Alfredo Cárdenas-Rivera scite author profile

Vascular endothelial growth factor (VEGF) has long been connected to the development of tissue lesion following ischemic stroke. Contradictory findings either situate VEGF as a promoter of large infarct volumes or as a potential attenuator of damage due to its well documented neuroprotective capability. The core of this discrepancy mostly lies on the substantial number of pleiotropic functions driven by VEGF. Mechanistically, these effects are activated through several VEGF receptors for which various closely related ligands exist. Here, we tested in an experimental model of stroke how the differential activation of VEGF receptors 1 and 2 would modify functional and histological outcomes in the acute phase post-ischemia. We also assessed whether VEGF-mediated responses would involve the modulation of inflammatory mechanisms and how this trophic factor acted specifically on neuronal receptors. We produced ischemic infarcts in adult rats by transiently occluding the middle cerebral artery and induced the pharmacological inhibition of VEGF receptors by i.c.v. administration of the specific VEGFR2 inhibitor SU1498 and the pan-VEGFR blocker Axitinib. We evaluated the neurological performance of animals at 24 h following stroke and the occurrence of brain infarctions analyzed at the gross metabolic and neuronal viability levels. We also assessed the induction of peripheral pro- and anti-inflammatory cytokines in the cerebrospinal fluid and blood and assessed the polarization of activated microglia. Finally, we studied the direct involvement of cortical neuronal receptors for VEGF with in vitro assays of excitotoxic damage. Preferential VEGFR1 activation by the endogenous ligand promotes neuronal protection and prevents the presentation of large volume infarcts that highly correlate with neurological performance, while the concomitant activation of VEGFR2 reduces this effect, even in the presence of exogenous ligand. This process partially involves the polarization of microglia to the state M2. At the cellular level, neurons also responded better to the preferential activation of VEGFR1 when challenged to N -methyl- D -aspartate-induced excitotoxicity. Endogenous activation of VEGFR2 hinders the neuroprotective mechanisms mediated by the activation of VEGFR1. The selective modulation of these concurrent processes might enable the development of therapeutic approaches that target specific VEGFR1-mediated signaling during the acute phase post-stroke.

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Time‐restricted feeding prevents depressive‐like and anxiety‐like behaviors in male rats exposed to an experimental model of shift‐work

Guerrero‐Vargas¹,

Zárate‐Mozo²,

Guzmán-Ruiz

et al. 2020

J of Neuroscience Research

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Individuals who regularly shift their sleep timing, like night and/or shift-workers suffer from circadian desynchrony and are at risk of developing cardiometabolic diseases and cancer. Also, shift-work is are suggested to be a risk factor for the development of mood disorders such as the burn out syndrome, anxiety, and depression. Experimental and clinical studies provide evidence that food intake restricted to the normal activity phase is a potent synchronizer for the circadian system and can prevent the detrimental health effects associated with circadian disruption. Here, we explored whether adult male Wistar rats exposed to an experimental model of shift-work (W-AL) developed depressive and/or anxiety-like behaviors and whether this was associated with neuroinflammation in brain areas involved with mood regulation. We also tested whether time-restricted feeding (TRF) to the active phase could ameliorate circadian disruption and therefore would prevent depressive and anxiety-like behaviors as well as neuroinflammation. In male Wistar rats, W-AL induced depressive-like behavior characterized by hypoactivity and anhedonia and induced increased anxiety-like behavior in the open field test. This was associated with increased number of glial fibrillary acidic protein and IBA-1-positive cells in the prefrontal cortex and basolateral amygdala. Moreover W-AL caused morphological changes in the microglia in the CA3 area of the hippocampus indicating microglial activation. Importantly, TRF prevented behavioral changes and decreased neuroinflammation markers in the brain. Present results add up evidence about the importance that TRF in synchrony with the light-dark cycle can prevent neuroinflammation leading to healthy mood states in spite of circadian disruptive conditions.

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Regulation of Metabolic Health by an “Olfactory-Hypothalamic Axis” and Its Possible Implications for the Development of Therapeutic Approaches for Obesity and T2D

et al. 2021

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LPS-induced inflammation alters cerebral oxygenation but not blood flow in a mouse model of Alzheimer’s disease

Liu¹,

Alfadhel

Teitelbaum³

et al. 2023

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Chronic inflammation is one of the most prominent features of Alzheimer's disease (AD). Little is known about how brain hemodynamics and oxygenation are affected by AD-related inflammation. Here, we use two-photon phosphorescence lifetime imaging with an oxygen-sensitive dye “Oxyphor 2P” to measure the partial pressure of oxygen (pO2) before and during endotoxin-induced neuroinflammation in cortical vessels of a mouse model of AD. Capillary red blood cell flux (RBC flux) was measured through two-photon phosphorescence intensity microscopy. To induce chronic inflammation, we injected lipopolysaccharide (LPS) intraperitoneally, daily for two weeks, in female APPswe: PS1dE9 mice and age-matched wild-type (WT) controls. Intravascular pO2 and RBC flux were measured in the somatosensory cortex before the LPS injection, on week 1 (day 7), and week 2 (day 15) during the LPS injection. Our results demonstrate that LPS-induced systemic inflammation leads to significant decreases in cortical intravascular pO2 while showing a negligible effect on capillary RBC flux. Moreover, AD mice are more susceptible to inflammation with more pronounced cortical pO2 reduction in comparison to WT mice. Our findings suggest that inflammation plays a key role in AD-related disruptions of cerebral tissue metabolism of oxygen.

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Author response for "Time‐restricted feeding prevents depressive‐like and anxiety‐like behaviors in male rats exposed to an experimental model of shift‐work"

Guerrero‐Vargas¹,

Zárate‐Mozo²,

Guzmán-Ruiz³

et al. 2020

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