Morphogenesis along the animal-vegetal axis: fates of primary quartet micromere daughters in the gastropod Crepidula fornicata.

BackgroundThe Spiralia are a large, morphologically diverse group of protostomes (e.g. molluscs, annelids, nemerteans) that share a homologous mode of early development called spiral cleavage. One of the most highly-conserved features of spiralian development is the contribution of the primary quartet cells, 1a-1d, to the anterior region of the embryo (including the brain, eyes, and the anterior ciliary band, called the prototroch). Yet, very few studies have analyzed the ultimate fates of primary quartet sub-lineages, or examined the morphogenetic events that take place in the anterior region of the embryo.ResultsThis study focuses on the caenogastropod slipper snail, Crepidula fornicata, a model for molluscan developmental biology. Through direct lineage tracing of primary quartet daughter cells, and examination of these cells during gastrulation and organogenesis stages, we uncovered behaviors never described before in a spiralian. For the first time, we show that the 1a2-1d2 cells do not contribute to the prototroch (as they do in other species) and are ultimately lost before hatching. During gastrulation and anterior-posterior axial elongation stages, these cells cleavage-arrest and spread dramatically, contributing to a thin provisional epidermis on the dorsal side of the embryo. This spreading is coupled with the displacement of the animal pole, and other pretrochal cells, closer to the ventrally-positioned mouth, and the vegetal pole.ConclusionsThis is the first study to document the behavior and fate of primary quartet sub-lineages among molluscs. We speculate that the function of 1a2-1d2 cells (in addition to two cells derived from 1d12, and the 2b lineage) is to serve as a provisional epithelium that allows for anterior displacement of the other progeny of the primary quartet towards the anterior-ventral side of the embryo. These data support a new and novel mechanism for axial bending, distinct from canonical models in which axial bending is suggested to be driven primarily by differential proliferation of posterior dorsal cells. These data suggest also that examining sub-lineages in other spiralians will reveal greater variation than previously assumed

The effects of mitoquinone pretreatment on doxorubicin-induced acute cardiac dysfunction

Introduction: Doxorubicin (DOX) is a widely used anti-cancer drug notorious for its irreversible cardiac toxicity. Currently, Dexrazoxane is the only FDA-approved treatment for this toxicity. However, Dexrazoxane still bears some serious adverse events, and developing new strategies to mitigate DOX-induced heart damage is critical. Our lab has shown that pretreatment of the H9c2 myoblast cells with mitoquinone (MitoQ), a mitochondrial-targeted antioxidant, and significantly improved cells’ resiliency to DOX. This study aimed to determine if MitoQ pretreatment can preserve cardiac function against DOX-induced damage in isolated rat hearts. Objectives: The effects of DOX and MitoQ on cardiac function were evaluated in isolated rat hearts. Moreover, the benefits of MitoQ pretreatment on DOX-induced cardiac dysfunction were also assessed. Methods: Langendorff heart preparation was performed after anesthesia of male SD rats (275-325 g). Hearts were isolated and retrograde perfused with Krebs’ buffer at a constant pressure of 80 mmHg with 37 ⁰C and pH of 7.35-7.45. Cardiac parameters, including left ventricle end-systolic pressure (LVESP), left ventricle end-diastolic pressure (LVEDP), left ventricular developed pressure (LVDP=LVESP-LVEDP), maximal rate of rise of LVP (dP/dt(max)), and heart rate (HR), were measured by a pressure transducer placed in the left ventricle of the rat heart. After obtaining a stable initial cardiac function, DOX (20 µM or 25 µM) or MitoQ (0.1-0.5 or 1-2.5 µM) were infused into the heart for 60 min. to determine the individual drug\u27s effects on the cardiac function. Moreover, another set of hearts was pretreated with MitoQ (0.25-0.5 or 1-2.5 µM) for 10-15 min before giving DOX (25 µM) to evaluate if MitoQ pretreatment would mitigate DOX-induced cardiac dysfunction. Cardiac functions were recorded every 5 min. throughout the experiments. The ratio between the final and initial recordings was calculated and compared among experimental groups. Results: Acute infusion of DOX into the isolated hearts dose-dependently reduced some cardiac parameters. Higher dose DOX (25 μM, n=5) induced a higher reduction in the ratios of LVESP, LVDP, and dP/dt(max) to 0.39±0.05, 0.35±0.06, and 0.26±0.05 than those of lower dose DOX infusion (20 μM, n=2; 0.77±0.01, 0.75±0.01, and 0.57±0.01), respectively. DOX had no effects on LVEDP and HR. Moreover, lower doses of MitoQ (0.1-0.5 μM, n=6) only slightly reduced HR to 0.77±0.01 without affecting other parameters. By contrast, higher doses of MitoQ (1-5 μM, n=4) reduced the ratios of LVESP, LVDP, dP/dt(max), and HR to 0.72±0.12, 0.51±0.18, and 0.45±0.17 0.65±0.07, respectively. Interestingly, MitoQ pretreatment before DOX (25 µM) exhibited better cardiac function accompanied by reduced HR than DOX alone. Higher MitoQ (1-2.5 µM) pretreatment improved the ratios of cardiac LVESP, LVDP, and dP/dt(max) to 0.67±0.14, 0.65±0.16, and 0.40±0.09, which were higher than those of lower dose MitoQ (0.25-0.5 μM, n=3; 0.49±0.11, 0.44±0.11, and 0.36±0.08), respectively. Conclusion: The preliminary data suggest that infusion of DOX into the heart acutely attenuated cardiac systolic function. Higher doses of MitoQ, not lower doses, also suppressed cardiac function. MitoQ pretreatment mitigated DOX-induced heart dysfunction. Acknowledgement: The project is funded by CCDA at PCOM

Concerted reductive coupling of an alkyl chloride at Pt(IV)

Oxidation of a doubly cyclometallated platinum(II) complex results in two isomeric platinum(IV) complexes. Whereas the trans isomer is robust, being manipulable in air at room temperature, the cis isomer decomposes at −20 °C and above. Reductive coupling of an alkyl chloride at the cis isomer gives a new species which can be reoxidised. The independence of this coupling on additional halide rules out the reverse of an SN2 reaction, leaving a concerted process as the only sensible reaction pathway

Patients with mast cell activation symptoms and elevated baseline serum tryptase level have unique bone marrow morphology

Background: Patients with mast cell (MC) activation symptoms and elevated baseline serum tryptase level (MCAS-T) may not necessarily have a clonal MC disorder. Many are diagnosed with hereditary a-tryptasemia (HaT), a genetic trait characterized by autosomal dominant inheritance of multiple copies of TPSAB1 encoding a-tryptase and increased risk for severe anaphylaxis. Objective: The aim of our study was to identify and characterize bone marrow MC histopathologic features specific for MCAS-T. Methods: A total of 43 patients with MCAS-T underwent evaluation, including bone marrow biopsy, for a MC disorder. The results of the work-up for clonal MC disorders such as systemic mastocytosis and monoclonal MC activation syndrome were negative. Bone marrow MC histopathology was reviewed to identify characteristic features of MCAS-T. A subgroup of patients was available for tryptase genotyping. Results: Patients with MCAS-T showed unique morphologic and histologic features when compared with controls. MCs were larger (P < .01), hypogranular (P < .01), frequently detected in paratrabecular (P < .05) and perivascular (P < .01) locations, and associated with bone marrow eosinophilia (P < .01). A total of 10 patients who were available for tryptase genotyping were all confirmed to have HaT. This subgroup was representative of the larger MCAS-T cohort. Conclusion: We report unique bone marrow MC phenotypic and histopathologic changes in patients with MCAS-T. These morphologic changes are associated with an elevated tryptase level that has been confirmed to be caused by HaT in all patients available for testing. (J Allergy Clin Immunol 2021;147:1497-501.

Deployment of regulatory genes during gastrulation and germ layer specification in a model spiralian mollusc Crepidula

© 2015 Wiley Periodicals, Inc. Background: During gastrulation, endoderm and mesoderm are specified from a bipotential precursor (endomesoderm) that is argued to be homologous across bilaterians. Spiralians also generate mesoderm from ectodermal precursors (ectomesoderm), which arises near the blastopore. While a conserved gene regulatory network controls specification of endomesoderm in deuterostomes and ecdysozoans, little is known about genes controlling specification or behavior of either source of spiralian mesoderm or the digestive tract. Results: Using the mollusc Crepidula, we examined conserved regulatory factors and compared their expression to fate maps to score expression in the germ layers, blastopore lip, and digestive tract. Many genes were expressed in both ecto- and endomesoderm, but only five were expressed in ectomesoderm exclusively. The latter may contribute to epithelial-to-mesenchymal transition seen in ectomesoderm. Conclusions: We present the first comparison of genes expressed during spiralian gastrulation in the context of high-resolution fate maps. We found variation of genes expressed in the blastopore lip, mouth, and cells that will form the anus. Shared expression of many genes in both mesodermal sources suggests that components of the conserved endomesoderm program were either co-opted for ectomesoderm formation or that ecto- and endomesoderm are derived from a common mesodermal precursor that became subdivided into distinct domains during evolution.Spanish MICINN and the UAM, and funded by project CGL2011-29916 (MICINN)Peer Reviewe

Impact of foot-and-mouth disease on mastitis and culling on a large-scale dairy farm in Kenya

Foot and mouth disease (FMD) is a highly transmissible viral infection of cloven hooved animals associated with severe economic losses when introduced into FMD-free countries. Information on the impact of the disease in FMDV-endemic countries is poorly characterised yet essential for the prioritisation of scarce resources for disease control programmes. A FMD (virus serotype SAT2) outbreak on a large-scale dairy farm in Nakuru County, Kenya provided an opportunity to evaluate the impact of FMD on clinical mastitis and culling rate. A cohort approach followed animals over a 12-month period after the commencement of the outbreak. For culling, all animals were included; for mastitis, those over 18 months of age. FMD was recorded in 400/644 cattle over a 29-day period. During the follow-up period 76 animals were culled or died whilst in the over 18 month old cohort 63 developed clinical mastitis. Hazard ratios (HR) were generated using Cox regression accounting for non-proportional hazards by inclusion of time-varying effects. Univariable analysis showed FMD cases were culled sooner but there was no effect on clinical mastitis. After adjusting for possible confounders and inclusion of time-varying effects there was weak evidence to support an effect of FMD on culling (HR = 1.7, 95% confidence intervals [CI] 0.88-3.1, P = 0.12). For mastitis, there was stronger evidence of an increased rate in the first month after the onset of the outbreak (HR = 2.9, 95%CI 0.97-8.9, P = 0.057)

Anthropogenic disruptions to longstanding patterns of trophic-size structure in vertebrates

Diet and body mass are inextricably linked in vertebrates: while herbivores and carnivores have converged on much larger sizes, invertivores and omnivores are, on average, much smaller, leading to a roughly U-shaped relationship between body size and trophic guild. Although this U-shaped trophic-size structure is well documented in extant terrestrial mammals, whether this pattern manifests across diverse vertebrate clades and biomes is unknown. Moreover, emergence of the U-shape over geological time and future persistence are unknown. Here we compiled a comprehensive dataset of diet and body size spanning several vertebrate classes and show that the U-shaped pattern is taxonomically and biogeographically universal in modern vertebrate groups, except for marine mammals and seabirds. We further found that, for terrestrial mammals, this U-shape emerged by the Palaeocene and has thus persisted for at least 66 million years. Yet disruption of this fundamental trophic-size structure in mammals appears likely in the next century, based on projected extinctions. Actions to prevent declines in the largest animals will sustain the functioning of Earth's wild ecosystems and biomass energy distributions that have persisted through deep time

Statewide cross-sectional survey of emergency departments\u27 adoption and implementation of the Ohio opioid prescribing guidelines and opioid prescribing practices

Study objective To evaluate the implementation of the Ohio Emergency and Acute Care Facility Opioids and Other Controlled Substances Prescribing Guidelines and their perceived impact on local policies and practice. Methods The study design was a cross-sectional survey of emergency department (ED) medical directors, or appropriate person identified by the hospital, perception of the impact of the Ohio ED Opioid Prescribing Guidelines on their departments practice. All hospitals with an ED in Ohio were contacted throughout October and November 2016. Distribution followed Dillman’s Tailored Design Method, augmented with telephone recruitment. Hospital chief executive officers were contacted when necessary to encourage ED participation. Descriptive statistics were used to assess the impact of opioid prescribing policies on prescribing practices. Results A 92% response rate was obtained (150/163 EDs). In total, 112 (75%) of the respondents stated that their ED has an opioid prescribing policy, is adopting one or is implementing prescribing guidelines without a specific policy. Of these 112 EDs, 81 (72%) based their policy on the Ohio ED Opioid Prescribing Guidelines. The majority of respondents strongly agreed/agreed that the prescribing guidelines have increased the use of the prescription drug monitoring programme (86%) and have reduced inappropriate opioid prescribing (71%). Conclusion This study showed that the Ohio ED Opioid Prescribing Guidelines have been widely disseminated and that the majority of EDs in Ohio are using them to develop local policies. The majority of respondents believed that the Ohio opioid prescribing guidelines reduced inappropriate opioid prescribing. However, prescribing practices still varied greatly between EDs

A novel series of positive modulators of the AMPA receptor : discovery and structure based hit-to-lead studies

Starting from an HTS derived hit 1, application of biostructural data facilitated rapid optimization to lead 22, a novel AMPA receptor modulator. This is the first demonstration of how structure based drug design can be exploited in an optimization program for a glutamate receptor