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W3163161189 endingPage "281" @default.
W3163161189 startingPage "265" @default.
W3163161189 abstract "Since their discovery in the 1960s, the term paroxysmal depolarization shift (PDS) has been applied to a wide variety of reinforced neuronal discharge patterns. Occurrence of PDS as cellular correlates of electrographic spikes during latent phases of insult-induced rodent epilepsy models and their resemblance to giant depolarizing potentials (GDPs) nourished the idea that PDS may be involved in epileptogenesis. Both GDPs and – in analogy – PDS may lead to progressive changes of neuronal properties by generation of pulsatile intracellular Ca2+ elevations. Herein, a key element is the gating of L-type voltage gated Ca2+ channels (LTCCs, Cav1.x family), which may convey Ca2+ signals to the nucleus. Accordingly, the present study investigates various insult-associated neuronal challenges for their propensities to trigger PDS in a LTCC-dependent manner. Our data demonstrate that diverse disturbances of neuronal function are variably suited to induce PDS-like events, and the contribution of LTCCs is essential to evoke PDS in rat hippocampal neurons that closely resemble GDPs. These PDS appear to be initiated in the dendritic sub-compartment. Their morphology critically depends on the position of recording electrodes and on their rate of occurrence. These results provide novel insight into induction mechanisms, origin, variability, and co-existence of PDS with other discharge patterns and thereby pave the way for future investigations regarding the role of PDS in epileptogenesis." @default.
W3163161189 created "2021-05-24" @default.
W3163161189 creator A5025479108 @default.
W3163161189 creator A5029101014 @default.
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W3163161189 creator A5059273580 @default.
W3163161189 creator A5084073291 @default.
W3163161189 creator A5085397541 @default.
W3163161189 date "2021-08-01" @default.
W3163161189 modified "2023-10-16" @default.
W3163161189 title "On the Origin of Paroxysmal Depolarization Shifts: The Contribution of Cav1.x Channels as the Common Denominator of a Polymorphous Neuronal Discharge Pattern" @default.
W3163161189 cites W1499097287 @default.
W3163161189 cites W1511843905 @default.
W3163161189 cites W1551911662 @default.
W3163161189 cites W1607494092 @default.
W3163161189 cites W1747729214 @default.
W3163161189 cites W1794741820 @default.
W3163161189 cites W1948082071 @default.
W3163161189 cites W1963638560 @default.
W3163161189 cites W1963743022 @default.
W3163161189 cites W1965625137 @default.
W3163161189 cites W1965911702 @default.
W3163161189 cites W1967986271 @default.
W3163161189 cites W1968069991 @default.
W3163161189 cites W1969109219 @default.
W3163161189 cites W1969430202 @default.
W3163161189 cites W1973482472 @default.
W3163161189 cites W1977687644 @default.
W3163161189 cites W1979201601 @default.
W3163161189 cites W1985354404 @default.
W3163161189 cites W1990627463 @default.
W3163161189 cites W1990960994 @default.
W3163161189 cites W1994558827 @default.
W3163161189 cites W1996227667 @default.
W3163161189 cites W2001456267 @default.
W3163161189 cites W2003927625 @default.
W3163161189 cites W2004689558 @default.
W3163161189 cites W2006617150 @default.
W3163161189 cites W2008143573 @default.
W3163161189 cites W2012192922 @default.
W3163161189 cites W2012195082 @default.
W3163161189 cites W2012519193 @default.
W3163161189 cites W2013906894 @default.
W3163161189 cites W2017055595 @default.
W3163161189 cites W2017928086 @default.
W3163161189 cites W2023886341 @default.
W3163161189 cites W2029598577 @default.
W3163161189 cites W203221303 @default.
W3163161189 cites W2032984849 @default.
W3163161189 cites W2035460326 @default.
W3163161189 cites W2037758567 @default.
W3163161189 cites W2037978690 @default.
W3163161189 cites W2043247184 @default.
W3163161189 cites W2049342879 @default.
W3163161189 cites W2050151 @default.
W3163161189 cites W2050215995 @default.
W3163161189 cites W2051029351 @default.
W3163161189 cites W2057818120 @default.
W3163161189 cites W2067612400 @default.
W3163161189 cites W2070011714 @default.
W3163161189 cites W2073627239 @default.
W3163161189 cites W2079651792 @default.
W3163161189 cites W2081110326 @default.
W3163161189 cites W2085779496 @default.
W3163161189 cites W2087586191 @default.
W3163161189 cites W2088481798 @default.
W3163161189 cites W2089428281 @default.
W3163161189 cites W2091564559 @default.
W3163161189 cites W2093980209 @default.
W3163161189 cites W2110399898 @default.
W3163161189 cites W2115967677 @default.
W3163161189 cites W2117329255 @default.
W3163161189 cites W2120205122 @default.
W3163161189 cites W2125052662 @default.
W3163161189 cites W2126578880 @default.
W3163161189 cites W2135700352 @default.
W3163161189 cites W2138971707 @default.
W3163161189 cites W2140153826 @default.
W3163161189 cites W2154766197 @default.
W3163161189 cites W2155240101 @default.
W3163161189 cites W2161481721 @default.
W3163161189 cites W2167480240 @default.
W3163161189 cites W2168897337 @default.
W3163161189 cites W2219448291 @default.
W3163161189 cites W2238348069 @default.
W3163161189 cites W2400481402 @default.
W3163161189 cites W2529826539 @default.
W3163161189 cites W2594318744 @default.
W3163161189 cites W2904221946 @default.
W3163161189 cites W2914997480 @default.
W3163161189 cites W3005710322 @default.
W3163161189 cites W3083676054 @default.
W3163161189 cites W2177602376 @default.
W3163161189 doi "https://doi.org/10.1016/j.neuroscience.2021.05.011" @default.
W3163161189 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34015369" @default.