Lifetime socioeconomic inequalities in physical and cognitive aging.

OBJECTIVES: We examined the relationship between childhood and adult socioeconomic position (SEP) and objectively assessed, later-life functioning. METHODS: We used the Medical Research Council's National Survey of Health and Development data to examine performance at 60 to 64 years (obtained in 2006-2011) for a representative UK sample. We compared 9 physical and cognitive performance measures (forced expiratory volume, forced vital capacity, handgrip strength, chair rise time, standing balance time, timed get up and go speed, verbal memory score, processing speed, and simple reaction time) over the SEP distribution. RESULTS: Each performance measure was socially graded. Those at the top of the childhood SEP distribution had between 7% and 20% better performance than those at the bottom. Inequalities generally persisted after adjustment for adult SEP. When we combined the 9 performance measures, the relative difference was 66% (95% confidence interval = 53%, 78%). CONCLUSIONS: Public health practice should monitor and target inequalities in functional performance, as well as risk of disease and death. Effective strategies will need to affect the social determinants of health in early life to influence inequalities into old age.

siRNA knockdown of ADAM-10, but not ADAM-17, significantly reduces fractalkine shedding following pro-inflammatory cytokine treatment in a human adult brain endothelial cell line.

Fractalkine shedding is believed to occur constitutively and following induction via the activity of two membrane-bound enzymes, ADAM-10 and ADAM-17. However, our previous work suggested that ADAM-17 is not involved in the proteolytic release of fractalkine under TNF treatment of a human adult brain endothelial cell line, hCMEC/D3. The pro-inflammatory cytokine, TNF, has previously been shown to be expressed in the perivascular cuffs in multiple sclerosis. Here we sought to identify, using siRNAs to silence the expression of ADAM-10 and ADAM-17, whether ADAM-10 is responsible for TNF-induced shedding of fractalkine from the cell membrane in hCMEC/D3. Our findings suggest that ADAM-10, and not ADAM-17, is the major protease involved in fractalkine release under pro-inflammatory conditions in this human adult brain endothelial cell model.

Potential hazard to human health from exposure to fragments of lead bullets and shot in the tissues of game animals.

BACKGROUND: Lead is highly toxic to animals. Humans eating game killed using lead ammunition generally avoid swallowing shot or bullets and dietary lead exposure from this source has been considered low. Recent evidence illustrates that lead bullets fragment on impact, leaving small lead particles widely distributed in game tissues. Our paper asks whether lead gunshot pellets also fragment upon impact, and whether lead derived from spent gunshot and bullets in the tissues of game animals could pose a threat to human health. METHODOLOGY/PRINCIPAL FINDINGS: Wild-shot gamebirds (6 species) obtained in the UK were X-rayed to determine the number of shot and shot fragments present, and cooked using typical methods. Shot were then removed to simulate realistic practice before consumption, and lead concentrations determined. Data from the Veterinary Medicines Directorate Statutory Surveillance Programme documenting lead levels in raw tissues of wild gamebirds and deer, without shot being removed, are also presented. Gamebirds containing > or =5 shot had high tissue lead concentrations, but some with fewer or no shot also had high lead concentrations, confirming X-ray results indicating that small lead fragments remain in the flesh of birds even when the shot exits the body. A high proportion of samples from both surveys had lead concentrations exceeding the European Union Maximum Level of 100 ppb w.w. (0.1 mg kg(-1) w.w.) for meat from bovine animals, sheep, pigs and poultry (no level is set for game meat), some by several orders of magnitude. High, but feasible, levels of consumption of some species could result in the current FAO/WHO Provisional Weekly Tolerable Intake of lead being exceeded. CONCLUSIONS/SIGNIFICANCE: The potential health hazard from lead ingested in the meat of game animals may be larger than previous risk assessments indicated, especially for vulnerable groups, such as children, and those consuming large amounts of game.

Expression of ADAM-17, TIMP-3 and fractalkine in the human adult brain endothelial cell line, hCMEC/D3, following pro-inflammatory cytokine treatment.

ADAM-17 expression is localised to endothelial cells in the human central nervous system (CNS) and is increased in multiple sclerosis (MS) white matter, suggesting a role in MS pathogenesis. Expression of ADAM-17, TIMP-3, and fractalkine were investigated in a human brain endothelial cell line (hCMEC/D3) after pro-inflammatory cytokine treatment. Tumour necrosis factor (TNF) significantly increased fractalkine mRNA (>100 fold) and protein expression, which was associated with increased shedding of fractalkine from the cell. Fractalkine shedding may regulate immune cell trafficking into the CNS, however, this does not appear to be directly controlled by ADAM-17 activity.

Engrafted chicken neural tube-derived stem cells support the innate propensity for axonal regeneration within the rat optic nerve.

PURPOSE: Injury to the adult optic nerve, caused mechanically or by diseases, is still not reparable because the retinal ganglion cells (RGCs) are not allowed to regrow their axons and die retrogradely, although they possess the intrinsic propensity to regenerate axons in experimental conditions. METHODS: In vitro propagated embryonic stem cells derived from the early chicken neural tube (NTSCs) were used to examine whether transplanted NTSCs produce growth-promoting factors and pave the microenvironment, thus facilitating axonal regeneration within the rat optic nerve. RESULTS: NTSCs survived within the site where the optic nerve had been cut and continued to be nestin-positive, thus preserving their undifferentiated cell phenotype. Transplanted NTSCs activated the matrix metalloproteases (MMP)-2 and -14 in glial fibrillary acidic protein (GFAP)-positive optic nerve astrocytes. MMP2 production correlated with immunohistochemically visible degradation of inhibitory chondroitin sulfate proteoglycans (CSPGs). In addition, NTSCs produced a panoply of neurite-promoting factors including oncomodulin, ciliary neurotrophic factor, brain-derived neurotrophic factor and crystallins beta and gamma. Cut axons intermingled with NTSCs and passed through the zone of injury to enter the distal optic nerve over long distances, arriving at the thalamus and midbrain. CONCLUSIONS: This study showed evidence that paving of the distal optic nerve microenvironment with proteolytically active MMPs and providing stem-cell-derived growth factors is a suitable method for facilitating regenerative repair of the optic nerve. Understanding the molecular mechanisms of this repair has fundamental implications for development of NTSC-based subsidiary therapy after neural injuries.