Roles of molecular regions in determining differences between voltage dependence of activation of CaV3.1 and CaV1.2 calcium channels

Voltage-dependent calcium channels are classified into low voltage-activated and high voltage-activated channels. We have investigated the molecular basis for this difference in voltage dependence of activation by constructing chimeras between a low voltage-activated channel (Ca(V)3.1) and a high voltage-activated channel (Ca(V)1.2), focusing on steady-state activation properties. Wild type and chimeras were expressed in oocytes, and two-electrode voltage clamp recordings were made of calcium channel currents. Replacement of domains I, III, or IV of the Ca 3.1 channel with the corresponding domain of Ca(V)1.2 led (V)to high voltage-activated channels; for these constructs the current/voltage (I/V) curves were similar to those for Ca(V)1.2 wild type. However, replacement of domain II gave only a small shift to the right of the I/V curve and modulation of the activation kinetics but did not lead to a high voltage-activating channel with an I/V curve like Ca 1.2. We also investigated the role of the voltage sensor (V)S4 by replacing the S4 segment of Ca(V)3.1 with that of Ca 1.2. For domain I, there was no shift in the I/V curve (V)as compared with Ca(V)3.1, and there were relatively small shifts to the right for domains III and IV. Taken together, these results suggest that domains I, III, and IV (rather than domain II) are apparently critical for channel opening and, therefore, contribute strongly to the difference in voltage dependence of activation between Ca 3.1 and Ca(V)1.2. However, the S4 segments in domains I, (V)III, and IV did not account for this difference in voltage dependence.     

Effects of suberoylanilide hydroxamic acid and trichostatin A on induction of cytochrome P450 enzymes and benzo[a]pyrene DNA adduct formation in human cells

In this study, we investigated the effects of histone deacetylase (HDAC) inhibitors suberoylanilide hydroxamic acid (SAHA) and trichostatin A (TSA) on the metabolism of polycyclic aromatic hydrocarbons (PAH) in human mammary carcinoma derived MCF-7 cells in culture. Benzo[a]pyrene (B[a]P) induces cytochrome P450 (CYP) 1A1, CYP1B1 and other xenobiotic metabolizing enzymes. Results from our study indicated a significant increase in CYP activity in comparison to vehicle control in cells treated with SAHA or TSA as measured by ethoxyresorufin-O-deethylase assay. However, co-treatment with 1.0 microM SAHA and BP, reduced the mRNA levels of CYP1B1 relative to B[a]P alone. When co-treated with 1.0 microM TSA and BP, a reduction in the mRNA levels of both CYP1A1 and CYP1B1 was observed relative to BP alone. We further investigated to ascertain if the differential expression and activity of CYP1A1 and CYP1B1 influenced levels of B[a]P DNA adduct formation. MCF-7 cells co-treated with B[a]P and SAHA or TSA formed DNA adducts, although no significant differences in levels of DNA binding were revealed. These results suggest that while CYP enzyme activity and gene expression were affected by the HDAC inhibitors SAHA and TSA, they had no apparent influence on B[a]P DNA binding.     

Developmental variation in Rab11-dependent trafficking in Trypanosoma brucei

In Trypanosoma brucei, endocytosis is developmentally regulated and is substantially more active in the mammalian infective stage, where it likely plays a role in immune evasion. The small GTPase TbRAB11 is highly expressed in the mammalian stage and mediates recycling of glycosylphosphatidylinositol-anchored proteins, including the variant surface glycoprotein (VSG) and the transferrin receptor, plus trafficking of internalized anti-VSG antibody and transferrin. No function has been assigned to TbRAB11 in the procyclic (insect) stage trypanosome. The importance of TbRAB11 to both bloodstream and procyclic form viability was assessed by RNA interference (RNAi). Suppression of TbRAB11 in the bloodstream form was rapidly lethal and led to cells with round morphology and an enlarged flagellar pocket. TbRAB11 RNAi was also lethal in procyclic forms, which also became rounded, but progression to cell death was significantly slower and the flagellar pocket remained normal. In bloodstream forms, silencing of TbRAB11 had no effect on exocytosis of newly synthesized VSG, fluid-phase endocytosis, or transferrin uptake, but export of internalized transferrin was inhibited. Lectin endocytosis assays revealed a block to postendosomal transport mediated by suppressing TbRAB11. By contrast, in procyclic forms, depletion of TbRAB11 blocks both fluid-phase endocytosis and internalization of surface proteins. In normal bloodstream forms, most VSG is recycled, but in procyclics, internalized surface proteins accumulated in the lysosome. These data demonstrate that TbRAB11 controls recycling and is essential in both life stages of T. brucei but that its primary role is subject to developmental variation.     

Key aspects of the biology,fisheries and management of Coral grouper

Coral grouper (genus Plectropomus), or coral trout, are members of the grouper family (Epinephelidae) and are one of the largest and most conspicuous predatory fishes on Indo-Pacific coral reefs. They are highly-prized food fishes that are targeted by subsistence, artisanal, commercial and recreational fisheries throughout their geographic range. Plectropomus have broadly similar diets and habitat requirements to other tropical groupers, but typically have faster growth and higher natural mortality rates. Although these characteristics are expected to increase population turnover and reduce innate vulnerability to environmental and anthropogenic impacts relative to other groupers, many Plectropomus populations are in decline due to the combined effects of overfishing and habitat degradation. In many locations, stock depletion from uncontrolled fishing, particularly at spawning aggregation sites, has resulted in local fishery collapse. Therefore, improved management of wild populations is urgently required to ensure conservation and sustainable fisheries of Plectropomus. Where possible, a combination of no-take marine reserves, market-based management approaches, and allocation or resurrection of property rights systems are recommended to complement conventional fishery management actions that limit catch and effort. Additional investment in aquaculture propagation is also needed to reduce fishing pressure on wild stocks and support management initiatives. This global synthesis of information pertaining to the biology, fisheries and management of Plectropomus will assist in guiding future management actions that are attempting to address a range of stressors including fishing, reef habitat degradation, and the escalating effects of climate change.     

Elongated microvilli support the sea urchin embryo concentrically within the perivitelline space until hatching

Summary The early sea urchin embryo is supported in a concentric position within the perivitelline space by elongated microvilli which are attached to the fertilization envelope by extracellular matrix fibers. This “attachment complex,” of microvillus tip: extracellular matrix fibers: fertilization envelope, was revealed by two methods: the use of pronase or calcium-free sea water to dissolve the extracellular matrix fibers, thus causing the eggs to lose their concentric location, and the visualization of the “attachment complex” using video-enhanced differential interference contrast microscopy and transmission electron microscope images. The presence of the “attachment complex” helps in understanding two types of early developmental events: (1) the apparently continual change in microvillus length during cleavage stages which retains the embryos in their concentric position and (2) the hatching process.     

A Pilot Study Evaluating the Effectiveness of Platelet-Rich Plasma Therapy for Treating Degenerative Tendinopathies: A Randomized Control Trial with Synchronous Observational Cohort

Objective

This pilot study aimed to inform future research evaluating the effectiveness of Platelet Rich Plasma (PRP) injection for tendinopathy.

Design

Randomized control trial (RCT) and synchronous observational cohort studies. For the RCT, consecutive consenting patients treated at an academic sports medicine clinic were randomly assigned to either a PRP or placebo control group.

Setting

The Glen Sather Sport Medicine Clinic, Edmonton, Canada.

Patients

The RCT included 9 participants with rotator cuff tendinopathy. The cohort study included 178 participants with a variety of tendinopathies.

Interventions

Patients receiving PRP were injected with 4 ml of platelets into the supraspinatus and/or infraspinatus, while patients in the placebo group were injected with 4ml of saline. All participants undertook a 3-month standardized, home-based, daily exercise program.

Main Outcome Measures

Participants in the RCT were re-evaluated 3, and 6 months post-injection. Change scores before and after injection on pain, disability and MRI-documented pathology outcomes were compared. In the cohort study, pain and disability were measured at 1, 2 and 3 months post-injection.

Results

For the RCT, 7 participants received PRP and 2 received placebo injections. Patients receiving PRP reported clinically important improvements in pain (>1.5/10 on VAS), disability (>15 point DASH change), and tendon pathology while those receiving placebo injections did not. In the observational cohort, statistically and clinically significant improvements in pain and disability were observed.

Conclusion

This pilot study provides information for planning future studies of PRP effectiveness. Preliminary results indicate intratendinous, ultrasound-guided PRP injection may lead to improvements in pain, function, and MRI-documented tendon pathology.

Trial Registration

Controlled-Trials.com ISRCTN68341698     

Shape differences in the sacral alae

The great variability and complexity of sacral morphology has led to some confusion over the separate influences of phylogeny, population differences, and sexual dimorphism. Principal component analysis of Cartesian coordinates taken on the alae of one hundred human sacra reveals that allometric growth accounts for most variation in the extent and orientation of this region (termed basality). Sex differences related to functional contribution of the alae to the pelvic cavity account for the remainder of the variability. The requirement for extrastability in this region to support the large individual may obscure sexual dimorphism in the sacrum. This, in turn, may have influenced past observations on the sex criteria for this bone.     

Transgenic Expression of the 3D Polymerase Inhibits Theiler's Virus Infection and Demyelination

The RNA-dependent RNA polymerase 3D^pol is required for the elongation of positive- and negative-stranded picornavirus RNA. During the course of investigating the effect of the transgenic expression of viral genes on the host immune response, we evaluated the viral load present in the host after infection. To our surprise, we found that 3D transgenic expression in genetically susceptible FVB mice led to substantially lower viral loads after infection with Theiler''s murine encephalomyelitis virus (TMEV). As a result, spinal cord damage caused by chronic viral infection in the central nervous system was reduced in FVB mice that expressed 3D. This led to the preservation of large-diameter axons and motor function in these mice. The 3D transgene also lowered early viral loads when expressed in FVB-D^b mice resistant to persistent TMEV infection. The protective effect of 3D transgenic expression was not altered in FVB-Rag^−/−.3D mice that are deficient in T and B cells, thus ruling out a mechanism by which the overexpression of 3D enhanced the adaptive immune clearance of the virus. Understanding how endogenously overexpressed 3D polymerase inhibits viral replication may lead to new strategies for targeting therapies to all picornaviruses.Picornavirus infection is a major contributor to worldwide disease. Diseases such as poliomyelitis and hand-foot-and-mouth disease can be fatal. Other picornaviruses, such as rhinovirus, are partly responsible for upper respiratory tract infections. There are no drugs to treat picornavirus illness. However, some therapies show promise in vitro and in animal models. Winthrop compounds, which bind to hydrophobic sites on the surface of the virion that are important in viral attachment to the host and uncoating, decreased the number of upper respiratory symptoms following challenge with coxsackie virus 21 (45). A similar pocket binding drug, pleconaril (VP63843), showed 95% inhibition against 215 non-polio enteroviruses (39). A phase II trial of this drug against enteroviral meningitis decreased disease duration compared to the placebo (1). However, these drugs have side effects and were less effective in larger studies. Another limitation is that mutant viruses arose that sterically inhibited binding by substituting a bulky amino acid in the binding pocket (21). The administration of small interfering RNA (siRNA) has shown some promise in controlling picornavirus infections; however, the development of a delivery system is a major hurdle (8-10, 44).The picornavirus Theiler''s murine encephalomyelitis virus (TMEV) is a member of the Cardiovirus genus. TMEV is divided into two groups based on disease in mice after intracerebral injection (12, 15). The highly virulent GDVII subgroup causes fatal encephalitis, and the lowly virulent Theiler''s original (TO) subgroup, which includes BeAn and DA strains, causes a persistent infection in the white matter of the central nervous system (CNS), leading to chronic inflammation and demyelination in genetically susceptible mice. Chronic inflammation and demyelination leads to secondary axonal dysfunction and paralysis. Therefore, the BeAn and DA strains of TMEV infection in mice are used as animal models of demyelinating diseases such as multiple sclerosis (4, 11, 13).Inbred strains of mice differ in their susceptibility to TMEV (14, 18). Resistance to persistent infection depends on the haplotype of the major histocompatibility complex (H-2). Mice of the H-2^b,d,k haplotype are resistant to persistent infection, whereas mice of the H-2^f,p,q,r,s,v haplotype are susceptible to persistent infection (32). Resistance to persistent infection has been further defined to the D locus of H-2 (33, 35). The mice used in this paper all are on an FVB/NJ background. Due to the prominent pronuclei in their fertilized eggs and large litter size, FVB/NJ mice commonly are used for transgenic injection (43). These mice are of the H-2^q haplotype and are susceptible to persistent TMEV infection. Persistent infection leads to chronic spinal cord inflammation and demyelination in all inbred mice that are genetically susceptible to TMEV. FVB-D^b mice contain the H-2D^b transgene, which confers resistance to persistent TMEV infection (2). FVB mice and FVB-D^b mice have similar early acute disease in the brain at 7 days postinfection (dpi); however, unlike FVB mice, FVB-D^b mice control the virus in the brain and spinal cord by day 45 and do not develop demyelination.Picornaviruses perform multiple tasks inside host cells for successful viral replication, with very few gene products being responsible for these tasks. The single-stranded RNA picornavirus genome has, on average, 7,500 nucleotides and produces a single polyprotein that is cleaved by its own virus-encoded proteases. One of these proteins, the RNA-dependent RNA-polymerase 3D^pol, is required for the elongation of positive- and negative-stranded viral RNA. 3D^pol oligomerizes, which favors elongation and binding to RNA (16). 3D^pol forms a membranous replication complex with VPg and precursor proteins 3AB and 3CD to initiate VPg uridylylation, which serves as a primer for positive- and negative-strand RNA replication by 3D^pol (25, 40, 42). The stimulatory effect of 3AB on RNA replication by 3D^pol is inhibited by increasing concentrations of 3D (26, 31).During the course of investigating the effect of the transgenic expression of viral genes on the host immune response to TMEV, we evaluated the viral load present in the host after infection. Mice expressing the 3D transgene were used as control mice, since previous studies have shown that the 3D protein was ignored by T and B cells in the immune system (3, 22, 29). To our surprise, we found that the 3D transgenic mice substantially reduced TMEV in vivo. Therefore, we set out to study the effect of 3D overexpression in a transgenic mouse model of TMEV infection.