinfections by 229E, NL63, and OC43 viruses in 20-48% of previously seropositive children by the age of 3 years. Antibody levels declined 54-73% or 31-77% during the year after seropositivity in children initially seropositive at 1 or 2 years of age, respectively, in case there was no reinfection. The correlation of 229E and NL63, and OC43 and HKU1 EIA results, suggested potential cross-reactivity between the N specific antibodies inside the coronavirus genera. The data shows that seasonal coronavirus infections and reinfections are common in early childhood and the antibody levels decline relatively rapidly. IMPORTANCE The rapid spread of COVID-19 requires better knowledge on the rate of coronavirus infections and coronavirus specific antibody responses in different population groups. In this work we analyzed changes in seasonal human coronavirus specific antibodies in young children participating in a prospective 3-year serological follow-up study. We show that based on seropositivity and changes in serum coronavirus antibody levels, coronavirus infections and reinfections are common in early childhood and the antibodies elicited by the infection decline relatively rapidly. These observations provide further information on the characteristics of humoral immune responses of coronavirus infections in children. The rapid spread of COVID-19 requires better knowledge on the rate of coronavirus infections and coronavirus specific antibody responses in different population groups. In this work we analyzed changes in seasonal human coronavirus specific antibodies in young children participating in a prospective 3-year serological follow-up study.Peer reviewe

Association of Toll-like receptor 2 rs111200466 polymorphism with low serum levels of IL-33 in early childhood

TLR2 is one of 10 human TLRs, which plays an important role in the recognition of pathogens and activation of the innate immunity via NF-κB pathway. NF-κB activation induces the expression of various pro-inflammatory genes. This study examines the effect of TLR2 polymorphisms on the production of blood pro-inflammatory cytokines in healthy Finnish children. One hundred forty-six children who participated in a prospective observational birth cohort study in Turku, Finland, were included. DNA samples were analysed by PCR-based sequencing for two common TLR2 polymorphisms (rs5743708 Arg753Gln; rs111200466–196 to –174del). Serum concentrations of IL-33, IL-31, IL-17A and IL-17F were measured by multiplex immunoassay and sST2 by ELISA in children at the age of 13 months. Children with variant type of TLR2 rs111200466 (ins/del or del/del) had significantly lower level of serum IL-33 (median, 0.00 pg/mL; IQR 0.00–17.60) than those with ins/ins type of TLR2 (19.81 pg/mL; IQR 0.00–51.78) (p = 0.0001). Almost all study subjects had serum concentrations of IL-17A, IL-17F and IL-31 below the detection limit and therefore not included in the final analyses. No differences in levels of above four cytokines and sST2 were found between TLR2 rs5743708 genotypes (GG and GA). Our results indicated that the TLR2 rs111200466 deletion was associated with a low level of serum IL-33, suggesting that the polymorphism may impair the production of IL-33.</p

Impairment of autophagy in scrapie-infected transgenic mice at the clinical stage

Autophagy appears to play a role in the etiology and progress of misfolded protein disorders. Although this process is dysregulated in prion diseases, it is unknown whether this impairment is a cause or a consequence of prion neuropathology. The study of autophagy during the progress of the disease could elucidate its role. For this purpose, we have investigated its regulation at different stages of the disease in Tg338 mice, a transgenic murine model that overexpresses the highly susceptible ovine VRQ prion protein allele. Mice were intracerebrally inoculated with mouse adapted classical scrapie and euthanized at the preclinical and clinical stages of the disease. Regulation of autophagy was investigated analyzing the distribution of LC3-B and p62 proteins by immunohistochemistry. Moreover, the expression of genes involved in autophagy regulation was quantified by real-time PCR. LC3-B and p62 proteins were downregulated and upregulated, respectively, in the central nervous system of infected mice with clinical signs of scrapie. Accumulation of p62 correlated with scrapierelated lesions, suggesting an impairment of autophagy in highly prion-affected areas. In addition, Gas5 (growth arrestspecific 5), Atg5 (autophagy-related 5), and Fbxw7 (F-box and WD repeat domain containing 7) transcripts were downregulated in mesencephalon and cervical spinal cord of the same group of animals. The impairment of autophagic machinery seems to be part of the pathological process of scrapie, but only during the late stage of prion infection. Similarities between Tg338 mice and the natural ovine disease make them a reliable in vivo model to study prion infection and autophagy side by side