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Effect and mechanism of ICAM5 on alcohol dependence behavior of mice
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Department of Physiology, School of Basic Medicine, Shanxi Medical University, Key Laboratory of Cell Physiology, Ministry of Education

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National Natural Science Foundation of China ( No. 81601167); Natural Science Foundation of Shanxi Province, China (No. 20210302123304);Postgraduate Innovation Foundation of Shanxi Province(2023KY390)

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    Abstract:

    【Abstract】 Objective We investigated the effects of ICAM5 in hippocampus of mice alcohol drinking preference, and potential mechanisms. Methods A alcohol two-bottle choice model was developed by 8-week-old male C57BL/6J mice, randomly divided to two groups, the control group and alcohol group. The protein expression of ICAM5 in the hippocampus, amygdala, and medial prefrontal cortex was detected. ICAM5 overexpressed adeno-associated virus was constructed and injected into the hippocampus by stereotaxic method. The expression level of ICAM5 protein in hippocampus was detected by immunofluorescence and Western blot. Then detected the alcohol preference and locomotor activity of mice with the open field test, conditioned place preference experiment, and loss of righting reflex test. Western blot analysis was used to identify neuron F-actin/G-actin ratio. Using Golgi staining, the morphology of dendritic spines was identified. Results In the alcohol two-bottle choice model, the expression of ICAM5 in the hippocampus of mice in the alcohol group was considerably lower than the control group. The specific expression of ICAM5 in the hippocampus of mice was observed by fluorescence microscopy. In the open field experiment, the staying time and moving distance of AAV-ICAM5 group were significantly increased compared with the control group (P < 0.01). In the CPP experiment, the residence time of AAV-ICAM5 mice in the alcohol-paired compartment was significantly lower than that of control mice (P < 0.001). In the lose the righting reflex experiment, overexpression of ICAM5 significantly reduced the sedation latency (P < 0.01), but significantly shortened the duration of sedation (P < 0.001). Compared with the control group, the ratio of F-actin/G-actin in hippocampus was significantly increased after drinking (P < 0.01). But after ICAM5 overexpression, the F-actin/G-actin ratio was significantly decreased (P < 0.001). Compared with the control group, the density of dendritic spines in hippocampal CA1 region was increased after drinking alcohol (P < 0.001), but the density of dendritic spines in AAV-ICAM5+EtOH group was significantly decreased (P < 0.01). Conclusions ICAM5 may modulated the expression of cytoskeleton protein to change structural plasticity of dendritic spines, which contribute to alcohol drinking and locomotor behaviors change of mice.

    Reference
    [1] Witt ED. Research on alcohol and adolescent brain development: opportunities and future directions [J]. Alcohol, 2010, 44(1):119-124.
    [2] Juarez B, Morel C, Ku SM, et al. Midbrain circuit regulation of individual alcohol drinking behaviors in mice [J]. Nat Commun, 2017, 8(1):2220.
    [3] Ben Hamida S, Mendonca-Netto S, Arefn TM, et al. Increased alcohol seeking in mice lacking Gpr88 involves dysfunctional mesocorticolimbic networks [J]. Biol Psychiatry, 2018, 84(3):202-212.
    [4] Kasai Haruo, Unraveling the mysteries of dendritic spine dynamics: Five key principles shaping memory and cognition [J]. Proc Jpn Acad Ser B Phys Biol Sci, 2023, 99: 254-305.
    [5] Gahmberg Carl G, Tian Li, Ning Lin, et al. ICAM-5-a novel two-facetted adhesion molecule in the mammalian brain [J]. Immunol. Lett, 2008, 117, 131-135.
    [6] Mitsui Sachiko, Saito Michiko, Hayashi Ken, et al. A novel phenylalanine-based targeting signal directs telencephalin to neuronal dendrites [J]. Neurosci, 2005, 25, 1122-1131.
    [7] Bagni C, Oostra BA. Fragile X syndrome: From protein function to therapy [J]. Am J Med Genet A, 2013, 161: 2809-2821.
    [8] Gahmberg CG, Ning L, Paetau S. ICAM-5: a neuronal dendritic adhesion molecule involved in immune and neuronal functions [J]. Adv Neurobiol, 2014, 8: 117-132.
    [9] Witkiewitz K, Heather N, Falk DE,et al. World Health Organization risk drinking level reductions are associated with improved functioning and are sustained among patients with mild, moderate and severe alcohol dependence in clinical trials in the United States and United Kingdom[J]. Addiction, 2020, 115( 9): 1668-1680.
    [10] Griswold MG, Fullman N, Hawley C, et al. Alcohol use and burden for 195 countries and territories, 1990–2016: a systematic analysis for the Global Burden of Disease Study 2016[J]. The Lancet, 2018, 392(10152): 1015-1035.
    [11] Moonat S, Starkman BG, Sakharkar A, et al. Neuroscience of alcoholism: molecular and cellular mechanisms [J]. Cell Mol Life Sci, 2010, 67: 73-88.
    [12] Robbins TW, Everitt BJ. Drug addiction: bad habits add up [J]. Nature, 1999, 398: 567-570.
    [13] Shield K D, Parry C, Rehm J. Chronic diseases and conditions related to alcohol use [J]. Alcohol research : current reviews, 2013, 35 (2), 155-173.
    [14] Mews P, Egervari G, Nativio R, et al. Alcohol metabolism contributes to brain histone acetylation [J]. Nature, 2019, 574(7780): 717-721.
    [15] Mah Won, Ko Jaewon, Nam Jungyong, et al. Selected SALM (synaptic adhesion-like molecule) family proteins regulate synapse formation [J]. J Neurosci, 2010, 30: 5559-5568.
    [16] Rieckmann P, Turner T, Kligannon P, et al. Telencephalin as an indicator for temporal-lobe dysfunction [J]. Lancet, 1998, 352: 370-371.
    [17] Pei Ya-Ping, Wang Yue-Yi, Liu Dan, et al. ICAM5 as a Novel Target for Treating Cognitive Impairment in Fragile X Syndrome [J]. J Neurosci, 2020, 40: 1355-1365.
    [18] 吕振,龚志刚.酒精使用障碍动物模型构建的研究进展[J].中国实验动物学报, 2023, 31(03): 382-389.
    Lv Z, Gong ZG. Research progress of animal model construction of alcohol use disorder [J]. Acta Laboratorium Animalis Scientia Sinica MEDICINE, 2023, 31(03): 382-389.
    [20] [19] Li D, Jing D, Liu Z, et al. Enhanced expression of secreted alpha-klotho in the hippocampus alters nesting behavior and memory formation in mice [J]. Front Cell Neurosci, 2019, 13:133.
    [21] [20] Song R, Zhang HY, Li X, et al. Increased vulnerability to cocaine in mice lacking dopamine D3 receptors [J]. Proc Natl Acad Sci U S A, 2012, 109:17675-17680.
    [22] [21] Blum K, Gardner E, Oscar-Berman M, et al. “Liking” and “wanting” linked to reward deficiency syndrome (RDS): Hypothesizing differential responsivity in brain reward circuitry [J]. Curr Pharm Des, 2012, 18:113-118.
    [23] [22] Howe MW, Tierney PL, Sandberg SG, et al. Prolonged dopamine signalling in striatum signals proximity and value of distant rewards [J]. Nature, 2013, 500:575-579.
    [24] [23] Yin LT, Feng RR, Xie XY, et al. Matrix metalloproteinase-9 overexpression in the hippocampus reduces alcohol-induced conditioned-place preference by regulating synaptic plasticity in mice [J]. Behav Brain Res, 2023, 442: 114330.
    [25] [24] Song R, Zhang HY, Li X, et al. Increased vulnerability to cocaine in mice lacking dopamine D3 receptors [J]. Proc Natl Acad Sci U S A, 2012, 109:17675-17680.
    [26] [25] Casey KF, Benkelfat C, Cherkasova MV, et al. Reduced dopamine response to amphetamine in subjects at ultra-high risk for addiction [J]. Biol Psychiatry, 2014, 76: 23-30.
    [27] [26] Schuckit MA. Low level of response to alcohol as a predictor of future alcoholism [J]. Am J Psychiatry, 1994, 151:184-189.
    [28] [27] Zheng F, Puppel A, Huber S E, et al. Activin Controls Ethanol Potentiation of Inhibitory Synaptic Transmission Through GABAA Receptors and Concomitant Behavioral Sedation [J]. Neuropsychopharmacology, 2016, 41(8): 2024-2033.
    [29] [28] Birkner K, Loos J, Gollan R, et al. Neuronal ICAM-5 Plays a Neuroprotective Role in Progressive Neurodegeneration [J]. Front. Neurol, 2019, 10:205.
    [30] [29] Hinckers AS, Laucht M, Schmidt MH, et al. Low level of response to alcohol as associated with serotonin transporter genotype and high alcohol intake in adolescents [J]. Biol Psychiatry, 2006, 60: 282-287.
    [31] [30] Wagstaff James Mark, Planelles-Herrero Vicente José,Sharov Grigory, et al. Diverse cytomotive actins and tubulins share a polymerization switch mechanism conferring robust dynamics [J]. Sci Adv, 2023, 9: eadf3021.
    [32] [31] Martin JA, Werner CT, Mitra S, et al. A novel role for the actin-binding protein drebrin in regulating opiate addiction [J]. Nat Commun, 2019, 10(1): 4140.
    [33] [32] Han Y, Wang X, Chen J, et al. Noise-induced cochlear F-actin depolymerization is mediated via ROCK2/p-ERM signaling [J]. J Neurochem, 2015, 133(5): 617-628.
    [34] [33] Yoshihara Y, Oka S, Nemoto Y, et al. An ICAM-related neuronal glycoprotein, telencephalin, with brain segment-specific expression [J]. Neuron, 1994, 12: 541-553.
    [35] [34] Hotulainen Pirta, Hoogenraad Casper C. Actin in dendritic spines: connecting dynamics to function [J]. Cell Biol, 2010, 189: 619-629.
    [36] [35] Korobova F, Svitkina T. Molecular architecture of synaptic actin cytoskeleton in hippocampal neurons reveals a mechanism of dendritic spine morphogenesis [J]. Mol Biol Cell, 2010, 21: 165-176.
    [37] [36] Scott E K, Luo L. How do dendrites take their shape? [J]. Nat Neurosci, 2001, 4: 359-365.
    [38] [37] Carpenter-Hyland EP, Chandler LJ. Adaptive plasticity of NMDA receptors and dendritic spines: implications for enhanced vulnerability of the adolescent brain to alcohol addiction [J]. Pharmacol Biochem Behav, 2007, 86(2): 200-208.
    [39] [38] 谢晓岩. MMP-9通过调节突触可塑性改变小鼠酒精依赖行为及机制研究 [D]. 太原:山西医科大学; 2020.
    Xie XY. Effect of MMP-9 on alcohol dependence behavior in mice by regulating synaptic plasticity and its mechanism [D]. Taiyuan: Shanxi Medical University; 2020.
    [41] [39] Stawarski M, Stefaniuk M, Wlodarczyk J. Matrix metalloproteinase-9 involvement in the structural plasticity of dendritic spines [J]. Front Neuroanat, 2014, 8:68.
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  • Received:January 20,2024
  • Revised:March 14,2024
  • Adopted:May 22,2024
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