Methylprednisolone induced morning lymphocytosis: A prospective study in patients with immune mediated inflammatory disorders.

INTRODUCTION: Contrasting with the lymphopenia classically reported after administration of glucocorticoids, a lymphocytosis has been sometimes observed in patients after glucocorticoid administration. We here determine prospectively the timing and magnitude of methylprednisolone (mPDN)-induced lymphocytosis and study the effects of concomitant propranolol administration on lymphocyte count (Ly). METHODS: Ly was measured before and 24 to 72hours after initiating mPDN treatment in 20 patients with immune-mediated inflammatory disorders (IMID). After one week, patients with increased Ly were divided in two groups receiving, in addition to mPDN, either propranolol or a placebo; Ly was determined 4 days later. Lymphocyte subpopulations and mPDN plasma levels were determined in subsets of the patients. Values are expressed as median with 25%-75% interquartile range. RESULTS: A 73.4% (37-305) increase of Ly was observed in 18/20 patients as soon as 48 (48-72) hours after initiating mPDN (32mg; 16-32). Lymphocytosis (Ly≥4000/µL) was observed in 7 patients and hyperlymphocytosis (Ly≥5000/µL) in 4 of them. The increase in Ly was noted both for B and T cells. Median mPDN plasma levels (n=13) were 97.4ng/mL (IQR 67-489) and 3.2 (IQR 2.1-5.1) respectively 8hours and 24hours after oral mPDN administration. No significant change in Ly was shown under propranolol (p=0.570). CONCLUSION: A morning lymphocytosis observed during mPDN treatment occurs in the very first days of mPDN administration. Our results do not support the hypothesis of an increased adrenergic tone responsible for this phenomenon. Identifying this unexpected etiology of lymphocytosis could mitigate the need for unnecessary supplementary investigations in clinical practice.

Mass spectrometry analysis of environmental pollutants in breast and artificial milk for newborns.

Environmental toxins, particularly liposoluble compounds that accumulate in adipose tissues, present a risk for newborns, not only through breastfeeding but also through artificial milks. These compounds pass into breast milk, potentially exposing infants to harmful substances. In a monocentric observational study carried out in the Charleroi region, we employed liquid chromatography coupled with mass spectrometry to analyze the presence of environmental toxins in milk for newborns. Out of 39 breast milk and 12 artificial milk samples analyzed, 15 and six contained at least one pesticide, respectively, with nine different pesticides identified from a panel of 54 substances tested. The study found an association between the consumption of fresh produce and a higher presence of pesticides in breast milk. This. highlights the broader issue of environmental toxin exposure for infants, regardless of the feeding method. The results underline the need for a comprehensive approach when considering the establishment of breast milk banks and the safety of artificial milk, especially in the context of potential risks to premature newborns. Our findings not only validate the analysis technique for detecting toxins in breast milk but also suggest the necessity for a larger prospective study to explore these risks in the future.

Targeted metabolomics and transcript profiling of methyltransferases in three coffee species.

Coffee plants contain well-known xanthines as caffeine. Three Coffea species grown in a controlled greenhouse environment were the focus of this research. Coffea arabica and C. canephora are two first principal commercial species and commonly known as arabica and robusta, respectively. Originating in Central Africa, C. anthonyi is a novel species with small leaves. The xanthine metabolites in flower, fruit and leaf extracts were compared using both targeted and untargeted metabolomics approaches. We evaluated how the xanthine derivatives and FQA isomers relate to the expression of biosynthetic genes encoding N- and O-methyltransferases. Theobromine built up in leaves of C. anthonyi because caffeine biosynthesis was hindered in the absence of synthase gene expression. Despite this, green fruits expressed these genes and they produced caffeine. Given that C. anthonyi evolved successfully over time, these findings put into question the defensive role of caffeine in leaves. An overview of the histolocalisation of xanthines in the different flower parts of Coffea arabica was also provided. The gynoecium contained more theobromine than the flower buds or petals. This could be attributed to increased caffeine biosynthesis before fructification. The presence of theophylline and the absence of theobromine in the petals indicate that caffeine is catabolized more in the petals than in the gynoecium.

Development and validation of online SPE purification coupled to HILIC-fluorescence-MS analysis for the characterization of N-glycans.

N-glycans of therapeutic glycoproteins is a critical quality attribute to be addressed. We developed a sensitive method for N-glycan characterization using procainamide (ProcA) labelling and online solid phase extraction (online SPE). N-glycans were enzymatically released, then labeled with ProcA and cleaned up via the online SPE using HILIC chemistry (online HILIC SPE). Two preparation protocols were optimized: a short one (1 h 30) and a long one (18 h). Furthermore, the developed approach was compared to RapiFluor-MS (RFMS) kit (from Waters) and to InstantPC kit (from Agilent) which both include a classical HILIC µElution plate SPE purification. Samples were analyzed using HILIC separation coupled to fluorescence and MS detection (HILIC-FLD-MS) with or without the online HILIC SPE. During the validation, repeatability, intermediate precision, stability, response function and injection volume were tested. Human IgG mix (Multigam®) and NIST mAb standard were used as references as their glycoprofiles are well described. A comparison of three batches of a rituximab biosimilar (Truxima®) and one batch of its originator (MabThera®) was also performed. Online HILIC SPE sample cleanup shows a higher sensitivity and repeatability compared to the classical HILIC µElution SPE. Our online HILIC SPE approach also offers the highest MS signal compared to both commercial kits. However, InstantPC shows the highest FLD signal. The analyses of rituximab samples were in line with the literature showing the efficiency of the method for N-glycan monitoring of biotherapeutics. In conclusion, the results demonstrated the usefulness and ease of application of the developed protocol with the online HILIC SPE purification.

Chemical composition of propolis extract and its effects on epirubicin-induced hepatotoxicity in rats

ABSTRACT Propolis is a natural substance, produced by honeybees from the resin of various plants. The purpose of this study was to determine the chemical composition and evaluate the hepatoprotective effect of ethyl acetate extract of propolis from Tigzirt, against the toxicity induced by epirubicin which is a anticancer agent, and belongs to the family of antracyclines. The study included thirty male Wistar albino rats divided into five groups. The rats received the extraction of propolis or the quercetin orally for 15 days. The hepatotoxicity was promoted by injection epirubicin (i.v.) with a cumulative dose of 9 mg/kg. Several biological parameters were measured. Oxidative status was also assessed by evaluating antioxidant enzyme and histological study of some organs. Epirubicin caused oxidative stress by a significant decrease in hepatic antioxidant enzymes (gluthation peroxidase, catalase, superoxide dismutase), increased malondialdehyde and liver parameters (ASAT, ALAT, γGT, ALP) compared to the control. The histological study revealed major damage to the liver. Perturbations in this liver function, antioxidant status and damage to the liver by epirubicin have been repaired by the administration of propolis. Furthermore, epirubicin showed inflammatory effects induced by an increase in TNF-α and PGE2. Pretreatment with propolis to rats restored these inflammatory parameters. The chemical identification of extract of propolis by HPLC/UV shows the presence of polyphenolic compounds and many flavonoids. The propolis extract showed a significant reduction in oxidative damage from oxidative stress and a very important protective effect against epirubicin-induced hepatotoxicity.