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Italian Journal of Animal Science Volume 20, 2021 - Issue 1
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Papers

Physiology and miRNA expression in confined sows with different pupillary light reflex

Lei Wanga College of Animal Science and Veterinary Medicine, Heilongjiang Bayi Agricultural University, Daqing, ChinaView further author information
,
Langchao Yua College of Animal Science and Veterinary Medicine, Heilongjiang Bayi Agricultural University, Daqing, ChinaView further author information
&
Guoan Yina College of Animal Science and Veterinary Medicine, Heilongjiang Bayi Agricultural University, Daqing, China;b Heilongjiang Provincial Key Laboratory of Efficient Utilization of Feed Resources and Nutrition Manipulation in Cold Region, Daqing, ChinaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-8928-4764View further author information
ORCID Icon
Pages 526-538 | Received 09 Nov 2020, Accepted 22 Feb 2021, Published online: 01 Apr 2021

References

  • Alshammari TK, Alghamdi H, Alkhader LF, Alqahtani Q, Alrasheed NM, Yacoub H, Alnaem N, Alnakiyah M, Alshammari MA. 2020. Analysis of the molecular and behavioral effects of acute social isolation on rats. Behav Brain Res. 377:1–8.
  • Ambros VR. 2004. The functions of animal microRNAs. Nature. 431(7006):350–355.
  • Bakes A, Bradshaw CM, Szabadi E. 1990. Attenuation of the pupillary light reflex in anxious patients. Br J Clin Pharmacol. 30(3):377–381.
  • Bao J, Li X, Lv FL, Chen D, Li J. 2013. Prolonged latency of pupillary light reflex in confined sows: possible stress-related symptom? J Vet Behav-Clin Appl Res. 8(6):475–478.
  • Bar K, Greiner W, Jochum T, Friedrich M, Wagner G, Sauer H. 2004. The influence of major depression and its treatment on heart rate variability and pupillary light reflex parameters. J Affect Disord. 82(2):245–252.
  • Bergink V, Gibney SM, Drexhage HA. 2014. Autoimmunity, inflammation, and psychosis: a search for peripheral markers. Biol Psychiatry. 75(4):324–331.
  • Castren E, Rantamaki T. 2010. The role of BDNF and its receptors in depression and antidepressant drug action: reactivation of developmental plasticity. Dev Neurobiol. 70:289–297.
  • Cogswell JP, Ward J, Taylor IA, Waters M, Shi Y, Cannon B, Kelnar K, Kemppainen J, Brown D, Chen C, et al. 2008. Identification of miRNA changes in Alzheimer's disease brain and CSF yields putative biomarkers and insights into disease pathways. J Alzheimers Dis. 14(1):27–41.
  • Day MJ, Eger CE, Shaw SE, Penhale WJ. 1985. Immunologic study of systemic aspergillosis in German Shepherd dogs. Vet Immunol Immunopathol. 9(4):335–347.
  • Filho AJMC, Lima CNDC, Vasconcelos SMM, De Lucena DF, Maes M, Macedo DS. 2018. IDO chronic immune activation and tryptophan metabolic pathway: a potential pathophysiological link between depression and obesity. Prog Neuropsychopharmacol Biol Psychiatry. 80(Pt C):234–249.
  • Fillman SG, Sinclair D, Fung SJ, Webster MJ, Weickert CS. 2014. Markers of inflammation and stress distinguish subsets of individuals with schizophrenia and bipolar disorder. Transl Psychiatr. 4:1–10.
  • Fiori LM, Lopez JP, Richard-Devantoy S, Berlim M, Chachamovich E, Jollant F, Foster J, Rotzinger S, Kennedy SH, Turecki G. 2017. Investigation of miR-1202, miR-135a, and miR-16 in major depressive disorder and antidepressant response. Int J Neuropsychoph. 20(8):619–623.
  • Fraser D, Duncan IJH, Edwards SA, Grandin T, Gregory NG, Guyonnet V, Hemsworth PH, Huertas SM, Huzzey JM, Mellor DJ, et al. 2013. General principles for the welfare of animals in production systems: the underlying science and its application. Vet J. 198(1):19–27.
  • Ghosh S, Choudhury S, Chowdhury O, Mukherjee S, Das A, Sain A, Gupta P, Adhikary A, Chattopadhyay S. 2020. Inflammation-induced behavioral changes is driven by alterations in Nrf2-dependent apoptosis and autophagy in mouse hippocampus: role of fluoxetine. Cell Signal. 68:1–55.
  • Gold PW, Pavlatou MG, Carlson PJ, Luckenbaugh DA, Costello R, Bonne O, Csako G, Drevets WC, Remaley AT, Charney DS, et al. 2012. Unmedicated, remitted patients with major depression have decreased serum immunoglobulin A. Neurosci Lett. 520(1):1–5.
  • Gorinski N, Bijata M, Prasad S, Wirth A, Abdel Galil D, Zeug A, Bazovkina D, Kondaurova E, Kulikova E, Ilchibaeva T, et al. 2019. Attenuated palmitoylation of serotonin receptor 5-HT1A affects receptor function and contributes to depression-like behaviors. Nat Commun. 10(1):1–14.
  • Haramati S, Navon I, Issler O, Ezra-Nevo G, Gil S, Zwang R, Hornstein E, Chen A. 2011. microRNA as repressors of stress-induced anxiety: the case of Amygdalar miR-34. J Neurosci. 31(40):14191–14203.
  • Herrmann-Lingen C, Melzer J, von Boetticher D. 2019. Emotions, bodily changes, and the social environment: how did early psychosomatic medicine consider the social dimension in health and disease? Psychosom Med. 81(8):694–703.
  • Huang W, Li MD. 2009. Differential allelic expression of dopamine D1 receptor gene (DRD1) is modulated by microRNA miR-504. Biol Psychiatry. 65(8):702–705.
  • Hussein KA, Duaa AA, Arafat HA. 2015. IL-6, IL-18, sIL-2R, and TNFα proinflammatory markers in depression and schizophrenia patients who are free of overt inflammation. J Affect Disord. 182:106–114.
  • Janecki T, Fichna J, Janecka A. 2004. Opioid receptors and their ligands. Curr Top Med Chem. 4(1):1–17.
  • Jang D, Lee H, Lee K, Kim K, Won R, Lee SE, Shim I. 2019. White ginseng ameliorates depressive behavior and increases hippocampal 5-HT level in the stressed ovariectomized rats. Biomed Res Int. 2019:1–7.
  • Jian C, Lu M, Zhang Z, Liu L, Li X, Huang F, Xu N, Qin L, Zhang Q, Zou D. 2017. miR-34a knockout attenuates cognitive deficits in APP/PS1 mice through inhibition of the amyloidogenic processing of APP. Life Sci. 182:104–111.
  • Joels M, Karst H, Krugers HJ, Lucassen PJ. 2007. Chronic stress: implications for neuronal morphology, function and neurogenesis. Front Neuroendocrinol. 28(2–3):72–96.
  • Keay JM, Singh J, Gaunt MC, Kaur T. 2006. Fecal glucocorticoids and their metabolites as indicators of stress in various mammalian species: a literature review. J Zoo Wildl Med. 37(3):234–244.
  • Kim JJ, Haller J. 2007. Glucocorticoid hyper- and hypofunction: stress effects on cognition and aggression. Ann N Y Acad Sci. 1113:291–303.
  • Kojima M, Shioiri T, Hosoki T, Kitamura H, Bando T, Someya T. 2004. Pupillary light reflex in panic disorder. A trial using audiovisual stimulation. Eur Arch Psych Clin Neurosci. 254:242–244.
  • Laeng B, Sirois S, Gredeback G. 2012. Pupillometry: a window to the preconscious? Perspect Psychol Sci. 7(1):18–27.
  • Leonard BE. 2014. Impact of inflammation on neurotransmitter changes in major depression: an insight into the action of antidepressants. Prog Neuropsychopharmacol Biol Psychiatry. 48:261–267.
  • Li J, Meng H, Cao W, Qiu T. 2015. MiR-335 is involved in major depression disorder and antidepressant treatment through targeting GRM4. Neurosci Lett. 606:167–172.
  • Li Y, Xu M, Gao Z, Wang Y, Yue Z, Zhang Y, Li X, Zhang C, Xie S, Wang P. 2013. Alterations of serum levels of BDNF-related miRNAs in patients with depression. PLoS One. 8(5):e63648–7.
  • Li Q, Zhang B, Cao H, Liu W, Guo F, Shen F, Ye B, Liu H, Li Y, Liu Z. 2020. Oxytocin *Exerts Antidepressant-like effect by potentiating dopaminergic synaptic transmission in the mPFC. Neuropharmacology. 162:107836–107836.
  • Lopez JP, Lim R, Cruceanu C, Crapper L, Fasano C, Labonte B, Maussion G, Yang JP, Yerko V, Vigneault E, et al. 2014. miR-1202 is a primate-specific and brain-enriched microRNA involved in major depression and antidepressant treatment. Nat Med. 20(7):764–768.,
  • Lopez JP, Pereira F, Richard-Devantoy S, Berlim M, Chachamovich E, Fiori LM, Niola P, Turecki G, Jollant F. 2017. Co-variation of peripheral levels of miR-1202 and brain activity and connectivity during antidepressant treatment. Neuropsychopharmacology. 42(10):2043–2051.
  • Lutz P, Kieffer BL. 2013. Opioid receptors: distinct roles in mood disorders. Trends Neurosci. 36(3):195–206.
  • Maeda S, Ogishima H, Shimada H. 2019. Acute cortisol response to a psychosocial stressor is associated with heartbeat perception. Physiol Behav. 207:132–138.
  • Maeng SH, Hong H. 2019. Inflammation as the potential basis in depression. Int Neurourol J. 23(Suppl 2):S63–S71.
  • Maes M, Kubera M, Leunis J, Berk M. 2012. Increased IgA and IgM responses against gut commensals in chronic depression: further evidence for increased bacterial translocation or leaky gut. J Affect Disord. 141(1):55–62.
  • Mao R, Zhang C, Chen J, Zhao G, Zhou R, Wang F, Xu J, Yang T, Su Y, Huang J, et al. 2018. Different levels of pro- and anti-inflammatory cytokines in patients with unipolar and bipolar depression. J Affect Disord. 237:65–72.
  • McEwen B. 1999. Stress and hippocampal plasticity. Annu Rev Neurosci. 22:105–122.
  • Millan MJ, Przewlock R, Jerlicz M, Gramsch C, Hollt V, Herz A. 1981. Stress-induced release of brain and pituitary β-endorphin: major role of endorphins in generation of hyperthermia, not analgesia. Brain Res. 208(2):325–338.
  • Morris MC, Compas BE, Garber J. 2012. Relations among posttraumatic stress disorder, comorbid major depression, and HPA function: a systematic review and meta-analysis. Clin Psychol Rev. 32(4):301–315.
  • Muller N. 2018. Inflammation in Schizophrenia: pathogenetic aspects and therapeutic considerations. Schizophr Bull. 4:973–982.
  • National Research Council. 2012. Nutrient requirements of swine. 11th ed. Washington DC (WDC): USA National Academies Press.
  • Pace TWW, Mletzko T, Alagbe O, Musselman DL, Nemeroff CB, Miller AH, Heim C. 2006. Increased stress-induced inflammatory responses in male patients with major depression and increased early life stress. Am J Psychiatry. 163(9):1630–1633.
  • Pineda E, Shin D, Sankar R, Mazarati AM. 2010. Comorbidity between epilepsy and depression: experimental evidence for the involvement of serotonergic, glucocorticoid, and neuroinflammatory mechanisms. Epilepsia. 51:110–114.
  • Rong H, Liu TB, Yang KJ, Yang HC, Wu DH, Liao CP, Hong F, Yang HZ, Wan F, Ye XY, et al. 2011. MicroRNA-134 plasma levels before and after treatment for bipolar mania. J Psychiatr Res. 45(1):92–95.
  • Shen J, Li Y, Qu C, Xu L, Sun H, Zhang J. 2019. The enriched environment ameliorates chronic unpredictable mild stress-induced depressive-like behaviors and cognitive impairment by activating the SIRT1/miR-134 signaling pathway in hippocampus. J Affect Disord. 248:81–90.
  • Siegle GJ, Granholm E, Ingram RE, Matt GE. 2001. Pupillary and reaction time measures of sustained processing of negative information in depression. Biol Psychiatry. 49(7):624–636.
  • Simeonova D, Stoyanov D, Leunis JC, Carvalho AF, Kubera M, Murdjeva M, Maes M. 2020. Increased serum immunoglobulin responses to gut commensal Gram-negative bacteria in unipolar major depression and bipolar disorder type 1, especially when melancholia is present. Neurotox Res. 37(2):338–348.
  • Singh B, Chaudhuri TK. 2014. Role of C-reactive protein in schizophrenia: an overview. Psychiatry Res. 216(2):277–285.
  • Smalheiser NR, Lugli G, Rizavi HS, Torvik VI, Turecki G, Dwivedi Y. 2012. MicroRNA expression is down-regulated and reorganized in prefrontal cortex of depressed suicide subjects. PLoS One. 7(3):e33201–e33211.
  • Smigielski L, Jagannath V, Rossler W, Walitza S, Grunblatt E. 2020. Epigenetic mechanisms in schizophrenia and other psychotic disorders: a systematic review of empirical human findings. *Mol Psychiatr. 25(8):1718–1748.
  • Smith R, Cubis J, Brinsmead M, Lewin T, Singh B, Owens P, Chan E-C, Hall C, Adler R, Lovelock M, et al. 1990. Mood changes, obstetric experience and alterations in plasma cortisol, beta-endorphin and corticotrophin releasing hormone during pregnancy and the puerperium. J Psychosomat Res. 34(1):53–69.
  • Sokolski KN, Nguyen BD, Demet EM. 2000. Decreases in dilated pupil size in depressed patients with age may reflect adrenergic changes. Psychiatry Res Neuroimaging. 94(3):267–272.
  • Song M, Dong J, Wang Y, He J, Ju X, Zhang L, Zhang Y, Shi J, Lv Y. 2015. CSF miR-16 is decreased in major depression patients and its neutralization in rats induces depression-like behaviors via a serotonin transmitter system. J Affect Disord. 178:25–31.
  • Sun X-y, Lu J, Zhang L, Song H-t, Zhao L, Fan H-m, Zhong A-f, Niu W, Guo Z-m, Dai Y-h, et al. 2015a. Aberrant microRNA expression in peripheral plasma and mononuclear cells as specific blood-based biomarkers in schizophrenia patients. J Clin Neurosci. 22(3):570–574.
  • Sun X-y, Zhang J, Niu W, Guo W, Song H-t, Li H-y, Fan H-m, Zhao L, Zhong A-f, Dai Y-h, et al. 2015b. A preliminary analysis of microRNA as potential clinical biomarker for schizophrenia. Am J Med Genet. 168(3):170–178.
  • Tannous J, Godlewska B, Tirumalaraju V, Soares JC, Cowen PJ, Selvaraj S. 2020. Stress, inflammation and hippocampal subfields in depression: a 7 Tesla MRI Study. Transl Psychiatr. 10:1–7.
  • Tavakolizadeh J, Roshanaei K, Salmaninejad A, Yari R, Nahand JS, Sarkarizi HK, Mousavi SM, Salarinia R, Rahmati M, Mousavi SF, et al. 2018. MicroRNAs and exosomes in depression: potential diagnostic biomarkers. J Cell Biochem. 119(5):3783–3797.
  • Wang Y, Liu Y, Xiong J, Di T, Yuan Z, Wu J, Chen L. 2019. Reduced serotonin impairs long-term depression in basolateral amygdala complex and causes anxiety-like behaviors in a mouse model of perimenopause. Exp Neurol. 321:1–14.
  • Xiao W, Zhang X, Wang Z, Wang Y, Guo X, He L, Liang F, Hu H. 2017. Effect of acupuncture treatment on gene expression of neurotransmitters of brain tissue in rats with post-stroke depression. Chin Acupunct Moxibustion. 37:637.
  • Xu Y, Xia Q, Xia Q, Zhang X, Liang J. 2019. MicroRNA-based biomarkers in the diagnosis and monitoring of therapeutic response in patients with depression. Neuropsychiatr Dis Treat. 15:3583–3597.
  • Yin G, Guan L, Yu L, Huang D. 2019. A pilot study on differential expression of microRNAs in the ventromedial prefrontal cortex and serum of sows in activity restricted crates or activity free pens. Asian-Australas J Anim Sci. 32(9):1169–1447.
  • Zhang M, Li X, Li J, Li J, Sun H, Zhang X, Bao J. 2017. Effects of confinement on physiological and psychological responses and expression of interleukin 6 and brain derived neurotrophic factor mRNA in primiparous and multiparous weaning sows. Asian-Australas J Anim Sci. 30(9):1350–1357.
  • Zhang Y, Zhu X, Bai M, Zhang L, Xue L, Yi J. 2013. Maternal deprivation enhances behavioral vulnerability to stress associated with miR-504 expression in nucleus accumbens of rats. PLoS One. 8(7):e69934–e69938.
  • Zhu X, Peng S, Zhang S, Zhang X. 2011. Stress-induced depressive behaviors are correlated with Par-4 and DRD2 expression in rat striatum. Behav Brain Res. 223(2):329–335.
  • Zurawek D, Kusmider M, Faron-Gorecka A, Gruca P, Pabian P, Kolasa M, Solich J, Szafran-Pilch K, Papp M, Dziedzicka-Wasylewska M. 2016. Time-dependent miR-16 serum fluctuations together with reciprocal changes in the expression level of miR-16 in mesocortical circuit contribute to stress resilient phenotype in chronic mild stress – An animal model of depression. Eur Neuropsychopharmacol. 26(1):23–36.

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