Instituto de Investigaciones Biomedicas Alberto Sols (IIBM), CSIC-UAM, Madrid, Spain; CIBER de Diabetes y Enfermedades Metabólicas Asociadas (CIBERDEM), ISCIII, Spain.
Centro Nacional de Investigaciones Cardiovasculares (CNIC), 28029, Madrid, Spain.
Redox Biol. 2023 Jul;63:102741. doi: 10.1016/j.redox.2023.102741. Epub 2023 May 15.
Olanzapine (OLA), a widely used second-generation antipsychotic (SGA), causes weight gain and metabolic alterations when administered orally to patients. Recently, we demonstrated that, contrarily to the oral treatment which induces weight gain, OLA administered via intraperitoneal (i.p.) in male mice resulted in body weight loss. This protection was due to an increase in energy expenditure (EE) through a mechanism involving the modulation of hypothalamic AMPK activation by higher OLA levels reaching this brain region compared to those of the oral treatment. Since clinical studies have shown hepatic steatosis upon chronic treatment with OLA, herein we further investigated the role of the hypothalamus-liver interactome upon OLA administration in wild-type (WT) and protein tyrosine phosphatase 1B knockout (PTP1B-KO) mice, a preclinical model protected against metabolic syndrome. WT and PTP1B-KO male mice were fed an OLA-supplemented diet or treated via i.p. Mechanistically, we found that OLA i.p. treatment induces mild oxidative stress and inflammation in the hypothalamus in a JNK1-independent and dependent manner, respectively, without features of cell dead. Hypothalamic JNK activation up-regulated lipogenic gene expression in the liver though the vagus nerve. This effect concurred with an unexpected metabolic rewiring in the liver in which ATP depletion resulted in increased AMPK/ACC phosphorylation. This starvation-like signature prevented steatosis. By contrast, intrahepatic lipid accumulation was observed in WT mice treated orally with OLA; this effect being absent in PTP1B-KO mice. We also demonstrated an additional benefit of PTP1B inhibition against hypothalamic JNK activation, oxidative stress and inflammation induced by chronic OLA i.p. treatment, thereby preventing hepatic lipogenesis. The protection conferred by PTP1B deficiency against hepatic steatosis in the oral OLA treatment or against oxidative stress and neuroinflammation in the i.p. treatment strongly suggests that targeting PTP1B might be also a therapeutic strategy to prevent metabolic comorbidities in patients under OLA treatment in a personalized manner.
奥氮平(OLA)是一种广泛使用的第二代抗精神病药(SGA),当口服给患者时会导致体重增加和代谢改变。最近,我们证明,与引起体重增加的口服治疗相反,OLA 通过腹腔内(i.p.)给药在雄性小鼠中导致体重减轻。这种保护作用是由于能量消耗(EE)的增加,其机制涉及通过调节下丘脑 AMPK 激活来实现,这是由于与口服治疗相比,更高水平的 OLA 到达该脑区。由于临床研究表明奥氮平慢性治疗会导致肝脂肪变性,因此在此我们进一步研究了下丘脑-肝脏相互作用在野生型(WT)和蛋白酪氨酸磷酸酶 1B 敲除(PTP1B-KO)小鼠中的作用,PTP1B-KO 是一种预防代谢综合征的临床前模型。WT 和 PTP1B-KO 雄性小鼠喂食含有 OLA 的饮食或通过 i.p. 进行治疗。从机制上讲,我们发现 OLA i.p. 治疗分别以 JNK1 独立和依赖的方式在下丘脑引起轻度氧化应激和炎症,而没有细胞死亡的特征。下丘脑 JNK 激活通过迷走神经上调肝脏中的生脂基因表达。这种作用与肝脏中出乎意料的代谢重排一致,其中 ATP 耗竭导致 AMPK/ACC 磷酸化增加。这种饥饿样特征可防止脂肪变性。相比之下,在口服 OLA 治疗的 WT 小鼠中观察到肝内脂质积累;而在 PTP1B-KO 小鼠中则不存在这种作用。我们还证明了 PTP1B 抑制对慢性 OLA i.p. 治疗引起的下丘脑 JNK 激活、氧化应激和炎症的额外益处,从而防止肝脏脂肪生成。PTP1B 缺乏对口服 OLA 治疗引起的肝脂肪变性或对 i.p. 治疗引起的氧化应激和神经炎症的保护作用强烈表明,针对 PTP1B 可能也是一种以个性化方式预防奥氮平治疗患者代谢合并症的治疗策略。
