| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Chad Heer, Mark Sheffiel. Distinct catecholaminergic pathways projecting to hippocampal CA1 transmit contrasting signals during navigation in familiar and novel environments. eLife. vol 13. 2024-11-06. PMID:39504262. |
neuromodulatory inputs to the hippocampus play pivotal roles in modulating synaptic plasticity, shaping neuronal activity, and influencing learning and memory. |
2024-11-06 |
2024-11-09 |
mouse |
| Pritika Parmar, Harisa Spahic, Charles Lechner, Mark St Pierre, Katherine Carlin, Michael Nugent, Raul Chavez-Valde. Neonatal hypoxia-ischemia alters the events governing the hippocampal critical period of postnatal synaptic plasticity leading to deficits in working memory in mice. Neurobiology of disease. 2024-11-01. PMID:39486775. |
neonatal hypoxia-ischemia alters the events governing the hippocampal critical period of postnatal synaptic plasticity leading to deficits in working memory in mice. |
2024-11-01 |
2024-11-05 |
mouse |
| Jun Ying, Xiaobing Deng, Ruini Du, Qiyang Ding, Hao Tian, Yue Lin, Bin Zhou, Wei Ga. Mitochondrial modulation treating postoperative cognitive dysfunction neuroprotection via DRP1 inhibition by Mdivi1. Scientific reports. vol 14. issue 1. 2024-10-31. PMID:39478015. |
importantly, mdivi-1 treatment was also found to enhance synaptic plasticity, increasing synaptic spine density in the hippocampal region of pocd mice. |
2024-10-31 |
2024-11-02 |
mouse |
| A Asadi Rizi, L Amjad, M Shahrani, H Amini Khoe. A Systematic Review of the Role of Gummosin in Improving Memory in the Scopolamine Impaired Memory Model. Archives of Razi Institute. vol 79. issue 2. 2024-10-28. PMID:39463714. |
the results of our study show that scopolamine leads to impaired memory, learning and synaptic plasticity, which is associated with a change in the expression of various genes and a reduction in the number of hippocampal neurons. |
2024-10-28 |
2024-10-30 |
rat |
| Jianguo Li, Xinhong Wu, Simin Yan, Junliang Shen, Tao Tong, Muhammad Shahzad Aslam, Jingyu Zeng, Yiping Chen, Wenjie Chen, Meng Li, Zhuoran You, Kaiyue Gong, Jinghao Yang, Maoshu Zhu, Xianjun Men. Understanding the Antidepressant Mechanisms of Acupuncture: Targeting Hippocampal Neuroinflammation, Oxidative Stress, Neuroplasticity, and Apoptosis in CUMS Rats. Molecular neurobiology. 2024-10-18. PMID:39422855. |
this study suggests that acupuncture may play a potential preventive role by regulating hippocampal neuroinflammatory response, levels of oxidative stress, apoptotic processes, and enhancing synaptic plasticity. |
2024-10-18 |
2024-10-20 |
rat |
| Laikang Yu, Yan Li, Yuanyuan Lv, Boya Gu, Jiajia Cai, Qing-Song Liu, Li Zha. Treadmill Exercise Facilitates Synaptic Plasticity in Cells. vol 13. issue 19. 2024-10-15. PMID:39404372. |
the present study delved into the impact of treadmill exercise on memory retrieval performance, hippocampal synaptic plasticity, synaptic morphology, and the expression and activity of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic receptors (ampars) in 6-month-old |
2024-10-15 |
2024-10-17 |
Not clear |
| Jialin Wu, Huachong Xu, Shiqi Wang, Huandi Weng, Zhihua Luo, Guosen Ou, Yaokang Chen, Lu Xu, Kwok-Fai So, Li Deng, Li Zhang, Xiaoyin Che. Regular exercise ameliorates high-fat diet-induced depressive-like behaviors by activating hippocampal neuronal autophagy and enhancing synaptic plasticity. Cell death & disease. vol 15. issue 10. 2024-10-10. PMID:39389946. |
regular exercise ameliorates high-fat diet-induced depressive-like behaviors by activating hippocampal neuronal autophagy and enhancing synaptic plasticity. |
2024-10-10 |
2024-10-13 |
mouse |
| Tuo Zhou, Yuxuan Gao, Zhiling Wang, Chunfang Dai, Ming Lei, Aubrey Liew, Sen Yan, Zhibin Yao, Dandan Hu, Fangfang Q. CD8 positive T-cells decrease neurogenesis and induce anxiety-like behaviour following hepatitis B vaccination. Brain communications. vol 6. issue 5. 2024-10-10. PMID:39386089. |
previous studies from our laboratory have revealed that neonatal hepatitis b vaccination can downregulate hippocampal neurogenesis, synaptic plasticity and spatial learning memory. |
2024-10-10 |
2024-10-12 |
mouse |
| Bhagavathi Sundaram Sivamaruthi, Natarajan Sisubalan, Shucai Wang, Periyanaina Kesika, Chaiyavat Chaiyasu. Exploring the Therapeutic Potential of Green Tea (Camellia sinensis L.) in Anti-Aging: A Comprehensive Review of Mechanisms and Findings. Mini reviews in medicinal chemistry. 2024-10-08. PMID:39377377. |
additionally, tea polyphenols enhance fibroblast mitophagy, boost hippocampal synaptic plasticity in rodents, and mitigate age-related cognitive decline. |
2024-10-08 |
2024-10-10 |
human |
| Antonia Giacco, Stefania Iervolino, Federica Cioffi, Teresa Peluso, Giovanna Mercurio, Luca Roberto, Valeria de Rosa, Mariarosaria Cammarota, Silvia Varricchio, Stefania Staibano, Francesca Boscia, Lorella Maria Teresa Canzoniero, Mario De Felice, Concetta Ambrosino, Maria Moreno, Elena Silvestr. Brain Abnormalities in Young Single- and Double-Heterozygote Mice for Both Nkx2-1- and Pax8-Null Mutations. Molecular neurobiology. 2024-10-07. PMID:39375286. |
compared to wt controls, dhtp mice, bearing both systemic and brain hypothyroidism, showed altered expression of synaptic markers, generic and cholinergic (corroborated by immunohistochemistry in caudate, putamen, hippocampus, and basal forebrain) and glutamatergic ones, and reduced expression of key proteins of synaptic plasticity potency and several isoforms of glutamate receptors. |
2024-10-07 |
2024-10-10 |
mouse |
| Ya-Bo Zhao, Shi-Zhe Wang, Wen-Ting Guo, Le Wang, Xun Tang, Jin-Nan Li, Lin Xu, Qi-Xin Zho. Hippocampal dipeptidyl peptidase 9 bidirectionally regulates memory associated with synaptic plasticity. Journal of advanced research. 2024-10-06. PMID:39369958. |
hippocampal dipeptidyl peptidase 9 bidirectionally regulates memory associated with synaptic plasticity. |
2024-10-06 |
2024-10-09 |
Not clear |
| Yu Seby Chen, Maricela Garcia-Castañeda, Maria Charalambous, Daniela Rossi, Vincenzo Sorrentino, Filip Van Petege. Cryo-EM investigation of ryanodine receptor type 3. Nature communications. vol 15. issue 1. 2024-10-04. PMID:39366997. |
within the hippocampal region of the brain, it is found in dendritic spines and regulates synaptic plasticity. |
2024-10-04 |
2024-10-07 |
Not clear |
| Matthieu J Maroteaux, Claire T Noccioli, Jill M Daniel, Laura A Schrade. Rapid and local neuroestrogen synthesis supports long-term potentiation of hippocampal Schaffer collaterals-cornu ammonis 1 synapse in ovariectomized mice. Journal of neuroendocrinology. 2024-10-01. PMID:39351868. |
our results indicate the critical importance of rapid, activity-dependent local neuroestrogens synthesis, independent of circulating hormones for hippocampal synaptic plasticity in female rodents. |
2024-10-01 |
2024-10-03 |
mouse |
| Zhipeng Li, Jing Wang, Chongyang Tang, Peng Wang, Peng Ren, Siyang Li, Liye Yi, Qiuyi Liu, Lili Sun, Kaizhou Li, Wencai Ding, Hongbo Bao, Lifen Yao, Meng Na, Guoming Luan, Xia Lian. Coordinated NREM sleep oscillations among hippocampal subfields modulate synaptic plasticity in humans. Communications biology. vol 7. issue 1. 2024-10-01. PMID:39354050. |
coordinated nrem sleep oscillations among hippocampal subfields modulate synaptic plasticity in humans. |
2024-10-01 |
2024-10-04 |
human |
| Zhipeng Li, Jing Wang, Chongyang Tang, Peng Wang, Peng Ren, Siyang Li, Liye Yi, Qiuyi Liu, Lili Sun, Kaizhou Li, Wencai Ding, Hongbo Bao, Lifen Yao, Meng Na, Guoming Luan, Xia Lian. Coordinated NREM sleep oscillations among hippocampal subfields modulate synaptic plasticity in humans. Communications biology. vol 7. issue 1. 2024-10-01. PMID:39354050. |
however, how cardinal sleep oscillations bind across various subfields of the human hippocampus to promote information transfer and synaptic plasticity remains unclear. |
2024-10-01 |
2024-10-04 |
human |
| Zhipeng Li, Jing Wang, Chongyang Tang, Peng Wang, Peng Ren, Siyang Li, Liye Yi, Qiuyi Liu, Lili Sun, Kaizhou Li, Wencai Ding, Hongbo Bao, Lifen Yao, Meng Na, Guoming Luan, Xia Lian. Coordinated NREM sleep oscillations among hippocampal subfields modulate synaptic plasticity in humans. Communications biology. vol 7. issue 1. 2024-10-01. PMID:39354050. |
furthermore, we demonstrate that the synaptic plasticity within the hippocampal circuit, as indexed by delta-wave slope, is linearly modulated by spindle power. |
2024-10-01 |
2024-10-04 |
human |
| Zhipeng Li, Jing Wang, Chongyang Tang, Peng Wang, Peng Ren, Siyang Li, Liye Yi, Qiuyi Liu, Lili Sun, Kaizhou Li, Wencai Ding, Hongbo Bao, Lifen Yao, Meng Na, Guoming Luan, Xia Lian. Coordinated NREM sleep oscillations among hippocampal subfields modulate synaptic plasticity in humans. Communications biology. vol 7. issue 1. 2024-10-01. PMID:39354050. |
overall, these results suggest that different subfields of the hippocampus regulate one another through diverse layers of sleep oscillation synchronization, collectively facilitating information processing and synaptic plasticity during nrem sleep. |
2024-10-01 |
2024-10-04 |
human |
| Catherine Marneffe, Ana Moreira-de-Sá, Simon Lecomte, Anaël Erhardt, Christophe Mull. Short term plasticity at hippocampal mossy fiber synapses. Neuroscience. 2024-09-27. PMID:39332701. |
hippocampal mossy fiber synapses onto ca3 pyramidal cells (mf-ca3 synapses) are endowed with remarkable forms of short-term synaptic plasticity expressed as facilitation of synaptic release by a factor of up to ten-fold. |
2024-09-27 |
2024-10-01 |
Not clear |
| Beatriz Gil-Martí, Julia Isidro-Mézcua, Adriana Poza-Rodriguez, Gerson S Asti Tello, Gaia Treves, Enrique Turiégano, Esteban J Beckwith, Francisco A Marti. Socialization causes long-lasting behavioral changes. Scientific reports. vol 14. issue 1. 2024-09-27. PMID:39333212. |
furthermore, we show that socialization increases creb-dependent neuronal activity and synaptic plasticity in the mushroom body, the main insect memory center analogous to mammalian hippocampus. |
2024-09-27 |
2024-10-01 |
human |
| Eric Eyolfson, Kirsten R B Suesser, Holly Henry, Itziar Bonilla-Del Río, Pedro Grandes, Richelle Mychasiuk, Brian R Christi. The effect of traumatic brain injury on learning and memory: A synaptic focus. The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry. 2024-09-24. PMID:39316552. |
we will examine whether the neural basis of these deficits stems from alterations to bidirectional synaptic plasticity within the hippocampus. |
2024-09-24 |
2024-09-27 |
Not clear |