The genetic mechanisms of how free-living nematodes evolved into parasites are unknown. Current genetic model nematodes (e.g. Caenorhabditis elegans) are not well suited to provide the answer, and ...mammalian parasites are expensive and logistically difficult to maintain. Here we propose the terrestrial gastropod parasite Phasmarhabditis hermaphrodita as a new alternative to study the evolution of parasitism, and outline the methodology of how to keep P. hermaphrodita in the lab for genetic experiments. We show that P. hermaphrodita (and several other Phasmarhabditis species) are easy to isolate and identify from slugs and snails from around the UK. We outline how to make isogenic lines using 'semi-natural' conditions to reduce in-lab evolution, and how to optimize growth using nematode growth media (NGM) agar and naturally isolated bacteria. We show that P. hermaphrodita is amenable to forward genetics and that unc and sma mutants can be generated using formaldehyde mutagenesis. We also detail the procedures needed to carry out genetic crosses. Furthermore, we show natural variation within our Phasmarhabditis collection, with isolates displaying differences in survival when exposed to high temperatures and pH, which facilitates micro and macro evolutionary studies. In summary, we believe that this genetically amenable parasite that shares many attributes with C. elegans as well as being in Clade 5, which contains many animal, plant and arthropod parasites, could be an excellent model to understand the genetic basis of parasitism in the Nematoda.
A parasitological survey of terrestrial slugs and snails was conducted at popular dog walking locations across the city of Nottingham, with the intensions of finding gastropods infected with ...parasites of medical (or veterinary) importance such as lungworm (metastrongyloid nematodes) and trematodes. A total of 800 gastropods were collected from 16 sites over a 225 km2 area. The extracted nematodes and trematodes were identified by molecular barcoding. Of the 800 gastropods collected, 227 were infected (172 had nematode infections, 37 had trematode infections and 18 had both nematode and trematode infections). Of the nematode infected gastropods genotyped, seven species were identified, Agfa flexilis, Angiostoma gandavense, Angiostoma margaretae, Cosmocerca longicauda, Phasmarhabditis hermaphrodita, Phasmarhabditis neopapillosa and an unknown Cosmocercidae species. Of the trematode infected gastropods genotyped, four species were identified, Brachylaima arcuate, Brachylaima fuscata, Brachylaima mesostoma and an unknown Plagiorchioidea species. No lungworm species were found within the city of Nottingham. To our knowledge, this study represents the first survey of gastropod-associated nematodes and trematodes in the East midlands of the United Kingdom.
An optical biosensor for lactate detection is described. By encapsulating enzyme-phosphor sensing molecules within permeable hydrogel materials, lactate-sensitive emission lifetimes were achieved. ...The relative amount of monomer was varied to compare three homo- and co-polymer materials: poly(2-hydroxyethyl methacrylate) (pHEMA) and two copolymers of pHEMA and poly(acrylamide) (pAam). Diffusion analysis demonstrated the ability to control lactate transport by varying the hydrogel composition, while having a minimal effect on oxygen diffusion. Sensors displayed the desired dose-variable response to lactate challenges, highlighting the tunable, diffusion-controlled nature of the sensing platform. Short-term repeated exposure tests revealed enhanced stability for sensors comprising hydrogels with acrylamide additives; after an initial "break-in" period, signal retention was 100% for 15 repeated cycles. Finally, because this study describes the modification of a previously developed glucose sensor for lactate analysis, it demonstrates the potential for mix-and-match enzyme-phosphor-hydrogel sensing for use in future multi-analyte sensors.
ZPPR (Zero Power Physics Reactor) is a research reactor that has been used to investigate breeder reactor fuel designs. The reactor has been dismantled but its fuel is still stored there. Of concern ...are its plutonium containing metal fuel elements which are enclosed in stainless steel cladding with gas space filled with helium–argon gas and welded air tight. The fuel elements which are 5.08cm by 0.508cm up to 20.32cm long (2 in×0.2 in×8 in) were manufactured in 1968. A few of these fuel elements have failed releasing contamination raising concern about the general state of the large number of other fuel elements. Inspection of the large number of fuel elements could lead to contamination release so analytical studies have been conducted to estimate the probability of failed fuel elements. This paper investigates the possible fuel failures due to generation of helium in the metal fuel from the decay of Pu and its possible damage to the fuel cladding from metal fuel expansion or from diffusion of helium into the fuel gas space.
This paper (1) calculates the initial gas loading in a fuel element and its internal free volume after it has been brought into the atmosphere at ZPPR, (2) shows that the amount of helium generated by decay of Pu over 46years since manufacture is significantly greater than this initial loading, (3) determines the amount of fuel swelling if the helium stays fixed in the fuel plate and estimates the amount of helium which diffuses out of the fuel plate into the fuel plenum assuming the helium does not remain fixed in the fuel plate but can diffuse to the plenum and possibly through the cladding. Since the literature is not clear as to which possibility occurs, as with Schroedinger’s cat, both possibilities are analyzed. The paper concludes that (1) if the gas generated is fixed in the fuel, then the fuel swelling it can cause would not cause any fuel failure and (2) if the helium does diffuse out of the fuel (in accordance diffusivities estimated from the literature), then it is unlikely that fuel element bulging will occur.
: The Gly93→Ala mutation in the Cu,Zn superoxide dismutase (Cu,Zn‐SOD) gene (SOD1) found in some familial amyotrophic lateral sclerosis (FALS) patients has been shown to result in an aberrant ...increase in hydroxyl radical production by the mutant enzyme that may cause oxidative injury to spinal motor neurons. In the present study, we analyzed the extent of oxidative injury to lumbar and cervical spinal cord proteins in transgenic FALS mice that overexpress the SOD1 mutation TgN(SOD1‐G93A)G1H in comparison with nontransgenic mice. Total protein oxidation was examined by spectrophotometric measurement of tissue protein carbonyl content by the dinitrophenylhydrazine (DNPH) assay. Four ages were investigated: 30 (pre‐motor neuron pathology and clinical disease), 60 (after initiation of pathology, but pre‐disease), 100 (∼50% loss of motor neurons and function), and 120 (near complete hindlimb paralysis) days. Protein carbonyl content in 30‐day‐old TgN(SOD1‐G93A)G1H mice was twice as high as the level found in age‐matched nontransgenic mice. However, at 60 and 100 days of age, the levels were the same. Then, between 100 and 120 days of age, the levels in the TgN(SOD1‐G93A)G1H mice increased dramatically (557%) compared with either the nontransgenic mice or transgenic animals that overexpress the wild‐type human Cu,Zn‐SOD TgN(SOD1)N29. The 100–120‐day increase in spinal cord protein carbonyl levels was confirmed by sodium dodecyl sulfate‐polyacrylamide gel electrophoretic separation and western blot immunoassay, which enabled the identification of heavily oxidized individual proteins using a monoclonal antibody against DNPH‐derivatized proteins. One of the more heavily oxidized protein bands (14 kDa) was identified by immunoprecipitation as largely Cu,Zn‐SOD. Western blot comparison of the extent of Cu,Zn‐SOD protein carbonylation revealed that the level in spinal cord samples from 120‐day‐old TgN(SOD1‐G93A)G1H mice was significantly higher than that found in age‐matched nontransgenic or TgN(SOD1)N29 mice. These results suggest that the increased hydroxyl radical production associated with the G93A SOD1 mutation and/or lipid peroxidation‐derived radical species (peroxyl or alkoxyl) causes extensive protein oxidative injury and that the Cu,Zn‐SOD itself is a key target, which may compromise its antioxidant function.
Ontogeny of gamma delta T cells in humans De Rosa, Stephen C; Andrus, James P; Perfetto, Stephen P ...
The Journal of immunology (1950),
2004-Feb-01, Volume:
172, Issue:
3
Journal Article
Peer reviewed
T cell receptors consist either of an alpha-chain combined with a beta-chain or a gamma-chain combined with a delta-chain. alphabeta T cells constitute the majority of T cells in human blood ...throughout life. Flow cytometric analyses presented in this study, which focus on the representation of the developmental (naive and memory) subsets of gammadelta T cells, show by function and phenotype that this lineage contains both naive and memory cells. In addition, we show that the representation of naive T cells is higher among alphabeta than gammadelta T cells in adults and that the low frequency of naive gammadelta T cells in adults reflects ontological differences between the two major gammadelta subsets, which are distinguished by expression of Vdelta1 vs Vdelta2 delta-chains. Vdelta1 cells, which mirror alphabeta cells with respect to naive representation, predominate during fetal and early life, but represent the minority of gammadelta cells in healthy adults. In contrast, Vdelta2 cells, which constitute the majority of adult gammadelta cells, show lower frequencies of naive cells than Vdelta1 early in life and show vanishingly small naive frequencies in adults. In essence, nearly all naive Vdelta2 cells disappear from blood by 1 year of life. Importantly, even in children less than 1 year old, most of the nonnaive Vdelta2 cells stain for perforin and produce IFN-gamma after short-term in vitro stimulation. This represents the earliest immunological maturation of any lymphocyte compartment in humans and most likely indicates the importance of these cells in controlling pathology due to common environmental challenges.
Familial amyotrophic lateral sclerosis (FALS) has been linked in some families to dominant mutations of the SOD1 gene encoding Cu,Zn superoxide dismutase (Cu,ZnSOD). We have used a transgenic model ...of FALS based on expression of mutant human Cu,ZnSOD to explore the etiology and therapy of the genetic disease. Expression of mutant, but not wild-type, human Cu,ZnSOD in mice places the brain and spinal cord under oxidative stress. This causes depletion of vitamin E, rather than the typical age-dependent increase in vitamin E content as occurs in nontransgenic mice and in mice expressing wild-type human Cu,ZnSOD. Dietary supplementation with vitamin E delays onset of clinical disease and slows progression in the transgenic model but does not prolong survival. In contrast, two putative inhibitors of the glutamatergic system, riluzole and gabapentin, prolong survival. However, riluzole did not delay disease onset. Thus, there was clear separation of effects on onset, progression, and survival by the three therapeutics tested. This suggests the hypothesis that oxidative damage produced by the expression of mutant Cu,ZnSOD causes slow or weak excitotoxicity that can be inhibited in part by alerting glutamate release or biosynthesis presynaptically.
OPEN LETTER TO VECCS MEMBERS
Journal of veterinary emergency and critical care (San Antonio, Tex. : 2000),
January/February 2019, Volume:
29, Issue:
1
Journal Article
The time course and intensity of brain hydroxyl radical (.OH) generation were examined in male CF-1 mice during the first hour after moderate or severe concussive head injury. Hydroxyl radical ...production was measured using the salicylate trapping method in which the production of 2,3- and/or 2,5-dihydroxybenzoic acid (DHBA) in brain 15 min after salicylate administration was used as an index of .OH formation. In mice injured with a concussion of moderate severity as defined by the 1-h posttraumatic neurologic recovery (grip score), a 60% increase in 2,5-DHBA formation was observed by 1 min after injury compared with that observed in uninjured mice. The peak in DHBA formation occurred at 15 min after injury (+67.5%; p < 0.02, compared with uninjured). At 30 min, the increase in DHBA lost significance, indicating that the posttraumatic increase in brain .OH formation is a transient phenomenon. In severely injured mice, the peak increase in DHBA (both 2,3- and 2,5-) was observed at 30 min after injury, but also fell off thereafter as with the moderate injury severity. Preinjury dosing of the mice with SKF-525A (50 mg/kg i.p.), an inhibitor of microsomal drug oxidations, did not blunt the posttraumatic increase in salicylate-derived 2,5-DHBA, thus showing that it is not due to increased metabolic hydroxylation. Neither injury nor SKF-525A administration affected the DHBA plasma levels. However, saline perfusion of the injured mice to remove the intravascular blood before brain removal eliminated the injury-induced increase in 2,5-DHBA, but did not affect the baseline levels seen in uninjured mice.