👤 Raman Sankar

BackgroundStress is a major trigger for migraine attacks. Stress activates the hypothalamic-pituitary-adrenal (HPA) axis, releasing glucocorticoids (GCs) to maintain homeostasis, and migraine attacks may occur as an adverse effect of this response. We previously demonstrated in a mouse model that inhibiting corticosterone (CORT) synthesis by administering metyrapone before stress prevented stress-induced migraine-like behaviors. Given the unpredictable nature of stressors and their onset or termination, it is critical to better understand the adaptive and maladaptive effects of the HPA stress response. Here, we aimed to evaluate the effects of HPA axis modulation following the end of stress exposure.MethodsRepeated stress induces migraine-like behaviors and priming to sodium nitroprusside (SNP) in mice. Metyrapone (to inhibit CORT synthesis), CORT (to evaluate its effects after exogenous administration), and adrenocorticotropic hormone (ACTH) (to test the effects of a hormone upstream to CORT) were administered post-stress. Additionally, α-melanocyte-stimulating hormone (α-MSH, an ACTH cleavage product) and tetrahydroisoquinoline (THIQ), a melanocortin 4 receptor (MC4R) agonist, were administered to examine melanocortin receptor involvement. Facial hypersensitivity was assessed via von Frey testing and grimace scoring was used to evaluate non-evoked pain. Serum CORT levels were measured in both control and stressed mice following ACTH administration.ResultsWe examined post-stress HPA axis modulation on stress-induced facial hypersensitivity. Metyrapone reduced acute-phase hypersensitivity and reduced priming to SNP, suggesting sustained synthesis of CORT after stress plays a role in development of migraine-like behavior. Surprisingly, both CORT and ACTH treatments at 1- and 24-h post-stress alleviated stress-induced behaviors and priming. To determine if ACTH effects were mediated by an elevation in circulating CORT, metyrapone was administered before the ACTH injection. Metyrapone increased the ACTH reversal of stress effects on facial hypersensitivity. Furthermore, post-stress ACTH injections significantly increased serum CORT levels within 30 min. In addition to ACTH effects on CORT levels, ACTH effects could be mediated by the melanocortin system. Post-stress administration of α-MSH or the MC4R agonist THIQ, reduced migraine-like behaviors.ConclusionsThere is a complex relationship between stress, the HPA axis, and melanocortin signaling, in the effects of repeated stress exposure on migraine-like behaviors. In the early post-stress response phase, there are contributions from both CORT and MC4R signaling in the maintenance of behavioral effects. These findings suggest that targeting the HPA axis and MC4R after stress may be a potential therapeutic approach for stress-induced migraine attacks. Show less

Autism spectrum disorder (ASD) is a complex neurodevelopmental disorder characterized by impaired social interactions, difficulty with communication, and repetitive behavior patterns. In humans affected by ASD, there is a male pre-disposition towards the condition with a male to female ratio of 4:1. In part due to the complex etiology of ASD including genetic and environmental interplay, there are currently no available medical therapies to improve the social deficits of ASD. Studies in rodent models and humans have shown promising therapeutic effects of oxytocin in modulating social adaptation. One pharmacological approach to stimulating oxytocinergic activity is the melanocortin receptor 4 agonist Melanotan-II (MT-II). Notably the effects of oxytocin on environmental rodent autism models has not been investigated to date. We used a maternal immune activation (MIA) mouse model of autism to assess the therapeutic potential of MT-II on autism-like features in adult male mice. The male MIA mice exhibited autism-like features including impaired social behavioral metrics, diminished vocal communication, and increased repetitive behaviors. Continuous administration of MT-II to male MIA mice over a seven-day course resulted in rescue of social behavioral metrics. Normal background C57 male mice treated with MT-II showed no significant alteration in social behavioral metrics. Additionally, there was no change in anxiety-like or repetitive behaviors following MT-II treatment of normal C57 mice, though there was significant weight loss following subacute treatment. These data demonstrate MT-II as an effective agent for improving autism-like behavioral deficits in the adult male MIA mouse model of autism. Show less

Cholesteryl ester transfer protein (CETP) facilitates the transfer of cholesteryl esters (CEs) from antiatherogenic high-density lipoproteins to proatherogenic low-density lipoproteins. Inhibition of CETP is therefore being pursued as a potential strategy to reduce cardiovascular risk. The crystal structure of CETP has revealed the existence of two neutral CEs and two charged phospholipids (PLs) in its hydrophobic tunnel. This is in direct contrast to the other lipid-binding proteins that contain only two bound lipids. Moreover, previous animal studies on mice showed no detectable PL-transfer activity of CETP. Thus, the role of bound PLs in CETP is completely unknown. Here, we employ molecular dynamics simulations and free-energy calculations to unravel the primary effects of bound PLs on CETP structure and dynamics and attempt to correlate the observed changes to its function. Our results suggest that the structure of CETP is elastic and can attain different conformations depending on the state of bound PLs. In solution, these PLs maintain CETP in a bent-untwisted conformation that can uphold neutral lipids in its core tunnel. Results also suggest that although both PLs complement each other in their action, the C-terminal PL (C-PL) imparts greater influence on CETP by virtue of its tighter binding. Our finding fits very well with the recent inhibitor-bound CETP crystal structure, where the inhibitor displaced the N-terminal PL for binding to CETP's central domain without disrupting the binding of C-PL. We speculate that the observed increased flexibility of CETP in the absence of PLs could play a crucial role in its binding with lipoproteins and subsequent lipid-transfer activity. Show less