Bruna Visniauskas scite author profile

Thimet oligopeptidase (THOP1) is thought to be involved in neuropeptide metabolism, antigen presentation, neurodegeneration, and cancer. Herein, the generation of THOP1 C57BL/6 knockout mice (THOP1−/−) is described showing that they are viable, have estrus cycle, fertility, and a number of puppies per litter similar to C57BL/6 wild type mice (WT). In specific brain regions, THOP1-/- exhibit altered mRNA expression of proteasome beta5, serotonin 5HT2a receptor and dopamine D2 receptor, but not of neurolysin (NLN). Peptidomic analysis identifies differences in intracellular peptide ratios between THOP1-/- and WT mice, which may affect normal cellular functioning. In an experimental model of multiple sclerosis THOP1-/- mice present worse clinical behavior scores compared to WT mice, corroborating its possible involvement in neurodegenerative diseases. THOP1-/- mice also exhibit better survival and improved behavior in a sepsis model, but also a greater peripheral pain sensitivity measured in the hot plate test after bradykinin administration in the paw. THOP1-/- mice show depressive-like behavior, as well as attention and memory retention deficits. Altogether, these results reveal a role of THOP1 on specific behaviors, immune-stimulated neurodegeneration, and infection-induced inflammation.

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Sex and the G Protein–Coupled Estrogen Receptor Impact Vascular Stiffness

Ogola

Clark

Abshire

et al. 2021

Hypertension

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Because arterial stiffness increases following menopause, estrogen may be a protective factor. Our previous work indicates that the GPER (G protein–coupled estrogen receptor) mediates estrogen’s vascular actions. In the current study, we assessed arterial stiffening using pulse wave velocity (PWV), a clinically relevant measurement that independently predicts cardiovascular mortality. We hypothesized that genetic deletion of GPER would attenuate sex differences in PWV and would be associated with changes in passive vascular mechanics. Control and Ang II (angiotensin II)–infused male and female wild-type and GPER knockout mice were assessed for blood pressure, intracarotid PWV, cardiac function, passive biaxial mechanics, constitutive modeling, and histology. Sex differences in PWV and left ventricular mass were detected in wild-type mice but absent in GPER knockout and Ang II–infused mice, regardless of genotype. Despite lower PWV, the material stiffness of female wild-type carotids was greater than males in control conditions and was maintained in response to Ang II due to increased wall thickness. PWV positively correlated with unloaded thickness as well as circumferential and axial stiffness only in females. In contrast, blood pressure positively associated with circumferential and axial stiffness in males. Taken together, we found that female wild-type mice were unique in their vascular adaptation to hypertension by increasing wall thickness to maintain stiffness. Given that carotid arteries are easily accessible clinically, systematic assessment of intracarotid PWV in women may provide insight into vascular damage that cannot be assumed from blood pressure measurements alone.

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Sex differences in vascular aging and impact of GPER deletion

Ogola

Abshire

Visniauskas

et al. 2022

American Journal of Physiology-Heart and Circulatory Physiology

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Aging is a nonmodifiable risk factor for cardiovascular disease associated with arterial stiffening and endothelial dysfunction. We hypothesized that sex differences exist in vascular aging processes and would be attenuated by global deletion of the G protein-coupled estrogen receptor. Blood pressure was measured by tail cuff plethysmography, pulse wave velocity (PWV) and echocardiography were assessed with high resolution ultrasound, and small vessel reactivity was measured using wire myography in adult (25 weeks) and middle-aged (57 weeks) male and female mice. Adult female mice displayed lower blood pressure and PWV, but this sex difference was absent in middle-aged mice. Aging significantly increased PWV but not blood pressure in both sexes. Adult female carotids were more distensible than males, but this sex difference was lost during aging. Acetylcholine-induced relaxation was greater in female than male mice at both ages, and only males showed aging-induced changes in cardiac hypertrophy and function. GPER deletion removed the sex difference in PWV as well as ex vivo stiffness in adult mice. The sex difference in blood pressure was absent in KO mice and was associated with endothelial dysfunction in females. These findings indicate that the impact of aging on arterial stiffening and endothelial function is not the same in male and female mice. Moreover, nongenomic estrogen signaling through GPER impacted vascular phenotype differently in male and female mice. Delineating sex differences in vascular changes during healthy aging is an important first step in improving early detection and sex-specific treatments in our aging population.

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Late effects of sleep restriction: Potentiating weight gain and insulin resistance arising from a high-fat diet in mice

Oliveira

Visniauskas

Sandri

et al. 2014

Obesity

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Objective: Epidemiological studies show the association of sleep restriction (SR) with obesity and insulin resistance. Experimental studies are limited to the concurrent or short-term effects of SR. Here, we examined the late effects of SR regarding weight gain and metabolic alterations induced by a high-fat diet (HFD). Methods: C57BL/6 mice were subjected to a multiple platform method of SR for 15 days, 21 h daily, followed by 6 weeks of a 30% HFD. Results: Just after SR, serum insulin and resistin concentrations were increased and glycerol content decreased. In addition, resistin, TNF-a, and IL-6 mRNA expression were notably increased in epididymal fat. At the end of the HFD period, mice previously submitted to SR gained more weight (32.361.0 vs. 29.460.7 g) with increased subcutaneous fat mass, had increments in the expression of the adipogenic genes PPARc, C/EBPa, and C/EBPb, and had macrophage infiltration in the epididymal adipose tissue. Furthermore, enhanced glucose tolerance and insulin resistance were also observed. Conclusions: The consequences of SR may last for a long period, characterizing SR as a predisposing factor for weight gain and insulin resistance. Metabolic changes during SR seem to prime adipose tissue, aggravating the harmful effects of diet-induced obesity.

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Estrogen-mediated mechanisms in hypertension and other cardiovascular diseases

et al. 2022

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