用载有 microRNA 的沉默载体在大鼠黑质内靶向α-突触核蛋白:正性和负性作用。
Targeting alpha-synuclein with a microRNA-embedded silencing vector in the rat substantia nigra: positive and negative effects.
机构信息
Department of Pediatrics, Neurobiology Program, Ann and Robert H. Lurie Children's Hospital of Chicago Research Center, Feinberg School of Medicine, Northwestern University, 225 E. Chicago Ave., Box 209, Chicago, IL 60611, United States.
Department of Pediatrics, Neurobiology Program, Ann and Robert H. Lurie Children's Hospital of Chicago Research Center, Feinberg School of Medicine, Northwestern University, 225 E. Chicago Ave., Box 209, Chicago, IL 60611, United States.
出版信息
Brain Res. 2014 Mar 6;1550:47-60. doi: 10.1016/j.brainres.2014.01.010. Epub 2014 Jan 21.
BACKGROUND
Alpha-synuclein (SNCA) downregulation shows therapeutic potential for synucleinopathies, including Parkinson's disease (PD). Previously we showed that human (h)SNCA gene silencing using a short hairpin (sh)RNA in rat substantia nigra (SN) protects against a hSNCA-induced forelimb deficit, but not dopamine (DA) neuron loss. Furthermore, the shRNA increases cell death in vitro, but the same target sequence embedded in a microRNA30 transcript (mir30-hSNCA) does not.
OBJECTIVE
Examine hSNCA gene silencing using mir30-hSNCA in vivo.
METHODS
Rats were stereotaxically injected into one SN with adeno-associated virus serotype 2/8 (AAV)-hSNCA, AAV-hSNCA plus AAV-mir30-SNCA or AAV-hSNCA plus a control non-silencing mir30-embedded siRNA and DA neuron markers and associated behavior were examined.
RESULTS
AAV2/8-mediated SN hSNCA expression induces a forelimb deficit and tyrosine hydroxylase-immunoreactive (TH-IR) neuron loss. hSNCA gene silencing using mir30-hSNCA protects against this forelimb deficit at 2 m and ameliorates TH-IR neuron loss. Striatal (ST) TH-IR fiber density and DA markers, assessed by western blot, are unaffected by AAV-hSNCA alone. Co-expression of either silencing vector reduces ST TH-IR fibers, panTH in SN and Ser40 phosphorylated TH in SN and ST, but does not affect vesicular monoamine transporter-2. However, hSNCA gene silencing promotes partial TH-IR fiber recovery by 2 m. Co-expression of either silencing vector also induces SN inflammation, although some recovery was observed by 2 m in hSNCA-silenced SN.
CONCLUSION
hSNCA gene silencing with AAV-mir30-hSNCA has positive effects on forelimb behavior and SN DA neurons, which are compromised by inflammation and reduced TH expression, suggesting that AAV2/8-mir30-hSNCA-mediated gene silencing, although promising in vitro, is not a candidate for therapeutic translation for PD.
背景
α-突触核蛋白(SNCA)下调显示出对包括帕金森病(PD)在内的突触核蛋白病的治疗潜力。此前,我们使用短发夹(sh)RNA 在大鼠黑质(SN)中沉默人(h)SNCA 基因,发现其可以预防 hSNCA 诱导的前肢缺陷,但不能预防多巴胺(DA)神经元丢失。此外,该 shRNA 增加了体外细胞死亡,但相同的靶序列嵌入 microRNA30 转录本(mir30-hSNCA)中则不会。
目的
体内研究使用 mir30-hSNCA 进行 hSNCA 基因沉默。
方法
立体定向注射腺相关病毒血清型 2/8(AAV)-hSNCA 到大鼠一侧 SN 中,注射 AAV-hSNCA 加 AAV-mir30-SNCA 或 AAV-hSNCA 加对照非沉默 mir30 嵌入 siRNA,然后检测 DA 神经元标志物和相关行为。
结果
AAV2/8 介导的 SN hSNCA 表达诱导前肢缺陷和酪氨酸羟化酶免疫反应性(TH-IR)神经元丢失。使用 mir30-hSNCA 进行 hSNCA 基因沉默可预防 2 个月时的前肢缺陷,并改善 TH-IR 神经元丢失。纹状体(ST)TH-IR 纤维密度和 DA 标志物,通过 Western blot 评估,不受 AAV-hSNCA 单独作用的影响。两种沉默载体的共表达均减少了 ST 的 TH-IR 纤维、SN 和 ST 中的泛 TH、SN 和 ST 中的 Ser40 磷酸化 TH,但不影响囊泡单胺转运体-2。然而,hSNCA 基因沉默通过 2 个月促进了部分 TH-IR 纤维的恢复。两种沉默载体的共表达也诱导了 SN 炎症,尽管在 hSNCA 沉默的 SN 中观察到 2 个月时的部分恢复。
结论
AAV-mir30-hSNCA 进行 hSNCA 基因沉默对前肢行为和 SN DA 神经元具有积极影响,而炎症和 TH 表达减少会损害这些神经元,这表明 AAV2/8-mir30-hSNCA 介导的基因沉默虽然在体外有前景,但不适合用于 PD 的治疗转化。
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