58 research outputs found
Case-Control Study of Lung Function in World Trade Center Health Registry Area Residents and Workers
Rationale: Residents and area workers who inhaled dust and fumes from the World Trade Center disaster reported lower respiratory symptoms in two World Trade Center Health Registry surveys (2003–2004 and 2006–2007), but lung function data were lacking. Objectives: To examine the relationship between persistent respiratory symptoms and pulmonary function in a nested case–control study of exposed adult residents and area workers 7–8 years after September 11, 2001. Methods: Registrants reporting post September 11th onset of a lower respiratory symptom in the first survey and the same symptom in the second survey were solicited as potential cases. Registrants without lower respiratory symptoms in either Registry survey were solicited as potential control subjects. Final case–control status was determined by lower respiratory symptoms at a third interview (the study), when spirometry and impulse oscillometry were also performed. Measurements and Main Results: We identified 180 cases and 473 control subjects. Cases were more likely than control subjects to have abnormal spirometry (19% vs. 11%; P,0.05), and impulse oscillometry measurements of elevated airway resistance (R5; 68% vs. 27%; P,0.0001) and frequency dependence of resistance (R5–20; 36% vs. 7%; P , 0.0001). When spirometry was normal, cases were more likely than control subjects to have elevated R5 and R5–20 (62% vs. 25% and 27% vs. 6%, respectively; both P , 0.0001). Associations between symptoms and oscillometry held when factors significant in bivariate comparisons (body mass index, spirometry, and exposures) were analyzed using logistic regression. Conclusions: This study links persistent respiratory symptoms and oscillometric abnormalities in World Trade Center–exposed residents and area workers. ElevatedR5andR5–20 in cases despite normal spirometry suggested distal airway dysfunction as a mechanism for symptoms
All-d-Enantiomer of β-Amyloid Peptide Forms Ion Channels in Lipid Bilayers
Alzheimer’s disease (AD) is the most common type
of senile
dementia in aging populations. Amyloid β (Aβ)-mediated
dysregulation of ionic homeostasis is the prevailing underlying mechanism
leading to synaptic degeneration and neuronal death. Aβ-dependent
ionic dysregulation most likely occurs either directly via unregulated
ionic transport through the membrane or indirectly via Aβ binding
to cell membrane receptors and subsequent opening of existing ion
channels or transporters. Receptor binding is expected to involve
a high degree of stereospecificity. Here, we investigated whether
an Aβ peptide enantiomer, whose entire sequence consists of d-amino acids, can form ion-conducting channels; these channels
can directly mediate Aβ effects even in the absence of receptor–peptide
interactions. Using complementary approaches of planar lipid bilayer
(PLB) electrophysiological recordings and molecular dynamics (MD)
simulations, we show that the d-Aβ isomer exhibits
ion conductance behavior in the bilayer indistinguishable from that
described earlier for the l-Aβ isomer. The d isomer forms channel-like pores with heterogeneous ionic conductance
similar to the l-Aβ isomer channels, and the d-isomer channel conductance is blocked by Zn2+, a known
blocker of l-Aβ isomer channels. MD simulations further
verify formation of β-barrel-like Aβ channels with d- and l-isomers, illustrating that both d- and l-Aβ barrels can conduct cations. The calculated
values of the single-channel conductance are approximately in the
range of the experimental values. These findings are in agreement
with amyloids forming Ca2+ leaking, unregulated channels
in AD, and suggest that Aβ toxicity is mediated through a receptor-independent,
nonstereoselective mechanism
Pineal photoreceptor cells : photoperiodic control of melatonin production after cell dissociation and culture
International audienc
Etude de quelques caractéristiques de reproduction chez la brebis Peulh, du Niger
International audienc
Pineal photoreceptor cells : photoperiodic control of melatonin production after cell dissociation and culture
International audienc
Role of hypothalamic catecholamines in the regulation of luteinizing hormone and prolactin secretion in the ewe during seasonal anestrus
International audienc
Role of hypothalamic catecholamines in the regulation of luteinizing hormone and prolactin secretion in the ewe during seasonal anestrus
International audienc
Effects of anterior and posterior hypothalamic deafferentation on gonadotrophin and prolactin secretion in ovariectomized ewes under hormonally induced oestrous cycles
International audienc
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