Overactivation of angiotensin-converting enzyme/angiotensin 2/angiotensin receptor-1 (ACE/Ang2/AT1) axis provokes amyloid-β-induced apoptosis and neurodegeneration in Alzheimer's disease (AD). Moreover, activation of AT1 impairs the survival pathway phosphoinositide 3-kinase/protein kinase B (PI3K/Akt). Interestingly, the coupling between ACE2/Ang(1-7)/Mas receptor (MasR) axis and PI3K/Akt activation opposes AT1-induced apoptosis. However, the effect of in vivo stimulation of MasR against AD and its correlation to PI3K/Akt is not yet elucidated. Thus, the present study aimed to investigate the relationship between PI3K/Akt pathway and the activation of ACE2/MasR in the AD model of D-galactose-ovariectomized rats. AD features were induced following 8-week injection of D-galactose (150 mg/kg, i.p.) in ovariectomized female rats. The ACE2 activator dimenazine (15 mg/kg, i.p.) was daily administered for 2 months. DIZE administration boosted the hippocampal expression of ACE2 and Mas receptors while suppressing AT1 receptor. Notably, dimenazine enhanced the expression of phosphorylated survival factors (PI3K, Akt, signal transducer, and activator of transcription-3) and neuroplasticity proteins such as cyclic adenosine monophosphate-responsive element-binding protein and brain-derived neurotrophic factor along with nicotinic and glutamatergic receptors. Such effects were accompanied by suppressing phosphorylated tau and glycogen synthase kinase3β along with caspase-3, cytochrome-c, nuclear factor kappa B, tumor necrosis factor alpha, and glial fibrillary acidic protein contents. Dimenazine ameliorated the histopathological damage observed in D-galactose-ovariectomized rats and improved their learning and recognition memory in Morris water maze and novel object recognition tests. In conclusion, dimenazine-induced stimulation of ACE2/Ang(1-7)/Mas axis subdues cognitive deficits in AD most probably through activation of PI3K/Akt pathway.
Vildagliptin (Vilda), a dipeptidyl peptidase-4 (DPP-4) inhibitor, has been highlighted as a promising therapeutic agent for neurodegenerative diseases as Alzheimer's and Parkinson's diseases. Vilda's effect is mostly linked to PI3K/Akt signaling in CNS. Moreover, PI3K/Akt activation reportedly enhanced survival and dampened progression of Huntington's disease (HD). However, Vilda's role in HD is yet to be elucidated. Thus, the aim of the study is to uncover the potentiality of Vilda in HD and unfold its link with PI3K/Akt pathway in 3-nitropropionic acid (3NP) rat model. Rats were randomly assigned into 4 groups; group 1 received saline, whereas, groups 2, 3 and 4 received 3NP (10 mg/kg/day; i.p.) for 14 days, concomitantly with Vilda (5 mg/kg/day; p.o.) in groups 3 and 4, and wortmannin (WM), a PI3K inhibitor, (15 μg/kg/day; i.v.) in group 4. Vilda improved cognitive and motor perturbations induced by 3NP, as confirmed by striatal histopathological specimens and immunohistochemical examination of GFAP. The molecular signaling of Vilda was estimated by elevation of GLP-1 level and protein expressions of survival proteins; p85/p55 (pY458/199)-PI3K, pS473-Akt. Together, it boosted striatal neurotrophic factors and receptor; pS133-CREB, BDNF, pY515-TrKB, which subsequently maintained mitochondrial integrity, as indicated by enhancing both SDH and COX activities, and the redox modulators; Sirt1, Nrf2. Such neuroprotection restored imbalance of neurotransmitters through increasing GABA and suppressing glutamate as well PDE10A. These effects were reversed by WM pre-administration. In conclusion, Vilda purveyed significant anti-Huntington effect which may be mediated, at least in part, via activation of GLP-1/PI3K/Akt pathway in 3NP rat model.
Autophagy and mitochondrial deficits are characteristics of early phase of Alzheimer’s disease (AD). Sodium-glucose cotransporter-2 inhibitors have been nominated as a promising class against AD hallmarks. However, there are no available data yet to discuss the impact of gliflozins on autophagic pathways in AD. Peripherally, dapagliflozin’s (DAPA) effect is mostly owed to autophagic signals. Thus, the goal of this study is to screen the power of DAPA centrally on LKB1/AMPK/SIRT1/mTOR signaling in the ovariectomized/d-galactose (OVX/d-Gal) rat model. Animals were arbitrarily distributed between 5 groups; the first group undergone sham operation, while remaining groups undergone OVX followed by d-Gal (150 mg/kg/day; i.p.) for 70 days. After 6 weeks, the third, fourth, and fifth groups received DAPA (1 mg/kg/day; p.o.); concomitantly with the AMPK inhibitor dorsomorphin (DORSO, 25 µg/rat, i.v.) in the fourth group and the SIRT1 inhibitor EX-527 (10 µg/rat, i.v.) in the fifth group. DAPA mitigated cognitive deficits of OVX/d-Gal rats, as mirrored in neurobehavioral task with hippocampal histopathological examination and immunohistochemical aggregates of p-Tau. The neuroprotective effect of DAPA was manifested by elevation of energy sensors; AMP/ATP ratio and LKB1/AMPK protein expressions along with autophagic markers; SIRT1, Beclin1, and LC3B expressions. Downstream the latter, DAPA boosted mTOR and mitochondrial function; TFAM, in contrary lessened BACE1. Herein, DORSO or EX-527 co-administration prohibited DAPA’s actions where DORSO elucidated DAPA’s direct effect on LKB1 while EX-527 mirrored its indirect effect on SIRT1. Therefore, DAPA implied its anti-AD effect, at least in part, via boosting hippocampal LKB1/AMPK/SIRT1/mTOR signaling in OVX/d-Gal rat model.
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