FGF23 metabolism, a new paradigm for chronic kidney disease

Introduction:  Fibroblast growth factor-23 (FGF23) is a major regulator of phosphate metabolism often elevated in genetic hypophosphataemic disorders and in chronic kidney disease. Recent studies have identified relationships between FGF23 and various markers of iron status including ferritin. New assays measuring the intact form of FGF23 have been released.  Objective:  To determine the relationship between ferritin and C-terminal and intact FGF23 concentrations in blood.  Method:  FGF23 concentrations were measured using the 2nd generation, two-site enzyme-linked immunosorbent assay for either C-terminal or intact FGF23 (Immutopics Inc., Ca, USA). Ferritin was measured on a COBAS 6000 (Roche Diagnostics). Assay accuracy and precision were monitored using kit controls supplied by the manufacturers.  Results:  We observe a weak negative correlation between measurements of C-terminal and intact FGF23 (Pearson’s rho=0.85 p<0.0001). We observed no statistically significant correlation of ferritin concentrations with either FGF23 C-terminal or intact. However high concentrations of ferritin were observed in samples showing low concentrations of C-terminal FGF23 (<140RU/mL) and intact FGF23 (<122pg/mL).  Conclusion:  Although not statistically significant, we observe a negative relationship between concentrations of ferritin and FGF23. High level of C-terminal FGF23 is found in patients with chronic kidney disease, especially in patients with end-stage renal disease usually regarded as a compensatory response to hyperphosphatemia or phosphate overload. We observed a cluster of patients with retention of both C-terminal and intact FGF23 associated with low levels of ferritin suggesting that metabolism and/or excretion of FGF23 in CDK patients might be an iron dependent mechanism

Assessment of vitamin D status using MitraTM volumetric absorptive microsampling (VAMS) device

Introduction: The use of dried blood spot (DBS) sampling for general wellness assessment and in clinical diagnostics has gained popularity as a convenient and less invasive alternative to venous sampling. Collection of blood samples from a finger/heel prick using conventional filter paper suffers from variability in sample volume and spot sizes which undermine the quality of results. We describe the use of a volumetric absorptive microsampler (VAMS), called MitraTM (Torrance, CA, USA) for measurement of 25OHD3 and interpretation of vitamin D status according to current international guidelines.  Method: A liquid-chromatography mass spectrometry (LC-MS/MS) method was used for measurement of 25OHD3 (Tang et al. ASBMR 2015, LB-MO0026). We compared results from patient samples (n=97) collected by VAMS and Whatman® 903 cards extracted as whole spot (wDBS) and sub-punches (spDBS) against plasma 25OHD3 concentration. We investigated the volume displacement effects of haematocrit (Hct) on DBS 25OHD3 measurements and described the use of DBS-to-plasma equivalence value (PEV) to allow accurate interpretation of vitamin D status.  Results: VAMS showed the best assay precision CV (<8.2%) compared to wDBS (<16.6%) and spDBS (<15.1%) across the assay range of 0.1-125 nmol/L, the least variability in recovery and lowest LLoQ (Figure 1). We observed a decrease in DBS 25OHD3 concentration in proportion to the reduction in plasma volume and increase in packed cell volume. The displacement effect of Hct resulted in a strong but negatively biased correlation (r2=0.893, -39.3%) between raw DBS values and plasma concentrations, that was dependent upon the level of Hct present in sample. We demonstrated the use of simple linear regression model to transform raw DBS values into PEVs. In a subsequent cohort of patient samples (n=70), PEVVAMS produced the most accurate interpretation of vitamin D status compared to PEVwDBS and PEVspDBS.  Discussion: We present data supporting the use of VAMS for measurement of 25(OH)D3, particularly in circumstances where venesection may be impossible or difficult and where sample volume may be limited. Although the recovery of analyte remains Hct-dependent, the use of DBS-to-plasma equivalence values improves the clinical applicability and broadens the utility of DBS as a sampling technique

Reference intervals for serum 24,25-Dihydroxyvitamin D and the ratio with 25-Hydroxyvitamin established using a newly developed LC-MS/MS method

24,25(OH)2D is the product of 25(OH)D catabolism by CYP24A1.The measurement of serum 24,25(OH)2D concentration may serve as an indicator of vitamin D catabolic status and the relative ratio with 25(OH)D can be used to identify patients with inactivating mutations in CYP24A1. We describe a LC-MS/MS method to determine: 1) the relationships between serum 24,25(OH)2D and 25(OH)D; 2) serum reference intervals in healthy individuals; 3) the diagnostic accuracy of 24,25(OH)2D measurement as an indicator for vitamin D status; 4) 24,25(OH)2D cut-off value for clinically significant change between inadequate and sufficient 25(OH)D status. Serum samples of healthy participants (n=1996) from Army recruits and patients (n=294) were analysed. The LC-MS/MS assay satisfied industry standards for method validation. We found a positive, concentration-dependent relationship between serum 24,25(OH)2D and 25(OH)2D concentrations. The 25(OH)D:24,25(OH)2D ratio was significantly higher (p4.2 nmol/L was identified as a diagnostic cut-off for 25(OH)D replete status. One patient sample with an elevated 25(OH)D:24,25(OH)2D ratio of 32 and hypercalcaemia who on genetic testing confirmed to have a biallelic mutation of CYP24A1. Our study demonstrated the feasibility of a combined 24,25(OH)2D and 25(OH)D assessment profile. Our established cut-off value for 24,25(OH)2D and ratio reference ranges can be useful to clinicians in the investigation of patients with an impaired calcium/phosphate metabolism and may point towards the existence of CYP24A1 gene abnormalities

Oral administration of dextran sodium sulphate induces a caecum-localized colitis in rabbits

Trichuris suis ova (TSO) have shown promising results in the treatment of inflammatory bowel disease (IBD) but the mechanisms which underlies this therapeutic effect cannot be studied in mice and rats as T. suis fails to colonize the rodent intestine, whilst hatching in humans and rabbits. As a suitable rabbit IBD model is currently not available, we developed a rabbit colitis model by administration of dextran sodium sulphate (DSS). White Himalayan rabbits (n = 12) received 0.1% DSS in the daily water supply for five days. Clinical symptoms were monitored daily, and rabbits were sacrificed at different time points. A genomewide expression analysis was performed with RNA isolated from caecal lamina propria mononuclear cells (LPMC) and intestinal epithelial cells (IEC). The disease activity index of DSS rabbits increased up to 2.1 ± 0.4 (n = 6) at day 10 (controls <0.5). DSS induced a caecum-localized pathology with crypt architectural distortion, stunted villous surface and inflammatory infiltrate in the lamina propria. The histopathology score reached a peak of 14.2 ± 4.9 (n = 4) at day 10 (controls 7.7 ± 0.9, n = 5). Expression profiling revealed an enrichment of IBD-related genes in both LPMC and IEC. Innate inflammatory response, Th17 signalling and chemotaxis were among the pathways affected significantly. We describe a reproducible and reliable rabbit model of DSS colitis. Localization of the inflammation in the caecum and its similarities to IBD make this model particularly suitable to study TSO therapy in vivo

Predicting river phytoplankton blooms and community succession using ecological niche modeling

Excessive phytoplankton concentrations in rivers can result in the loss of plant and invertebrate communities, and threaten drinking water supplies. Whilst the physicochemical controls on algal blooms have been identified previously, how these factors combine to control the initiation, size, and cessation of blooms in rivers is not well understood. We applied flow cytometry to quantify diatom, chlorophyte, and cyanobacterial group abundances in the River Thames (UK) at weekly intervals from 2011 to 2022, alongside physicochemical data. A niche modeling approach was used to identify thresholds in water temperature, flow, solar radiation, and soluble reactive phosphorus (SRP) concentrations required to produce periods of phytoplankton growth, with blooms only occurring when all thresholds were met. The thresholds derived from the 2011 to 2018 dataset were applied to a test data set (2019–2022), which predicted the timing and duration of blooms at accuracies of > 80%. Diatoms and nano-chlorophyte blooms were initiated by flow and water temperature, and usually terminated due to temperature and flow going out of the threshold range, or SRP and Si becoming limiting. Cyanobacterial bloom dynamics were primarily controlled by water temperature and solar radiation. This simple methodology provides a key understanding of phytoplankton community succession and inter-annual variation and can be applied to any river with similar water quality and phytoplankton data. It provides early warnings of algal and cyanobacterial bloom timings, which support future catchment management decisions to safeguard water resources, and provides a basis for modeling changing phytoplankton bloom risk due to future climate change

Multiple Changes in Peptide and Lipid Expression Associated with Regeneration in the Nervous System of the Medicinal Leech

peer reviewe

The biophysical climate mitigation potential of boreal peatlands during the growing season

Peatlands and forests cover large areas of the boreal biome and are critical for global climate regulation. They also regulate regional climate through heat and water vapour exchange with the atmosphere. Understanding how land-atmosphere interactions in peatlands differ from forests may therefore be crucial for modelling boreal climate system dynamics and for assessing climate benefits of peatland conservation and restoration. To assess the biophysical impacts of peatlands and forests on peak growing season air temperature and humidity, we analysed surface energy fluxes and albedo from 35 peatlands and 37 evergreen needleleaf forests-the dominant boreal forest type-and simulated air temperature and vapour pressure deficit (VPD) over hypothetical homogeneous peatland and forest landscapes. We ran an evapotranspiration model using land surface parameters derived from energy flux observations and coupled an analytical solution for the surface energy balance to an atmospheric boundary layer (ABL) model. We found that peatlands, compared to forests, are characterized by higher growing season albedo, lower aerodynamic conductance, and higher surface conductance for an equivalent VPD. This combination of peatland surface properties results in a similar to 20% decrease in afternoon ABL height, a cooling (from 1.7 to 2.5 degrees C) in afternoon air temperatures, and a decrease in afternoon VPD (from 0.4 to 0.7 kPa) for peatland landscapes compared to forest landscapes. These biophysical climate impacts of peatlands are most pronounced at lower latitudes (similar to 45 degrees N) and decrease toward the northern limit of the boreal biome (similar to 70 degrees N). Thus, boreal peatlands have the potential to mitigate the effect of regional climate warming during the growing season. The biophysical climate mitigation potential of peatlands needs to be accounted for when projecting the future climate of the boreal biome, when assessing the climate benefits of conserving pristine boreal peatlands, and when restoring peatlands that have experienced peatland drainage and mining.Peer reviewe

Marine mammals exploring the oceans pole to pole

Polar oceans are poorly monitored despite the important role they play in regulating Earth’s climate system. Marine mammals equipped with biologging devices are now being used to fill the data gaps in these logistically difficult to sample regions. Since 2002, instrumented animals have been generating exceptionally large data sets of oceanographic CTD casts (>500,000 profiles), which are now freely available to the scientific community through the MEOP data portal (http://meop.net). MEOP (Marine Mammals Exploring the Oceans Pole to Pole) is a consortium of international researchers dedicated to sharing animal-derived data and knowledge about the polar oceans. Collectively, MEOP demonstrates the power and cost-effectiveness of using marine mammals as data-collection platforms that can dramatically improve the ocean observing system for biological and physical oceanographers. Here, we review the MEOP program and database to bring it to the attention of the international community.http://www.tos.org/oceanographyam2017Mammal Research InstituteZoology and Entomolog

Transgressive drinking practices and the subversion of proscriptive alcohol policy messages

This research makes a new contribution to alcohol policy practice and theory by demonstrating that transgression of officially sanctioned norms and values is a key component of the sub- and counter cultural drinking practices of some groups of young consumers. Therefore, policy messages that proscribe these drinking practices with moral force are likely to be subverted and rendered counter-productive. The qualitative analysis draws on critical geography and literary theories of the carnivalesque to delineate three categories of transgression: transgressions of space and place, transgressions of the body, and transgressions of the social order. Implications for alcohol policy are discussed