SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3014139862> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W3014139862 endingPage "3603" @default.
W3014139862 startingPage "3591" @default.
W3014139862 abstract "The septo-hippocampal cholinergic system is critical for hippocampal learning and memory. However, a quantitative description of the in vivo firing patterns and physiological function of medial septal (MS) cholinergic neurons is still missing. In this study, we combined optogenetics with multichannel in vivo recording and recorded MS cholinergic neuron firings in freely behaving male mice for 5.5–72 h. We found that their firing activities were highly correlated with hippocampal theta states. MS cholinergic neurons were highly active during theta-dominant epochs, such as active exploration and rapid eye movement sleep, but almost silent during non-theta epochs, such as slow-wave sleep (SWS). Interestingly, optogenetic activation of these MS cholinergic neurons during SWS suppressed CA1 ripple oscillations. This suppression could be rescued by muscarinic M 2 or M 4 receptor antagonists. These results suggest the following important physiological function of MS cholinergic neurons: maintaining high hippocampal acetylcholine level by persistent firing during theta epochs, consequently suppressing ripples and allowing theta oscillations to dominate. SIGNIFICANCE STATEMENT The major source of acetylcholine in the hippocampus comes from the medial septum. Early experiments found that lesions to the MS result in the disappearance of hippocampal theta oscillation, which leads to speculation that the septo-hippocampal cholinergic projection contributing to theta oscillation. In this article, by long-term recording of MS cholinergic neurons, we found that they show a theta state-related firing pattern. However, optogenetically activating these neurons shows little effect on theta rhythm in the hippocampus. Instead, we found that activating MS cholinergic neurons during slow-wave sleep could suppress hippocampal ripple oscillations. This suppression is mediated by muscarinic M 2 and M 4 receptors." @default.
W3014139862 created "2020-04-10" @default.
W3014139862 creator A5013776231 @default.
W3014139862 creator A5021141626 @default.
W3014139862 creator A5025630109 @default.
W3014139862 creator A5031315906 @default.
W3014139862 creator A5034164330 @default.
W3014139862 creator A5042947574 @default.
W3014139862 creator A5080321548 @default.
W3014139862 creator A5081489097 @default.
W3014139862 date "2020-04-07" @default.
W3014139862 modified "2023-10-15" @default.
W3014139862 title "The Firing of Theta State-Related Septal Cholinergic Neurons Disrupt Hippocampal Ripple Oscillations via Muscarinic Receptors" @default.
W3014139862 cites W1520323361 @default.
W3014139862 cites W1555605030 @default.
W3014139862 cites W1653233231 @default.
W3014139862 cites W1753462683 @default.
W3014139862 cites W1885965339 @default.
W3014139862 cites W1955575446 @default.
W3014139862 cites W1964546740 @default.
W3014139862 cites W1967456522 @default.
W3014139862 cites W1970242204 @default.
W3014139862 cites W1971834233 @default.
W3014139862 cites W1972740319 @default.
W3014139862 cites W1973372728 @default.
W3014139862 cites W1974367810 @default.
W3014139862 cites W1975958074 @default.
W3014139862 cites W1978238619 @default.
W3014139862 cites W1979465510 @default.
W3014139862 cites W1986001971 @default.
W3014139862 cites W1989932452 @default.
W3014139862 cites W1990627393 @default.
W3014139862 cites W1997285558 @default.
W3014139862 cites W2005317473 @default.
W3014139862 cites W2009298140 @default.
W3014139862 cites W2012078753 @default.
W3014139862 cites W2012927321 @default.
W3014139862 cites W2017274120 @default.
W3014139862 cites W2019638190 @default.
W3014139862 cites W2020123105 @default.
W3014139862 cites W2027066860 @default.
W3014139862 cites W2027693921 @default.
W3014139862 cites W2030711496 @default.
W3014139862 cites W2037820041 @default.
W3014139862 cites W2038758804 @default.
W3014139862 cites W2041800086 @default.
W3014139862 cites W2047750300 @default.
W3014139862 cites W2051451410 @default.
W3014139862 cites W2055133770 @default.
W3014139862 cites W2055711518 @default.
W3014139862 cites W2056336718 @default.
W3014139862 cites W2060373908 @default.
W3014139862 cites W2060761153 @default.
W3014139862 cites W2062156462 @default.
W3014139862 cites W2069698270 @default.
W3014139862 cites W2071549768 @default.
W3014139862 cites W2078389755 @default.
W3014139862 cites W2078443277 @default.
W3014139862 cites W2078922244 @default.
W3014139862 cites W2080285028 @default.
W3014139862 cites W2082619124 @default.
W3014139862 cites W2083547018 @default.
W3014139862 cites W2090115947 @default.
W3014139862 cites W2090724577 @default.
W3014139862 cites W2092411461 @default.
W3014139862 cites W2098466209 @default.
W3014139862 cites W2099512174 @default.
W3014139862 cites W2109269754 @default.
W3014139862 cites W2129217278 @default.
W3014139862 cites W2132609715 @default.
W3014139862 cites W2133153916 @default.
W3014139862 cites W2139401731 @default.
W3014139862 cites W2142191035 @default.
W3014139862 cites W2152328223 @default.
W3014139862 cites W2155203515 @default.
W3014139862 cites W2160475276 @default.
W3014139862 cites W2163696741 @default.
W3014139862 cites W2171668474 @default.
W3014139862 cites W2293807296 @default.
W3014139862 cites W2390658700 @default.
W3014139862 cites W2541417966 @default.
W3014139862 cites W2552726820 @default.
W3014139862 cites W2581387116 @default.
W3014139862 cites W2605003947 @default.
W3014139862 cites W2605612707 @default.
W3014139862 cites W2606775014 @default.
W3014139862 cites W2777126142 @default.
W3014139862 cites W2883601426 @default.
W3014139862 cites W2897074642 @default.
W3014139862 cites W2901958629 @default.
W3014139862 cites W2903828885 @default.
W3014139862 cites W886790154 @default.
W3014139862 doi "https://doi.org/10.1523/jneurosci.1568-19.2020" @default.
W3014139862 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7189758" @default.
W3014139862 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32265261" @default.
W3014139862 hasPublicationYear "2020" @default.
W3014139862 type Work @default.
W3014139862 sameAs 3014139862 @default.