Influence of lipid membrane rigidity on properties of supporting polymer

Temperature-sensitive hydrogel polymers are utilized as responsive layers in various applications. Although the polymer's native characteristics have been studied extensively, details concerning its properties during interaction with biorelated structures are lacking. This work investigates the interaction between a thermoresponsive polymer cushion and different lipid membrane capping layers probed by neutron reflectometry. N-isopropylacrylamide copolymerized with methacroylbenzophenone first supported a lipid bilayer composed of 1,2-dipalmitoyl-sn-glycero-3-phosphoethanolamine (DPPE) and subsequently 1,2-dipalmitoyl-sn-glycero-3-phosphocholine (DPPC). The polymer-membrane systems were investigated above and below the polymer transition temperature (37 and 25°C). Although the same cushion supported each lipid membrane, the polymer hydration profile and thickness were markedly different for DPPE and DPPC systems. Because DPPE and DPPC have different bending rigidities, these results establish that the polymer-membrane interaction is critically mediated by the mechanics of the membrane, providing better insight into cell-hydrogel interactions.     

Road Traffic Injury Prevention Initiatives: A Systematic Review and Metasummary of Effectiveness in Low and Middle Income Countries

Background

Road traffic injuries (RTIs) are a growing but neglected global health crisis, requiring effective prevention to promote sustainable safety. Low- and middle-income countries (LMICs) share a disproportionately high burden with 90% of the world’s road traffic deaths, and where RTIs are escalating due to rapid urbanization and motorization. Although several studies have assessed the effectiveness of a specific intervention, no systematic reviews have been conducted summarizing the effectiveness of RTI prevention initiatives specifically performed in LMIC settings; this study will help fill this gap.

Methods

In accordance with PRISMA guidelines we searched the electronic databases MEDLINE, EMBASE, Scopus, Web of Science, TRID, Lilacs, Scielo and Global Health. Articles were eligible if they considered RTI prevention in LMICs by evaluating a prevention-related intervention with outcome measures of crash, RTI, or death. In addition, a reference and citation analysis was conducted as well as a data quality assessment. A qualitative metasummary approach was used for data analysis and effect sizes were calculated to quantify the magnitude of emerging themes.

Results

Of the 8560 articles from the literature search, 18 articles from 11 LMICs fit the eligibility and inclusion criteria. Of these studies, four were from Sub-Saharan Africa, ten from Latin America and the Caribbean, one from the Middle East, and three from Asia. Half of the studies focused specifically on legislation, while the others focused on speed control measures, educational interventions, enforcement, road improvement, community programs, or a multifaceted intervention.

Conclusion

Legislation was the most common intervention evaluated with the best outcomes when combined with strong enforcement initiatives or as part of a multifaceted approach. Because speed control is crucial to crash and injury prevention, road improvement interventions in LMIC settings should carefully consider how the impact of improvements will affect speed and traffic flow. Further road traffic injury prevention interventions should be performed in LMICs with patient-centered outcomes in order to guide injury prevention in these complex settings.     

Transfer of Antibiotic Resistance Marker Genes between Lactic Acid Bacteria in Model Rumen and Plant Environments

Three wild-type dairy isolates of lactic acid bacteria (LAB) and one Lactococcus lactis control strain were analyzed for their ability to transfer antibiotic resistance determinants (plasmid or transposon located) to two LAB recipients using both in vitro methods and in vivo models. In vitro transfer experiments were carried out with the donors and recipients using the filter mating method. In vivo mating examined transfer in two natural environments, a rumen model and an alfalfa sprout model. All transconjugants were confirmed by Etest, PCR, pulsed-field gel electrophoresis, and Southern blotting. The in vitro filter mating method demonstrated high transfer frequencies between all LAB pairs, ranging from 1.8 × 10⁻⁵ to 2.2 × 10⁻² transconjugants per recipient. Transconjugants were detected in the rumen model for all mating pairs tested; however, the frequencies of transfer were low and inconsistent over 48 h (ranging from 1.0 × 10⁻⁹ to 8.0 × 10⁻⁶ transconjugants per recipient). The plant model provided an environment that appeared to promote comparatively higher transfer frequencies between all LAB pairs tested over the 9-day period (transfer frequencies ranged from 4.7 × 10⁻⁴ to 3.9 × 10⁻¹ transconjugants per recipient). In our test models, dairy cultures of LAB can act as a source of mobile genetic elements encoding antibiotic resistance that can spread to other LAB. This observation could have food safety and public health implications.Lactic acid bacteria (LAB) form a taxonomically diverse group of gram-positive, catalase-negative microorganisms, which share the capacity to ferment sugars into lactic acid. Due to their aerotolerant, anaerobic nature, they are found widespread in a variety of different environments. Traditionally LAB are economically important given their use in the manufacture and preservation of fermented foods, such as milk, meat, vegetables, and cereals, in addition to their use as starter cultures. Over the last 2 decades, there has been an increased focus on the health-promoting properties associated with increased ingestion of probiotic LAB. As a result of these health claims, there is an increased availability of commercially prepared probiotic products, including yogurts, milk, cheeses, and even probiotic supplements in tablet form.The global spread of antibiotic resistance, including the emergence of multiresistant bacterial “super bug” strains, has created a public health problem of potentially crisis proportions. The very success of antibiotics accounts for part of the resistance problem; overuse of antibiotic treatments in both humans and animals has selected for a rapid increase of resistant bacterial strains. Acquired resistance genes may transfer by conjugation, transformation, or transduction. However, with regard to horizontal gene transfer (HGT), conjugation (which involves the use of plasmids or conjugative transposons as vehicles for resistance determinants) is thought to have the most significant impact on the spread of resistance genes in the environment (5).Genes conferring acquired resistance to antibiotics such as tetracycline, erythromycin, and vancomycin have been detected in LAB isolated from fermented meat and milk products (3, 6, 8, 9, 11, 22, 37). Conjugative plasmids and transposons are common in LAB (1, 4), and due to their wide environmental distribution, it is possible that these commensal bacteria act as vectors for the dissemination of antibiotic resistance determinants to the consumer via the food chain (8, 24, 32). Such evidence has raised questions regarding LAB''s traditionally accepted safety status and initiated investigations in the biosafety of probiotic products (35). However, no consensus for testing the safety of LAB probiotic products exists at the European level.To date, most of the research assessing the risk posed by the dissemination of resistance genes by LAB has been laboratory-based studies using in vitro mating models. Knowledge concerning HGT in the natural environment is limited (23, 39), and evidence is often circumstantial and extrapolated from laboratory-based studies (4). In order to fully understand the extent to which LAB strains transfer resistance genes in the natural environment, it is essential to study genetic exchange in this context. The rumen may be considered a site for potential conjugal gene transfer due to the following features: (i) its high bacterial density (10¹⁰ cells ml⁻¹); (ii) available surfaces suitable for the attachment of bacteria, including substrate particles and the rumen wall; and (iii) frequent seeding of the rumen with soil and plant microorganisms. Similarly, alfalfa sprouts provide a suitable plant model to investigate in vivo conjugal transfer between LAB strains due to their basic growth requirements (for instance, no soil is involved in growing, so therefore, background flora is eliminated), and natural LAB strains are known to colonize sprouts, so there is a good chance of survival once inoculated (16).The aim of this study was to examine the horizontal transfer of tetracycline and erythromycin resistance determinants from three wild-type LAB strains, using both an in vitro mating method and in vivo models. Impacts of this transfer are discussed in the light of food safety and potential effects on public health.     

Differential inhibition of human placental DNA polymerases delta and alpha by BuPdGTP and BuAdATP.

The p-n-butylphenyl- and p-n-butylanilino- substituted analogs of dGTP and dATP, respectively, were tested as inhibitors of purified human placental DNA polymerases alpha and delta. It was observed that DNA polymerase alpha activity was potently inhibited by these analogs with I0.5 values as low as the nanomolar range, whereas DNA polymerase delta activity was poorly inhibited, with I0.5 values of ca. 100 micromolar. These results argue for a distinct identity of these two enzymes, and demonstrate the usefulness of these analogs as probes of DNA polymerase structures. In addition, these analogs provide a rapid method for the discrimination of the two enzyme activities and a means for the selective assay of DNA polymerase delta. Aphidicolin inhibited both DNA polymerases.     

LY79771: a novel compound for weight control

Compound LY79771 given subcutaneously reduced weight or decreased weight gain of genetically obese rats and mice, gold thioglucose obese mice, and obese beagles. The compound had no effect on body weight of lean rats. Food consumption was not decreased. Obese rats showed a transient rise in body temperature after each administration of the drug. The change in body weight was due mainly to a decrease in body fat mass.     

Calcium control of waveform in isolated flagellar axonemes of chlamydomonas

The effect of Ca(++) on the waveform of reactivated, isolated axonemes of chlamydomonas flagella was investigated. Flagella were detached and isolated by the dibucaine procedure and demembranated by treatment with the detergent Nonidet; the resulting axomenes lack the flagellar membrane and basal bodies. In Ca(++)-buffered reactivation solutions containing 10(-6) M or less free Ca(++), the axonemes beat with a highly asymmetrical, predominantly planar waveform that closely resembled that of in situ flagella of forward swimming cells. In solutions containing 10(-4) M Ca(++), the axonemes beat with a symmetrical waveform that was very similar to that of in situ flagella during backward swimming. In 10(-5) M Ca(++), the axonemes were predominantly quiescent, a state that appears to be closely associated with changes in axomenal waveform or direction of beat in many organisms. Experiments in which the concentrations of free Ca(++), not CaATP(--) complex were independently varied suggested that free Ca(++), not CaATP(--), was responsible for the observed changes. Analysis of the flagellar ATPases associated with the isolated axonemes and the nonidet- soluble membrane-matrix fraction obtained during preparation of the axonemes showed that the axonemes lacked the 3.0S Ca(++)-activated ATPase, almost all of which was recovered in the membrane-matrix fraction. These results indicate that free Ca(++) binds directly to an axonemal component to alter flagellar waveform, and that neither the 3.0S CaATPase nor the basal bodies are directly involved in this change.     

Regional localization of human gene loci on chromosome 9: studies of somatic cell hybrids containing human translocations.

Somatic cell hybrids were derived from the fusion of (1) Chinese hamster cells deficient in hypoxanthine guanine phosphoribosyltransferase (HPRT) and human cells carrying an X/9 translocation and (2) Chinese hamster cells deficient in thymidine kinase (TK) and human cells carrying a 17/9 translocation. Several independent primary hybrid clones from these two series of cell hybrids were analyzed cytogenitically for human chromosome content and electrophoretically for the expression of human markers known to be on human chromosome 9. The results allow the assignment of the loci for the enzymes galactose-1-phosphate uridyltransferase (GALT), soluble aconitase (ACONs), and adenylate kinase-3 (AK3) to the short arm of chromosome 9 (p11 to pter) and the locus for the enzyme adenylate kinase-1 (AK1) to the distal end of the long arm of human chromosome 9 (hand q34). Earlier family studies have shown that the locus for AK1 is closely linked to the ABO blood group locus and to the locus of the nail-patella (Np) syndrome. Thus the regional localization of AK1 locus permits the localization of the AK1-Np-ABO linkage group.     

Characterization of human DNA polymerase delta and its immunochemical relationships with DNA polymerase alpha and epsilon.

DNA polymerase delta was purified from human placenta and its polymerase catalytic subunit identified as a 125-kDa polypeptide by activity staining. This 125-kDa form of DNA polymerase delta resembles that reported from calf thymus (Lee, M. Y. W. T., Tan, C.-K., Downey, K. M., and So, A. G. (1984) Biochemistry 23, 1906-1913) and differs in molecular properties from a previously described form isolated from human placenta (Lee, M. Y. W. T., and Toomey, N. L. (1987) Biochemistry 26, 1076-1085) and now referred to as DNA polymerase epsilon. The properties of DNA polymerase delta were further investigated to determine its relationships with DNA polymerase epsilon. The two enzymes differed in their response to proliferating cell nuclear antigen. Monoclonal antibodies against DNA polymerase delta were raised and used to examine its immunochemical relationships with DNA polymerase alpha and epsilon. These studies provided evidence that all three proteins are structurally distinct but share a common epitope(s). Immunofluorescence microscopy indicates that DNA polymerase delta and possibly also DNA polymerase epsilon are localized to the nucleus.     

Induction of DNA polymerase activities in the regenerating rat liver.

The levels of DNA polymerase alpha, DNA polymerase delta, and its accessory protein, proliferating cell nuclear antigen (PCNA) were examined in the regenerating rat liver. The levels of DNA polymerase alpha and delta activities in regenerating liver extracts were determined by the use of the DNA polymerase alpha specific inhibitor, BuAdATP [2-(p-n-butylanilino)-9-(2-deoxy-beta-D-ribofuranosyl) adenine 5'-triphosphate], and monoclonal antibodies. These reagents showed that the total DNA polymerase activities increased ca. 4-fold during regeneration and that the fraction of DNA polymerase delta activity at the peak was 40% of the total DNA polymerase activity. Immunoblots and inhibition studies using specific antibodies showed that DNA polymerase delta and epsilon and PCNA were concomitantly induced after partial hepatectomy. The levels of both DNA polymerase delta and epsilon and PCNA reached their maxima at 24-36 h post hepatectomy, i.e., at the same time that in vivo DNA synthesis reached its peak. Partial purification and characterization of DNA polymerases delta and epsilon from the regenerating rat liver were also performed. These observations suggest that the variation of DNA polymerase delta and epsilon and PCNA during liver regeneration is closely related to DNA synthesis and is consistent with their involvement in DNA replication.