Calcium-induced chloride currents were studied in Xenopus oocytes using the two-electrode voltage clamp technique. Fluctuations of chloride currents measured under a voltage clamp were elicited by injection of calcium into the cytoplasm. Contrary to infrequent injections of small amounts of calcium which evoked smooth transient responses, these fluctuating chloride currents are due to overloading of intracellular calcium stores which then release calcium repeatedly. Chloride current fluctuations in calcium-overloaded oocytes can be reversibly suppressed by caffeine. This effect is concentration dependent and an amplitude decrease of fluctuations is already apparent at 2 mmoi/1 caffeine. The analysis of power spectra density of fluctuations have displayed the pronounced effect of caffeine. These results suggest that at least a part of the endoplasmic reticulum in Xenopus oocytes is a calcium-releasable calcium store which can be activated at the resting inositol trisphosphate concentration.
Kofein podaný večer snižuje ospalost a zvyšuje pozornost a schopnost poznávat. Zpožďuje však též časový cirkadiánní systém, neboť následující den po podání je zpožděn rytmus v tvorbě melatoninu, ukazatele fáze cirkadiánních hodin. Vynucená desynchronizace mezi spánkem a dobou vysoké noční hladiny melatoninu, která signalizuje subjektivní noc jedince, vede k narušení celého cirkadiánního systému., Evening caffeine consumption attenuates sleepiness and increases attention and cognitive abilities. In addition, it delays the circadian timekeeping system, as the next day after caffeine consumption the human melatonin rhythm, a circadian clock phase marker, is delayed. Forced desynchrony of sleep and the interval of high melatonin levels, which indicates a subjective night for an individual, leads to a disruption of the circadian system., and Helena Illnerová.
Prenatal exposure to caffeine can cause developmental problems. This study determined chronic influence of prenatal caffeine at relatively higher doses on cognitive functions in the rat offspring. Pregnant Sprague-Dawley rats (4-month-old) were exposed to caffeine (20 mg/kg, twice a day) for whole pregnancy from gestational day 4. Fetal and offspring body and brain weight was measured. Learning and memory were tested in adult offspring with Morris water maze. Learning and memory-related receptors were measured. The exposure to prenatal caffeine not only caused fetal growth restriction, but also showed long-term effects on learning and memory in the offspring. The caffeine offspring exhibited longer escape latency and path length in navigation testing. The number of passing the target was significantly reduced in those offspring. The expression of adenosine A1 and A2A receptors, nuclear PKA Cα, Cβ subunits, and pCREB were significantly increased in the fetal and neonatal brain, and suppressed in the hippocampus of the adult offspring. The expression of BDNF and TrkB were reduced regardless of various ages. The results suggest that intrauterine programming dysfunction of adenosine receptors and the down-stream of cAMP/PKA/pCREB system may play an important role in prenatal caffeine induced cognition disorders in the adult offspring.
Adverse effect of caffeine consumption has been well documented in animals and in human beings. However, here we studied the influence of caffeine exposure on seedling growth of Arabidopsis and tobacco plants. Retardation in the seedling growth of these plants was observed when grown on MS medium plates containing 1 mM caffeine and their growth retarded further upon increasing the concentration of caffeine to 5 mM. Retardation in seedling size including both root and shoot size, yellowing and decrease in chlorophyll content of seedlings upon caffeine treatment indicated that caffeine exposure induced early senescence in plants. Therefore, the influence of caffeine exposure on transcript expression and activity of Rubisco in tobacco and Arabidopsis seedlings was monitored. Caffeine exposure has been found to decrease the expression and activity of Rubisco in both the plants. Hence, this study documents that caffeine exposure retarded seedling growth and one reason for this could be its negative effect on Rubisco. and P. Mohanpuria, S. K. Yadav.
Repeated postnatal caffeine treatment of rat pups led to transient developmental changes in cortical epileptic afterdischarges. To know if physiological cortical functions are also affected transcallosal evoked potentials were studied. Rat pups of the Wistar strain were injected daily with caffeine (10 or 20 mg/kg s.c.) from postnatal day (P) 7 to P11, control siblings received saline. Cortical interhemispheric responses were tested at P12, 18, 25 and in young adult rats. Amplitude of initial monosynaptic components was evaluated in averaged responses. Single pulses as well as paired and frequency (five pulses) stimulations were used. Developmental rules - highest amplitude of responses in 25-day-old rats, potentiation with paired and frequency stimulation present since P18 - were confirmed. Caffeine-treated rats exhibited transient changes: single responses were augmented in P25 if high stimulation intensity was used, paired-pulse and freque ncy responses were higher in experimental than in control anim als at P12, the opposite change was observed in 18- and more ma rkedly in 25-day-old rats. No significant changes were found in adult animals, monosynaptic transcallosal responses represent a simple and robust system. The developmental profile of described changes did not exactly correspond to changes in epileptic afterdischarges supporting the possibility that afterdischarges did not arise from early monosynaptic components of responses. In spite of transient nature of changes they can reflect delayed or more probably modified brain development., J. Tchekalarova, H. Kubová, P. Mareš., and Obsahuje bibliografii a bibliografické odkazy