Formisano Simone, Hornig Mady, Yaddanapudi Kavitha, Vasishtha Mansi, Parsons Loren H, Briese Thomas, Lipkin W Ian, Williams Brent L
Center for Infection and Immunity, Mailman School of Public Health, Columbia University, New York, New York, USA.
Department of Epidemiology, Mailman School of Public Health, Columbia University, New York, New York, USA.
J Virol. 2017 Jun 26;91(14). doi: 10.1128/JVI.00673-17. Print 2017 Jul 15.
Central nervous system infection of neonatal and adult rats with Borna disease virus (BDV) results in neuronal destruction and behavioral abnormalities with differential immune-mediated involvement. Neuroactive metabolites generated from the kynurenine pathway of tryptophan degradation have been implicated in several human neurodegenerative disorders. Here, we report that brain expression of key enzymes in the kynurenine pathway are significantly, but differentially, altered in neonatal and adult rats with BDV infection. Gene expression analysis of rat brains following neonatal infection showed increased expression of kynurenine amino transferase II (KATII) and kynurenine-3-monooxygenase (KMO) enzymes. Additionally, indoleamine 2,3-dioxygenase (IDO) expression was only modestly increased in a brain region- and time-dependent manner in neonatally infected rats; however, its expression was highly increased in adult infected rats. The most dramatic impact on gene expression was seen for KMO, whose activity promotes the production of neurotoxic quinolinic acid. KMO expression was persistently elevated in brain regions of both newborn and adult BDV-infected rats, with increases reaching up to 86-fold. KMO protein levels were increased in neonatally infected rats and colocalized with neurons, the primary target cells of BDV infection. Furthermore, quinolinic acid was elevated in neonatally infected rat brains. We further demonstrate increased expression of KATII and KMO, but not IDO, in BDV-infected C6 astroglioma cells. Our results suggest that BDV directly impacts the kynurenine pathway, an effect that may be exacerbated by inflammatory responses in immunocompetent hosts. Thus, experimental models of BDV infection may provide new tools for discriminating virus-mediated from immune-mediated impacts on the kynurenine pathway and their relative contribution to neurodegeneration. BDV causes persistent, noncytopathic infection yet still elicits widespread neurodegeneration of infected neurons in both immunoincompetent and immunocompetent hosts. Here, we show that BDV infection induces expression of key enzymes of the kynurenine pathway in brains of newborn and adult infected rats and cultured astroglioma cells, shunting tryptophan degradation toward the production of neurotoxic quinolinic acid. Thus, our findings newly implicate this metabolic pathway in BDV-induced neurodegeneration. Given the importance of the kynurenine pathway in a wide range of human infections and neurodegenerative and neuropsychiatric disorders, animal models of BDV infection may serve as important tools for contrasting direct viral and indirect antiviral immune-mediated impacts on kynurenine pathway dysregulation and the ensuing neurodevelopmental and neuropathological consequences.
新生大鼠和成年大鼠的中枢神经系统感染博尔纳病病毒(BDV)会导致神经元破坏和行为异常,并伴有不同的免疫介导参与。色氨酸降解的犬尿氨酸途径产生的神经活性代谢产物与几种人类神经退行性疾病有关。在此,我们报告,在感染BDV的新生大鼠和成年大鼠中,犬尿氨酸途径中关键酶的脑表达有显著但不同的改变。新生感染后大鼠脑的基因表达分析显示,犬尿氨酸转氨酶II(KATII)和犬尿氨酸-3-单加氧酶(KMO)的表达增加。此外,在新生感染的大鼠中,吲哚胺2,3-双加氧酶(IDO)的表达仅以脑区和时间依赖性方式适度增加;然而,其在成年感染大鼠中的表达高度增加。对基因表达影响最显著的是KMO,其活性促进神经毒性喹啉酸的产生。在新生和成年BDV感染大鼠的脑区中,KMO的表达持续升高,增加幅度高达86倍。在新生感染的大鼠中,KMO蛋白水平增加,并与BDV感染的主要靶细胞神经元共定位。此外,新生感染的大鼠脑中喹啉酸升高。我们进一步证明,在BDV感染的C6星形胶质瘤细胞中,KATII和KMO的表达增加,但IDO没有增加。我们的结果表明,BDV直接影响犬尿氨酸途径,在免疫活性宿主中,炎症反应可能会加剧这种影响。因此,BDV感染的实验模型可能为区分病毒介导和免疫介导对犬尿氨酸途径的影响及其对神经退行性变的相对贡献提供新工具。BDV会引起持续性、非细胞病变性感染,但在免疫缺陷和免疫活性宿主中仍会引发受感染神经元的广泛神经退行性变。在此,我们表明,BDV感染会诱导新生和成年感染大鼠脑以及培养的星形胶质瘤细胞中犬尿氨酸途径关键酶的表达,使色氨酸降解转向神经毒性喹啉酸的产生。因此,我们的发现首次表明该代谢途径与BDV诱导的神经退行性变有关。鉴于犬尿氨酸途径在广泛的人类感染以及神经退行性和神经精神疾病中的重要性,BDV感染的动物模型可能成为重要工具,用于对比病毒直接和抗病毒免疫间接介导对犬尿氨酸途径失调以及随之而来的神经发育和神经病理学后果的影响。
