49 research outputs found
Mapping the absence : A theological critique of posthumanist influences in marketing and consumer research
In this study, we critically examine the ongoing adoption of various posthumanist influences into the fields of marketing and consumer research from a theological perspective. By conducting a theological-historical assessment, we propose that it is not posthuman notions of human/technology relations, nor their broader context in the emerging non-representational paradigms, that mark radically new disruptions in the continuing restructuring of the disciplines of marketing and consumer research. Instead, we argue that what is taking place is an implicit adherence to a contemporary form of age-old Christian dogma. As a radical conjecture, we thus propose that an identification of certain similarities between Christian dogma and the grounds for various posthumanist frameworks suggest that posthuman thought may well herald the global dissemination of a far more elusive, authoritarian, and hegemonic system than that which posthumanists typically claim to have abandoned. Consequently, we elaborate on implications to developments in marketing thought.Peer reviewe
The Barberini Manuscript of Georgius Syncellus (<i>Vat. Barb. Gr.</i> 227)
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The Apollodoran <i>Akmai</i> of Hellanicus and Herodotus
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The Date of the First PythiadâAgain
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Alcohol metabolite acetic acid activates BK channels in a pH-dependent manner and decreases calcium oscillations and exocytosis of secretory granules in rat pituitary GH3 cells
Acetaldehyde and acetic acid/acetate, the active metabolites of alcohol (ethanol, EtOH), generate actions of their own ranging from behavioral, physiological, to pathological/cancerogenic effects. EtOH and acetaldehyde have been studied to some depth, whereas the effects of acetic acid have been less well explored. In this study, we investigated the effect of acetic acid on big conductance calcium-activated potassium (BK) channels present in GH3 rat pituitary tumor cells in more detail. In whole cell voltage clamp recordings, extracellular application of acetic acid increased total outward currents in a dose-dependent manner. This effect was prevented after the application of the specific BK channel blocker paxilline. Acetic acid action was pH-dependentâin whole cell current and single BK channel recordings, open probability (Po) was significantly increased by extracellular pH reduction and decreased by neutral or base pH. Acetic acid hyperpolarized the membrane potential, whereas acidic physiological solution had a depolarizing effect. Moreover, acetic acid reduced calcium (Ca2+) oscillations and exocytosis of growth hormone contained secretory granules from GH3 cells. These effects were partially prevented by BK inhibitorsâtetraethylammonium or paxillin. In conclusion, our experiments indicate that acetic acid activates BK channels in GH3 cells which eventually contribute to acetic acid-induced membrane hyperpolarization, cessation of Ca2+ oscillations, and decrease of growth hormone release