91 research outputs found

    Transport kurzkettiger Fettsäuren über die basolaterale Membran des ovinen Pansenepithels: Mechanismen und Regulation auf Genebene: Transport kurzkettiger Fettsäuren über diebasolaterale Membran des ovinen Pansenepithels:Mechanismen und Regulation auf Genebene

    Get PDF
    Einleitung: Kurzkettige Fettsäuren (SCFA) stellen das hauptsächliche Energiesubstrat für Wiederkäuer dar. In Anbetracht des - bedingt durch höhere Milch-, Mast und Reproduktionsleistung - steigenden Energiebedarfs von Hauswiederkäuern wie Milchkuh und Mastbulle ist es von zentraler Bedeutung, die Mechanismen zur Resorption dieser Energielieferanten bzw. Ansatzpunkte für die Beeinflussung dieser Transportprozesse genau zu kennen. Dieses Wissen kann möglicherweise dabei helfen, zukünftig die Energieaufnahme der Tiere zu unterstützen bzw. sogar effizienter zu gestalten. Ziele der Untersuchungen: Deshalb war es Ziel der vorliegenden Arbeit, die Mechanismen zur Resorption von SCFA zu charakterisieren, wobei der Schwerpunkt auf den Transport aus den Pansenepithelzellen ins Blut gelegt wurde, da hierzu im Gegensatz zu ihrer Aufnahme aus dem Pansenlumen in die Epithelzellen noch sehr wenig bekannt war. In einem zweiten Schritt sollte untersucht werden, inwiefern die nachgewiesenen Mechanismen einer Regulation unterliegen und über welche Signalwege diese vermittelt werden könnte. Materialien und Methoden: Zur Charakterisierung der beteiligten Resorptionsmechanismen wurden Epithelstücke aus dem ventralen Pansensack von Schafen in Ussing-Kammern eingespannt und mit Hilfe radioaktiv markierten Azetats, Butyrats und L-Laktats der Transport dieser Substrate unter verschiedenen Bedingungen sowie verschiedenen Hemmstoffeinflüssen untersucht. Zur Charakterisierung regulativer Einflüsse wurden die Epithelstücke über sechs bzw. 24 Stunden mit Butyrat inkubiert und anschließend RNA bzw. Totalprotein extrahiert. Hiermit konnten Veränderungen in mRNA- und Proteinexpression mittels quantitativer Echtzeit-PCR bzw. Western Blot nachgewiesen werden. Ergebnisse: Die Untersuchungen der vorliegenden Arbeit konnten zeigen, dass der Transport von SCFA über die basolaterale Membran des Pansenepithels hauptsächlich proteinvermittelt erfolgt. Eine signifikante Beteiligung lipophiler Diffusion, d.h. ein passiver Transport, kann weitgehend ausgeschlossen werden. Der aktive Transport wies eine bikarbonatabhängige und eine bikarbonatunabhängige Komponente auf. Der Einsatz von Hemmstoffen verschiedener Transportproteine ergab deutliche Hinweise darauf, dass der Monocarboxylattransporter (MCT) 1 eine Rolle beim bikarbonatgekoppelten Transport von Azetat bzw. allgemein unmetabolisierten SCFA spielt. Diese Hinweise wurden untersetzt durch die Beobachtung, dass MCT 1, aber auch der apikal bzw. intrazellulär lokalisierte MCT 4 durch langfristige Inkubation des Epithels mit Butyrat sowohl auf mRNA- als auch auf Proteinebene signifikant erhöht exprimiert wurden, was als Anpassungsreaktion an eine Substratakkumulation interpretiert werden kann. Außerdem wurde auch die mRNA-Expression des Putativen Anionentransporters (PAT) 1 durch Inkubation mit Butyrat erhöht, was für eine Beteiligung auch dieses Transportproteins am SCFA-Transport über das Pansenepithel spricht. Allerdings ist im Gegensatz zu MCT 1 die Lokalisation des PAT 1 in der basolateralen Membran noch fraglich. Die Expressionssteigerung von Zielgenen des Nukleären Faktors ĸB und des Peroxisomenproliferator-aktivierten Rezeptors α sowie des Hypoxie-induzierbaren Faktors selbst deuten weiterhin darauf hin, dass die Steigerung der Transportkapazitäten von MCT 1 und 4 und auch PAT 1 über diese Signalwege vermittelt wird. Schlussfolgerungen: Zusammenfassend konnte in dieser Arbeit erstmals der Transport von SCFA über die basolaterale Membran des Pansenepithels näher charakterisiert werden, sodass es nun möglich ist, zusammen mit den bereits vorliegenden Befunden für die apikale Membran ein komplettes Modell dafür zu erstellen. Auch wurden Erkenntnisse zu regulativen Einflüssen auf diesen Transport gewonnen, die es zukünftig ermöglichen könnten, die Resorption der SCFA aus dem Pansen nutritiv oder eventuell pharmakologisch zu beeinflussen.:Inhaltsverzeichnis 1 Einleitung 1 2 Literaturübersicht 3 2.1 Bedeutung kurzkettiger Fettsäuren für Wiederkäuer 3 2.2 Metabolismus von SCFA im Pansenepithel 4 2.2.1 Aufrechterhaltung des Konzentrationsgradienten vom Pansenlumen ins Epithel 4 2.2.2 Produktion von HCO3- aus CO2 durch die Carboanhydrase 5 2.2.3 Bereitstellung von Energie für die Epithelzellen 5 2.2.4 Bereitstellung von wasserlöslichen, glukosesparenden Energiesubstraten für die periphere Zirkulation 5 2.2.5 Verhinderung möglicher Schädigungen durch Butyrat 6 2.3 Transportmechanismen für kurzkettige Fettsäuren 7 2.3.1 Para- versus transzelluläre Resorption 7 2.3.2 Transzelluläre Resorption mittels lipophiler Diffusion 7 2.3.3 Proteinvermittelte SCFA-Permeation 9 2.3.4 Permeation von SCFA aus dem Epithel ins Blut 11 2.4 Beeinflussung der SCFA-Resorption auf Genexpressionsebene 17 2.4.1 Beeinflussung der Genexpression durch Butyrat 17 2.4.2 Beeinflussung der Genexpression durch Hypoxie 20 2.4.3 Mechanismen für die Regulation der Genexpression durch Butyrat (-Metaboliten) und Hypoxie 21 2.5 Fragestellungen dieser Arbeit 26 3 Ergebnisse 28 3.1 Publikation 1 28 3.2 Publikation 2 41 4 Diskussion 54 4.1 Transport von SCFA über die basolaterale Membran des Pansenepithels 54 4.1.1 Transport mittels lipophiler Diffusion 57 4.1.2 SCFA werden bevorzugt über die basolaterale Membran transportiert 58 4.1.3 SCFA(-Metaboliten) werden bikarbonatabhängig über die basolaterale Membran transportiert 59 4.1.4 SCFA(-Metaboliten) werden durch einen Anionenaustauschmechanismus ins Blut ausgeschleust 61 4.1.5 Azetat wird durch einen pHMB- und CHC-sensitiven Mechanismus transportiert 63 4.2 Der Transport von SCFA über das Pansenepithel unterliegt regulativen Einflüssen 68 4.2.1 Einfluss von Butyrat(-Metaboliten) auf die Expression von potentiellen SCFA Transportern 68 4.2.2 Mechanismen für die Regulation der Expression durch Butyrat(-Metaboliten) 72 4.3 Theoretisches Modell des SCFA-Transports und dessen Regulation auf Genexpressionsebene auf Grundlage der Ergebnisse der vorliegenden Arbeit 74 5 Zusammenfassung 76 6 Summary 78 7 Literaturverzeichnis 80 Danksagung 98Introduction: The main energy source for ruminants are short chain fatty acids (SCFA). Considering the ever increasing energy requirements of cattle due to increasing milk yield and meat production, it is crucial to identify the mechanisms for the resorption of these energy sources as well as possibilities to influence these transport mechanisms. This knowledge could help support the animals’ energy uptake or even making it more efficient. Aim: Thus, the aim of the present study was to characterise mechanisms for the resorption of SCFA focusing on their transport from the epithelial cells into the blood. In particular, since – compared to the research findings on the uptake of SCFA from ruminal lumen into the cells – so far only very little was known regarding this side of the epithelium. In a second step, the study aimed to elucidate whether the mechanisms observed are subject to regulatory processes and which signalling pathways are involved. Materials and methods: To characterise the transport mechanisms involved, epithelial pieces from the ventral sac of ovine rumen were mounted in Ussing chambers. Using radioactively labelled acetate, butyrate and L-lactate, the transport of these substrates was investigated under different conditions and by applying different inhibitors for potential SCFA transport proteins. To characterise regulatory influences, epithelial pieces were incubated with butyrate for six and 24 hours, respectively. Subsequently, total RNA and protein were extracted to detect changes in mRNA and protein expression using quantitative real time PCR and western blot, respectively. Results: The present study could show that transport of SCFA across the basolateral membrane of rumen epithelium is mainly realised by protein-mediated mechanisms. A significant participation of lipophilic diffusion, i.e. a passive transport, can almost entirely be excluded. The active transport could be divided into a bicarbonate-dependent and a bicarbonate-independent part. The experiments with inhibitors of different transport proteins showed clear evidence of an involvement of monocarboxylate transporter (MCT) 1 in the bicarbonate-dependent transport of acetate and non-metabolised SCFA in general. This evidence was supported by the finding that the expression of MCT 1 but also of the apically and intracellularly localised MCT 4 was increased significantly on both mRNA- and protein-level after long-term incubation of the epithelium with butyrate. This can be interpreted as an adaptation to a substrate accumulation. Additionally, butyrate incubation led to an increased mRNA expression of putative anion transporter (PAT) 1, which makes an involvement of this transport protein in SCFA transport across ruminal epithelium likely as well. However, in contrast to MCT 1 the localisation of PAT 1 in the basolateral membrane is still questionable. The increased expression of target genes of nuclear factor ĸB and peroxisome-proliferator activated receptor α as well as of hypoxia inducible factor strongly point to an involvement of these pathways in the increased expression of MCT 1 and 4 as well as PAT 1. Conclusions: In summary, this study could characterise the transport of SCFA across the basolateral membrane of ruminal epithelium in detail for the first time. This enables us to draw a complete model of ruminal SCFA transport. Also, evidence for regulatory influence on this transport processes was found, perhaps making it possible to influence resorption of SCFA from rumen by nutritive or pharmacological means in the future.:Inhaltsverzeichnis 1 Einleitung 1 2 Literaturübersicht 3 2.1 Bedeutung kurzkettiger Fettsäuren für Wiederkäuer 3 2.2 Metabolismus von SCFA im Pansenepithel 4 2.2.1 Aufrechterhaltung des Konzentrationsgradienten vom Pansenlumen ins Epithel 4 2.2.2 Produktion von HCO3- aus CO2 durch die Carboanhydrase 5 2.2.3 Bereitstellung von Energie für die Epithelzellen 5 2.2.4 Bereitstellung von wasserlöslichen, glukosesparenden Energiesubstraten für die periphere Zirkulation 5 2.2.5 Verhinderung möglicher Schädigungen durch Butyrat 6 2.3 Transportmechanismen für kurzkettige Fettsäuren 7 2.3.1 Para- versus transzelluläre Resorption 7 2.3.2 Transzelluläre Resorption mittels lipophiler Diffusion 7 2.3.3 Proteinvermittelte SCFA-Permeation 9 2.3.4 Permeation von SCFA aus dem Epithel ins Blut 11 2.4 Beeinflussung der SCFA-Resorption auf Genexpressionsebene 17 2.4.1 Beeinflussung der Genexpression durch Butyrat 17 2.4.2 Beeinflussung der Genexpression durch Hypoxie 20 2.4.3 Mechanismen für die Regulation der Genexpression durch Butyrat (-Metaboliten) und Hypoxie 21 2.5 Fragestellungen dieser Arbeit 26 3 Ergebnisse 28 3.1 Publikation 1 28 3.2 Publikation 2 41 4 Diskussion 54 4.1 Transport von SCFA über die basolaterale Membran des Pansenepithels 54 4.1.1 Transport mittels lipophiler Diffusion 57 4.1.2 SCFA werden bevorzugt über die basolaterale Membran transportiert 58 4.1.3 SCFA(-Metaboliten) werden bikarbonatabhängig über die basolaterale Membran transportiert 59 4.1.4 SCFA(-Metaboliten) werden durch einen Anionenaustauschmechanismus ins Blut ausgeschleust 61 4.1.5 Azetat wird durch einen pHMB- und CHC-sensitiven Mechanismus transportiert 63 4.2 Der Transport von SCFA über das Pansenepithel unterliegt regulativen Einflüssen 68 4.2.1 Einfluss von Butyrat(-Metaboliten) auf die Expression von potentiellen SCFA Transportern 68 4.2.2 Mechanismen für die Regulation der Expression durch Butyrat(-Metaboliten) 72 4.3 Theoretisches Modell des SCFA-Transports und dessen Regulation auf Genexpressionsebene auf Grundlage der Ergebnisse der vorliegenden Arbeit 74 5 Zusammenfassung 76 6 Summary 78 7 Literaturverzeichnis 80 Danksagung 9

    Butyrate Protects Porcine Colon Epithelium from Hypoxia-Induced Damage on a Functional Level

    Get PDF
    The large intestinal epithelium is confronted with the necessity to adapt quickly to varying levels of oxygenation. In contrast to other tissues, it meets this requirement successfully and remains unharmed during (limited) hypoxic periods. The large intestine is also the site of bacterial fermentation producing short-chain fatty acids (SCFA). Amongst these SCFA, butyrate has been reported to ameliorate many pathological conditions. Thus, we hypothesized that butyrate protects the colonocytes from hypoxic damage. We used isolated porcine colon epithelium mounted in Ussing chambers, incubated it with or without butyrate and simulated hypoxia by changing the gassing regime to test this hypothesis. We found an increase in transepithelial conductance and a decrease in short-circuit current across the epithelia when simulating hypoxia for more than 30 min. Incubation with 50 mM butyrate significantly ameliorated these changes to the epithelial integrity. In order to characterize the protective mechanism, we compared the effects of butyrate to those of iso-butyrate and propionate. These two SCFAs exerted similar effects to butyrate. Therefore, we propose that the protective effect of butyrate on colon epithelium under hypoxia is not (only) based on its nutritive function, but rather on the intracellular signaling effects of SCFA

    Butyrate Permeation across the Isolated Ovine Reticulum Epithelium

    Get PDF
    We hypothesized that, due to the high pH of this compartment, the reticulum epithelium displays particular features in the transport of short-chain fatty acids (SCFA). Ovine reticulum epithelium was incubated in Ussing chambers using a bicarbonate-free buffer solution containing butyrate (20 mmol L−1). p-hydroxymercuribenzoic acid (pHMB), 5-(N-Ethyl-N-isopropyl)amiloride (EIPA), or ouabain were added to the buffer solution as inhibitors of monocarboxylate transporters, sodium-proton-exchangers, or the Na+/K+-ATPase, respectively. The short-circuit current (Isc) and transepithelial conductance (Gt) were monitored continuously while the flux rates of 14C-labelled butyrate were measured in the mucosal-to-serosal (Jmsbut) or serosal-to-mucosal direction (Jsmbut). Under control conditions, the mean values of Isc and Gt amounted to 2.54 ± 0.46 µEq cm−2 h−1 and 6.02 ± 3.3 mS cm−2, respectively. Jmsbut was 2.1 ± 1.01 µmol cm−2 h−1 on average and about twice as high as Jsmbut. Incubation with ouabain reduced Jmsbut, while Jsmbut was not affected. The serosal addition of EIPA did not affect Jmsbut but reduced Jsmbut by about 10%. The addition of pHMB to the mucosal or serosal solution reduced Jmsbut but had no effect on Jsmbut. Mucosally applied pHMB provoked a transient increase in the Isc. The serosal pHMB sharply reduced Isc. Our results demonstrate that butyrate can be effectively transported across the reticulum epithelium. The mechanisms involved in this absorption differ from those known from the rumen epithelium

    Proliferation and Differentiation of Intestinal Caco-2 Cells Are Maintained in Culture with Human Platelet Lysate Instead of Fetal Calf Serum

    Get PDF
    Cell lines are widely used as in vitro model systems and substitute for animal experiments. The frequently used Caco-2 cell line is considered to reflect characteristics of differentiated intestinal epithelium. However, the need to culture the cells with fetal calf serum (FCS) induces a high variability, risk of contamination and is ethically disputed. We tested the culture of Caco-2 cells with human platelet lysate (PL) instead of FCS. We compared cell viability and differentiation by measuring ATP levels, gene and protein expression of specific markers in total cell extracts, brush border membrane vesicles (BBM) and lipid rafts (LR). Cell viability was slightly enhanced in cells grown with PL compared to FCS. The cells differentiated to an intestinal phenotype like the cells cultured in FCS, as indicated by the similar gene expression levels of hexose and protein transport proteins and the structural protein VILLIN. BBM showed a comparable distribution of the intestinal hydrolases, indicating a maintained cell membrane polarity. The distribution of the marker protein FLOTILLIN-2 in LR was also similar. We conclude that PL is an exquisite and suitable replacement for FCS in the culture of Caco-2 cells that can eliminate many disadvantages incurred due to the use of FCS

    Outcome prediction in aneurysmal subarachnoid hemorrhage: a comparison of machine learning methods and established clinico-radiological scores

    Get PDF
    Reliable prediction of outcomes of aneurysmal subarachnoid hemorrhage (aSAH) based on factors available at patient admission may support responsible allocation of resources as well as treatment decisions. Radiographic and clinical scoring systems may help clinicians estimate disease severity, but their predictive value is limited, especially in devising treatment strategies. In this study, we aimed to examine whether a machine learning (ML) approach using variables available on admission may improve outcome prediction in aSAH compared to established scoring systems. Combined clinical and radiographic features as well as standard scores (Hunt & Hess, WFNS, BNI, Fisher, and VASOGRADE) available on patient admission were analyzed using a consecutive single-center database of patients that presented with aSAH (n = 388). Different ML models (seven algorithms including three types of traditional generalized linear models, as well as a tree bosting algorithm, a support vector machine classifier (SVMC), a Naive Bayes (NB) classifier, and a multilayer perceptron (MLP) artificial neural net) were trained for single features, scores, and combined features with a random split into training and test sets (4:1 ratio), ten-fold cross-validation, and 50 shuffles. For combined features, feature importance was calculated. There was no difference in performance between traditional and other ML applications using traditional clinico-radiographic features. Also, no relevant difference was identified between a combined set of clinico-radiological features available on admission (highest AUC 0.78, tree boosting) and the best performing clinical score GCS (highest AUC 0.76, tree boosting). GCS and age were the most important variables for the feature combination. In this cohort of patients with aSAH, the performance of functional outcome prediction by machine learning techniques was comparable to traditional methods and established clinical scores. Future work is necessary to examine input variables other than traditional clinico-radiographic features and to evaluate whether a higher performance for outcome prediction in aSAH can be achieved

    HIF-P4H-2 inhibition enhances intestinal fructose metabolism and induces thermogenesis protecting against NAFLD

    Get PDF
    Non-alcoholic fatty liver disease (NAFLD) parallels the global obesity epidemic with unmet therapeutic needs. We investigated whether inhibition of hypoxia-inducible factor prolyl 4-hydroxylase-2 (HIF-P4H-2), a key cellular oxygen sensor whose inhibition stabilizes HIF, would protect from NAFLD by subjecting HIF-P4H-2-deficient (Hif-p4h-2(gt/gt)) mice to a high-fat, high-fructose (HFHF) or high-fat, methionine-choline-deficient (HF-MCD) diet. On both diets, the Hif-p4h-2(gt/gt) mice gained less weight and had less white adipose tissue (WAT) and its inflammation, lower serum cholesterol levels, and lighter livers with less steatosis and lower serum ALT levels than the wild type (WT). The intake of fructose in majority of the Hif-p4h-2(gt/gt) tissues, including the liver, was 15-35% less than in the WT. We found upregulation of the key fructose transporter and metabolizing enzyme mRNAs, Slc2a2, Khka, and Khkc, and higher ketohexokinase activity in the Hif-p4h-2(gt/gt) small intestine relative to the WT, suggesting enhanced metabolism of fructose in the former. On the HF-MCD diet, the Hif-p4h-2(gt/gt) mice showed more browning of the WAT and increased thermogenesis. A pharmacological pan-HIF-P4H inhibitor protected WT mice on both diets against obesity, metabolic dysfunction, and liver damage. These data suggest that HIF-P4H-2 inhibition could be studied as a novel, comprehensive treatment strategy for NAFLD. Key messages center dot HIF-P4H-2 inhibition enhances intestinal fructose metabolism protecting the liver. center dot HIF-P4H-2 inhibition downregulates hepatic lipogenesis. center dot Induced browning of WAT and increased thermogenesis can also mediate protection. center dot HIF-P4H-2 inhibition offers a novel, comprehensive treatment strategy for NAFLD.Peer reviewe

    A hypomyelinating leukodystrophy in German Shepherd dogs

    Get PDF
    Background Shaking puppy syndrome is commonly attributed to abnormal myelination of the central nervous system. Hypothesis/Objectives To report the long-term clinical course and the imaging characteristics of hypomyelinating leukodystrophy in German Shepherd dogs. Animals and Methods Three related litters with 11 affected dogs. Results The 11 affected dogs experienced coarse, side-to-side tremors of the head and trunk, which interfered with normal goal-oriented movements and disappeared at rest. Signs were noticed shortly after birth. Nine dogs were euthanized, 3 dogs underwent pathological examination, and 2 littermates were raised by their breeder. Tremors improved gradually until 6 to 7 months of age. Adult dogs walked with severe residual pelvic limb ataxia. One dog developed epilepsy with tonic-clonic seizures at 15 months of age. Conventional magnetic resonance imaging (MRI) disclosed homogenous hyperintense signal of the entire subcortical white matter in 3 affected 7-week-old dogs and a hypointense signal in a presumably unaffected littermate. Subcortical white matter appeared isointense to gray matter at 15 and 27 weeks of age on repeated MRI. Abnormal white matter signal with failure to display normal gray-white matter contrast persisted into adulthood. Cerebellar arbor vitae was not visible at any time point. Clinical signs, MRI findings, and pathological examinations were indicative of a hypomyelinating leukodystrophy. All parents of the affected litters shared a common ancestor and relatedness of the puppies suggested an autosomal recessive mode of inheritance. Conclusion We describe a novel hypomyelinating leukodystrophy in German Shepherd dogs with a suspected inherited origin.Peer reviewe

    Enhancing the Prediction for Shunt‑Dependent Hydrocephalus After Aneurysmal Subarachnoid Hemorrhage Using a Machine Learning Approach

    Get PDF
    Early and reliable prediction of shunt-dependent hydrocephalus (SDHC) after aneurysmal subarachnoid haemorhage (a SAH) may decrease the duration of in-hospital stay and reduce the risk of catheter-associated meningitis. Machine learning (ML) may improve predictions of SDHC in comparison to traditional non-ML methods. ML models were trained for CHESS and SDASH and two combined individual feature sets with clinical, radiographic, and laboratory variables. Seven different algorithms were used including three types of generalized linear models (GLM) as well as a tree boosting (Cat Boost) algorithm, a Nave Bayes (NB) classifier, and a multilayer perceptron (MLP) artificial neural net. The discrimination of the area under the curve (AUC) was classified (0.7≤AU

    Cryptosporidium parvum infection alters the intestinal mucosa transcriptome in neonatal calves: implications for immune function

    Get PDF
    One of the leading causes of infectious diarrhea in newborn calves is the apicomplexan protozoan Cryptosporidium parvum (C. parvum). However, little is known about its immunopathogenesis. Using next generation sequencing, this study investigated the immune transcriptional response to C. parvum infection in neonatal calves. Neonatal male Holstein-Friesian calves were either orally infected (N = 5) or not (CTRL group, N = 5) with C. parvum oocysts (gp60 subtype IIaA15G2R1) at day 1 of life and slaughtered on day 7 after infection. Total RNA was extracted from the jejunal mucosa for short read. Differentially expressed genes (DEGs) between infected and CTRL groups were assessed using DESeq2 at a false discovery rate < 0.05. Infection did not affect plasma immunohematological parameters, including neutrophil, lymphocyte, monocyte, leucocyte, thrombocyte, and erythrocyte counts as well as hematocrit and hemoglobin concentration on day 7 post infection. The immune-related DEGs were selected according to the UniProt immune system process database and were used for gene ontology (GO) and pathway enrichment analysis using Cytoscape (v3.9.1). Based on GO analysis, DEGs annotated to mucosal immunity, recognizing and presenting antigens, chemotaxis of neutrophils, eosinophils, natural killer cells, B and T cells mediated by signaling pathways including toll like receptors, interleukins, tumor necrosis factor, T cell receptor, and NF-KB were upregulated, while markers of macrophages chemotaxis and cytosolic pattern recognition were downregulated. This study provides a holistic snapshot of immune-related pathways induced by C. parvum in calves, including novel and detailed feedback and feedforward regulatory mechanisms establishing the crosstalk between innate and adaptive immune response in neonate calves, which could be utilized further to develop new therapeutic strategies
    corecore