Hsp83 regulates the fate of germline stem cells in Drosophila ovary

正In adult tissues,stem cells are defined by their unique capacity to self-renew and produce differentiated cells to maintain tissue homeostasis.Drosophila ovarian germline stem cells(GSCs)provide a powerful model for investigating the regulatory mechanisms underlying stem cell fate determination in vivo(Chen and Mckearin,     

Hematological indices and oxidative stress biomarkers response to the starvation of Clarias gariepinus

Starvation effects for five weeks on energy reserves, oxidative stress and hematological indices in Nile catfish Clarias gariepinus was studied. The low protein level in starved fish may result from the lowering effect of prolonged starvation on protein synthesis rather than due to its degenerating protein. Moreover, the elevated level of serum amino acids may promote gluconeogenesis in liver. In addition, the lipid depletion in starved fish may be related to the preferential uses of lipids as an energy to starve fish. Also, unchanged glycemic level may introduce a potent evidence for the presence of active gluconeogenesis, depending on both amino and fatty acids precursors. Also, kidney and liver showed disturbances in metabolites associated with oxidative damage such as elevations in total peroxide, carbonyl protein and DNA fragmentation; these may cause dysfunction to these organs after five weeks of starvation. Total peroxide, carbonyl protein and DNA fragmentation were significantly increased in gills, liver and kidney by 29.9, 30.9 and 30.5; 83.6, 84.6 and 53.7; 82.4, 43.3 and 75.7%, respectively. Starvation induced severe anemia and loss of body weight in the fish. However, white muscle did not show any oxidative damage after five weeks of starvation.     

BET bromodomain ligands: Probing the WPF shelf to improve BRD4 bromodomain affinity and metabolic stability

Ligands for the bromodomain and extra-terminal domain (BET) family of bromodomains have shown promise as useful therapeutic agents for treating a range of cancers and inflammation. Here we report that our previously developed 3,5-dimethylisoxazole-based BET bromodomain ligand (OXFBD02) inhibits interactions of BRD4(1) with the RelA subunit of NF-κB, in addition to histone H4. This ligand shows a promising profile in a screen of the NCI-60 panel but was rapidly metabolised (t_½?=?39.8?min). Structure-guided optimisation of compound properties led to the development of the 3-pyridyl-derived OXFBD04. Molecular dynamics simulations assisted our understanding of the role played by an internal hydrogen bond in altering the affinity of this series of molecules for BRD4(1). OXFBD04 shows improved BRD4(1) affinity (IC₅₀?=?166?nM), optimised physicochemical properties (LE?=?0.43; LLE?=?5.74; SFI?=?5.96), and greater metabolic stability (t_½?=?388?min).     

Bacterial infection and tissue-specific Hsp72, -73 and -90 expression in western painted turtles

Heat shock proteins (Hsps) are molecular chaperones that assist intracellular folding, assembly and translocation of proteins in prokaryotic and eukaryotic cells. A variety of stresses including hyperthermia, radiation, heavy metals, ischemia, anoxia and reoxygenation have been shown to increase the expression of Hsps. Likewise, bacterial infection represents a stress for the host cell. In this study, expression of the constitutive (Hsp73) and inducible (Hsp72) isoforms of Hsp70 and Hsp90 was monitored in brain, heart, liver and skeletal muscle from the western painted turtle Chrysemys picta bellii diagnosed with Septicemic Cutaneous Ulcerative Dermatitis (SCUD). This disease is caused by a gram-negative bacterium probably belonging to the Citrobacter spp. The expression of Hsp73 increased 1.8-fold in brain and liver, 2.2-fold in heart but did not change in skeletal muscle; Hsp72 expression increased 5.5-fold in brain and 3-fold in liver but did not change in heart or skeletal muscle; Hsp90 expression increased 9-fold in brain, 2.7-fold in heart and 2.4-fold in skeletal muscle but did not change in liver. These results suggest a tissue-specific Hsp response during bacterial infection and a role for Hsps in immunopathological events in reptiles.     

Neural reapportionment: an hypothesis to account for the function of sleep

Sleep is a ubiquitous component of animal life, and prolonged sleep deprivation is fatal in both vertebrates and invertebrates. The physiologic function of sleep, however, is not known. We propose here that sleep provides a period of time necessary to reapportion resources within neurons and neural systems that become sub-optimally distributed during active waking. Three specific examples of such reapportionment during sleep are suggested: (1) the return of the neurotransmitter, glutamate, to synaptic vesicles at presynaptic sites most active during waking, (2) the intracellular movement of mitochondria from neuronal processes to the cells soma where mitochondrial replication can occur, and (3) the readjustment of the level and distribution of neurotransmitters within the brainstem modulatory systems and elsewhere that must function in an integrated fashion during waking. Experimental approaches that might be utilized to test these hypotheses are suggested.     

Selectivity of different biological products to the egg parasitoid Telenomus remus (Hymenoptera: Platygastridae)

The selectivity of five entomopathogens and a chemical insecticide (positive control) to pupae and adults of the egg parasitoid Telenomus remus (Nixon) was evaluated in the laboratory under controlled environmental conditions according to protocols established by the International Organization for Biological Control. Baculovirus anticarsia (Baculovirus AEE^®), Bacillus thuringiensis var. kurstaki (Thuricide^®), Bacillus thuringiensis var. aizawai (Agree^®), Beauveria bassiana (Boveril^®), Metarhizium anisopliae (Metarril^®) and Trichoderma harzianum (Trichodermil^®) are harmless to T. remus pupae, and adults. Thus, our results suggest that the insect control strategies applied here are compatible since entomopathogens were classified as harmless to T. remus in most examined cases and therefore facilitate a joint application to control different pests. Bacillus thuringiensis var. kurstaki (Dipel^®), despite being classified as slightly harmful in some of the evaluations, can still be considered compatible for use together with T. remus, especially when compared with chemical insecticides such as chlorpyrifos that might be considered harmful to the parasitoid survival.     

Development of a novel NURR1/NOT agonist from hit to lead and candidate for the potential treatment of Parkinson's disease

In the course of a programme aimed at identifying Nurr1/NOT agonists for potential treatment of Parkinson’s disease, a few hits from high throughput screening were identified and characterized. A combined optimization pointed to a very narrow and stringent structure activity relationship. A comprehensive program of optimization led to a potent and safe candidate drug displaying neuroprotective and anti-inflammatory activity in several in vitro and in vivo models.     

An apparatus for safe and convenient handling of anhydrous, liquid hydrogen fluoride at controlled temperatures and reaction times. Application to the generation of oligosaccharides from polysaccharides

β-d-Gal-(1 → 4)-β-d-GlcNAc-OC₆H₄NO₂-p (p-nitrophenyl N-acetyl-β-lactosaminide) and β-d-Gal-(1 → 6)-β-d-GlcNAc-OC₆H₄NO₂-p (p-nitrophenyl N-acetyl-β-isolactosaminide) were regioselectively synthesized from lactose and p-nitrophenyl 2-acetamido-2-deoxy-glucopyranoside, employing transglycosylation by the β-d-galactosidase from Bacillus circulans and by controlling the concentration of organic solvent in the reaction system. The (1 → 4)-linked disaccharide was formed exclusively when the concentration of organic solvent was high, whereas the (1 → 6)-linked isomer was produced with a low concentration. Further utilization of the transglycosylation by the enzyme led to the regioselective formation of β-d-Gal-(1 → 4)-d-GalNAc and β-d-Gal-(1 → 4)-β-d-GalNAc-OC₆H₄NO₂-p. With the enzyme, β-d-galactosyl transfer occurred preferentially at the O-4 position of GlcNAc and GalNAc, regardless of the configuration of the hydroxyl group.