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1. Effects of aging and type 2 diabetes on cardiac structure and function: Underlying mechanisms

Author

Justina P. Nguyen, Israel Ramirez-Sanchez, Alejandra Garate-Carrillo, Viridiana Navarrete-Yañez, Rommel A. Carballo-Castañeda, Guillermo Ceballos, Aldo Moreno-Ulloa, and Francisco Villarreal

Subjects
Diabetes, Cardiac remodeling, Cardiac fibrosis, Inflammation, Medicine, Biology (General), QH301-705.5
Abstract

We characterized long-term changes in cardiac structure and function in a high-fat diet/streptozotocin mouse model of aging and type 2 diabetes mellitus (T2D) and examined how the intersection of both conditions alters plasma metabolomics. We also evaluated the possible roles played by oxidative stress, arginase activity and pro-inflammatory cytokines. C57BL/6 male mice (13-month-old) were used. Control animals (n = 13) were fed regular chow for 10 months (aged group). T2D animals (n = 25) were provided a single injection of streptozotocin and fed a high fat diet for 10 months. In select endpoints, young animals were used for comparison. To monitor changes in left ventricular (LV) structure and function, echocardiography was used. At the terminal study (23 months), blood was collected and hearts processed for biochemical or histological analysis. Echo yielded diminished diastolic function with aging and T2D. LV fractional shortening and ejection fraction decreased with T2D by 16 months peaking at 23 months. Western blots noted increases in fibronectin and type I collagen with aging/T2D and greater levels with T2D in α-smooth muscle actin. Increases in plasma and/or myocardial protein carbonyls, arginase activity and pro-inflammatory cytokines occurred with aging and T2D. Untargeted metabolomics and cheminformatics revealed differences in the plasma metabolome of T2D vs. aged mice while select classes of lipid metabolites linked to insulin resistance, were dysregulated. We thus, document changes in LV structure and function with aging that in select endpoints, are accentuated with T2D and link them to increases in OS, arginase activity and pro-inflammatory cytokines.

Published
2023
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2. Restorative potential of (−)-epicatechin in a rat model of Gulf War illness muscle atrophy and fatigue

Author

Israel Ramirez-Sanchez, Viridiana Navarrete-Yañez, Alejandra Garate-Carrillo, Modesto Lara-Hernandez, Judith Espinosa-Raya, Aldo Moreno-Ulloa, Benjamin Gomez-Diaz, Ana Lilia Cedeño-Garcidueñas, Guillermo Ceballos, and Francisco Villarreal

Subjects
Medicine, Science
Abstract

Abstract We examined in a rat model of Gulf War illness (GWI), the potential of (−)-epicatechin (Epi) to reverse skeletal muscle (SkM) atrophy and dysfunction, decrease mediators of inflammation and normalize metabolic perturbations. Male Wistar rats (n = 15) were provided orally with pyridostigmine bromide (PB) 1.3 mg/kg/day, permethrin (PM) 0.13 mg/kg/day (skin), DEET 40 mg/kg/day (skin) and were physically restrained for 5 min/day for 3 weeks. A one-week period ensued to fully develop the GWI-like profile followed by 2 weeks of either Epi treatment at 1 mg/kg/day by gavage (n = 8) or water (n = 7) for controls. A normal, control group (n = 15) was given vehicle and not restrained. At 6 weeks, animals were subjected to treadmill and limb strength testing followed by euthanasia. SkM and blood sampling was used for histological, biochemical and plasma pro-inflammatory cytokine and metabolomics assessments. GWI animals developed an intoxication profile characterized SkM atrophy and loss of function accompanied by increases in modulators of muscle atrophy, degradation markers and plasma pro-inflammatory cytokine levels. Treatment of GWI animals with Epi yielded either a significant partial or full normalization of the above stated indicators relative to normal controls. Plasma metabolomics revealed that metabolites linked to inflammation and SkM waste pathways were dysregulated in the GWI group whereas Epi, attenuated such changes. In conclusion, in a rat model of GWI, Epi partially reverses detrimental changes in SkM structure including modulators of atrophy, inflammation and select plasma metabolites yielding improved function.

Published
2021
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3. (-)-Epicatechin Ameliorates Cardiac Fibrosis in a Female Rat Model of Pre-Heart Failure with Preserved Ejection Fraction

Author

Moises Bustamante-Pozo, Israel Ramirez-Sanchez, Alejandra Garate-Carrillo, Bruce Ito, Viridiana Navarrete, Moises Haro, Ricardo Garcia, Nancy Carson, Guillermo Ceballos, and Francisco Villarreal

Subjects
Heart Failure, Nutrition and Dietetics, Infarction, Medicine (miscellaneous), Animals, Cytokines, Female, Stroke Volume, Collagen, Fibrosis, Catechin, Rats
Abstract

One of the most abundant flavonoids present in cacao is (-)-epicatechin (Epi) and this flavanol has been linked to the cardiovascular health promoting actions of cocoa products. We previously demonstrated that Epi reduces infarct size in rodent models of ischemia/reperfusion and permanent coronary occlusion. Reduced infarct size was associated with decreased left ventricular (LV) oxidative stress (OS) and indicators of inflammation factors, which foster myocardial fibrosis. In this study, we examine the antifibrotic actions of Epi in an aging female rat model of pre-heart failure with preserved ejection fraction (pre-HFpEF) as well as its potential to mitigate plasma levels of OS, proinflammatory/profibrotic cytokines, and improve passive and active LV function. Epi treatment [1 mg/(kg·d)] was provided daily by gavage from 21 to 22 months of age, whereas controls received water. A Millar catheter was used to assess hemodynamic function. Subsequently, hearts were arrested in diastole, a balloon inserted into the LV and passive pressure-volume curves generated. Fixed LV sections were processed for collagen area fraction quantification using Sirius Red staining. Treatment with Epi did not lead to detectable changes in LV contractile function. However, passive LV pressure volume curves were significantly right shifted with Epi. Collagen area fraction values indicated that Epi treatment significantly reduces LV fibrosis. Epi also significantly reduced plasma OS markers and levels of profibrotic and proinflammatory cytokines. In conclusion, Epi reduces cardiac fibrosis in an aged, female rat model of pre-HFpEF, which correlates with significant reductions in OS and cytokine levels in the absence of changes in LV contractile function.

Published
2023

4. Restorative potential of (−)-epicatechin in a rat model of Gulf War illness muscle atrophy and fatigue

Author

Guillermo Ceballos, Benjamín Gómez-Díaz, Israel Ramirez-Sanchez, Ana Lilia Cedeño-Garcidueñas, Modesto Lara-Hernandez, Aldo Moreno-Ulloa, Viridiana Navarrete-Yañez, Alejandra Garate-Carrillo, Judith Espinosa-Raya, and Francisco Villarreal

Subjects
Male, medicine.medical_specialty, medicine.medical_treatment, Science, Metabolic disorders, Wistar, Inflammation, Muscle Development, Article, Catechin, Atrophy, Internal medicine, medicine, Metabolomics, Animals, Humans, Persian Gulf Syndrome, Rats, Wistar, Treadmill, Muscle, Skeletal, Fatigue, Multidisciplinary, Animal, business.industry, Skeletal muscle, Skeletal, medicine.disease, Muscle atrophy, Rats, Disease Models, Animal, Muscular Atrophy, Endocrinology, Cytokine, medicine.anatomical_structure, Disease Models, Dietary Supplements, Metabolome, Muscle, Medicine, Pyridostigmine Bromide, medicine.symptom, business, Blood sampling
Abstract

We examined in a rat model of Gulf War illness (GWI), the potential of (−)-epicatechin (Epi) to reverse skeletal muscle (SkM) atrophy and dysfunction, decrease mediators of inflammation and normalize metabolic perturbations. Male Wistar rats (n = 15) were provided orally with pyridostigmine bromide (PB) 1.3 mg/kg/day, permethrin (PM) 0.13 mg/kg/day (skin), DEET 40 mg/kg/day (skin) and were physically restrained for 5 min/day for 3 weeks. A one-week period ensued to fully develop the GWI-like profile followed by 2 weeks of either Epi treatment at 1 mg/kg/day by gavage (n = 8) or water (n = 7) for controls. A normal, control group (n = 15) was given vehicle and not restrained. At 6 weeks, animals were subjected to treadmill and limb strength testing followed by euthanasia. SkM and blood sampling was used for histological, biochemical and plasma pro-inflammatory cytokine and metabolomics assessments. GWI animals developed an intoxication profile characterized SkM atrophy and loss of function accompanied by increases in modulators of muscle atrophy, degradation markers and plasma pro-inflammatory cytokine levels. Treatment of GWI animals with Epi yielded either a significant partial or full normalization of the above stated indicators relative to normal controls. Plasma metabolomics revealed that metabolites linked to inflammation and SkM waste pathways were dysregulated in the GWI group whereas Epi, attenuated such changes. In conclusion, in a rat model of GWI, Epi partially reverses detrimental changes in SkM structure including modulators of atrophy, inflammation and select plasma metabolites yielding improved function.

Published
2021

6. The role of inflammation in driving left ventricular remodeling in a pre-HFpEF model

Author

Francisco Villarreal, Israel Ramirez-Sanchez, Moises Muratt Bustamante-Pozo, Marcos Ayala, Jeffrey H. Omens, Maria L Loredo-Mendoza, Viridiana Navarrete, Guillermo Ceballos, Bruce R. Ito, and Alejandra Garate-Carrillo

Subjects
0301 basic medicine, medicine.medical_specialty, Heart Ventricles, Rat model, Excess weight, Apoptosis, Inflammation, 030204 cardiovascular system & hematology, General Biochemistry, Genetics and Molecular Biology, Protein Carbonylation, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Animals, Myocytes, Cardiac, Ventricular remodeling, Original Research, Heart Failure, Ventricular Remodeling, business.industry, Troponin I, medicine.disease, Inflammatory biomarkers, Rats, Inbred F344, Rats, Oxidative Stress, 030104 developmental biology, Cardiomyocyte necrosis, Cardiology, Cytokines, Female, medicine.symptom, business, Estrogen deprivation
Abstract

We previously reported on the development of left ventricular (LV) structural and functional changes in an aged, female rat model where the effects of ovariectomy and excess weight (stimulated by fructose in water) were also explored. Ovariectomy and/or excess weight led to a prolongation of active relaxation, loss of cardiac output, and LV fibrosis in the setting of preserved ejection fraction. In this follow-up study, we wished to characterize the possible role of LV inflammation, oxidative stress (OS), and cell death in inducing such changes. Four experimental groups were studied: young (3 months old), aged (18 months old), aged + ovariectomy (OVX), and aged + ovariectomy + 10% fructose (OVF). Using conventional histology and immunohistochemistry of myocardium as well as biochemical assays of plasma samples, we document the presence of inflammatory cell aggregates in LV myocardium which are associated to high levels of plasma inflammatory cytokines (IL-1β, TNF-α, IFN-γ, TGF-β1) and OS (carbonyl proteins) in aged, OVX, and OVF vs. young animals. In the inflammatory areas, normal cardiac tissue was substituted by replacement and interstitial fibrosis and M1 macrophages, (as per by CD68 immunostaining) as we all as by co-localization with TGF-β1. We also document increases in plasma troponin I levels, loss of capillary density, cardiomyocyte hypertrophy, and death. Select changes were further aggravated by ovariectomy and/or excess weight. In conclusion, aging in the female rat heart, when compounded with estrogen depletion and excess weight promotes the development of greater levels inflammation, OS, fibrosis, capillary rarefaction, cardiomyocyte hypertrophy, and injury/death. These factors likely play an important role in the development of LV remodeling that leads to the development of a “pre-HFpEF” phenotype. Impact statement The incidence of HFpEF continues to increase and ∼2/3 of the patient population are post-menopausal women. Unfortunately, most studies focus on the use of male animal models of remodeling. In this study, however, using female rats to set a model of pre-HFpEF, we provide insights to possible mechanisms that contribute to HFpEF development in humans that will lead us to a better understanding of the underlying pathophysiology of HFpEF.

Published
2020

7. Effects of (−)-epicatechin on neuroinflammation and hyperphosphorylation of tau in the hippocampus of aged mice

Author

Alejandra Garate-Carrillo, Alonso Rodriguez, Claudia C. Calzada-Mendoza, Viridiana Navarrete-Yañez, Michael C. Hogan, Israel Ramirez-Sanchez, Patricia Mendoza-Lorenzo, Guillermo Ceballos, and Francisco Villarreal

Subjects
Male, 0301 basic medicine, Aging, medicine.medical_specialty, Tau protein, Anti-Inflammatory Agents, Hyperphosphorylation, tau Proteins, Inflammation, medicine.disease_cause, Systemic inflammation, Hippocampus, Article, Catechin, Mice, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Glial Fibrillary Acidic Protein, medicine, Animals, Phosphorylation, Neuroinflammation, Amyloid beta-Peptides, biology, Glial fibrillary acidic protein, Chemistry, General Medicine, Mice, Inbred C57BL, Oxidative Stress, 030104 developmental biology, Endocrinology, Nerve growth factor, biology.protein, Cytokines, medicine.symptom, 030217 neurology & neurosurgery, Oxidative stress, Food Science
Abstract

Evidence has implicated oxidative stress (OS) and inflammation as drivers of neurodegenerative pathologies. We previously reported on the beneficial effects of (-)-epicatechin (Epi) treatment on aging-induced OS and its capacity to restore modulators of mitochondrial biogenesis in the prefrontal cortex of 26-month-old male mice. In the present study using the same mouse model of aging, we examined the capacity of Epi to mitigate hippocampus OS, inflammation, hyperphosphorylation of tau protein, soluble β-amyloid protein levels, cell survival, memory, anxiety-like behavior levels and systemic inflammation. Mice were subjected to 4 weeks of Epi treatment (1 mg kg-1 day-1) and samples of the hippocampus were obtained. Assessments of the OS markers, protein carbonyls, and malondialdehyde levels demonstrated their significant increase (∼3 fold) with aging that were partially suppressed by Epi. The protein levels of the glial fibrillary acidic protein, inflammatory factor 1 (Iba1), pro-inflammatory cytokines, interleukins (IL-1β, IL-3, 5, 6 and 15), cyclooxygenase 2, tumor necrosis factor α, nuclear factor-activated B cells and interferon γ increase with aging and were also significantly decreased with Epi treatment. However, anti-inflammatory cytokines, IL-1ra, IL-10 and 11 decrease with aging and were restored with Epi. Epi also reversed the aging effects on the hyperphosphorylation of tau, increased soluble β-amyloid levels (∼2 fold), cellular death (as per caspase 3 and 9 activity), and reduced nerve growth factor and triggering receptor expressed on myeloid cells 2 levels. Measures of anxiety like-behavior and memory demonstrated improvements with Epi treatment. Indicators of systemic inflammation increase with aging and Epi was capable of decreasing blood inflammatory markers. Altogether, the results show a significant capacity of Epi to mitigate hippocampus OS and inflammation leading to improved brain function.

Published
2020

8. Antifibrotic Effects of (-)-Epicatechin on High Glucose Stimulated Cardiac Fibroblasts

Author

Alejandra Garate-Carrillo, Francisco Villarreal, Guillermo Ceballos, Justina Nguyen, Israel Ramirez-Sanchez, and Julisa Gonzalez

Subjects
musculoskeletal diseases, Male, medicine.medical_specialty, Cardiac fibrosis, Medicine (miscellaneous), Catechin, Extracellular matrix, Transforming Growth Factor beta1, Fibrosis, Internal medicine, Diabetes mellitus, Diabetic cardiomyopathy, medicine, Animals, Cells, Cultured, Nutrition and Dietetics, business.industry, Myocardium, Heart, Fibroblasts, medicine.disease, Rats, Endocrinology, Glucose, High glucose, cardiovascular system, business, Transforming growth factor
Abstract

Cardiac fibrosis is one of the hallmarks of a diabetic cardiomyopathy. When activated, cardiac fibroblasts (CFs) increase the production of extracellular matrix proteins. Transforming growth factor (TGF)

Published
2021

9. Unmasking of oestrogen‐dependent changes in left ventricular structure and function in aged female rats: a potential model for pre‐heart failure with preserved ejection fraction

Author

Bruce R. Ito, Jeffrey H. Omens, Israel Ramirez-Sanchez, Moises Bustamante, Nancy L. Carson, Ricardo Garcia, Guillermo Ceballos, Francisco Villarreal, and Alejandra Garate-Carrillo

Subjects
0301 basic medicine, Aging, medicine.medical_specialty, Cardiac output, Heart Diseases, Physiology, Heart Ventricles, Ovariectomy, Diastole, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Animals, Ventricular Function, Endocardium, Ejection fraction, Ventricular Remodeling, business.industry, Hemodynamics, Estrogens, Stroke volume, medicine.disease, Fibrosis, Rats, Inbred F344, Rats, 030104 developmental biology, Echocardiography, Ageing, Heart failure, Cardiology, Female, Collagen, Heart failure with preserved ejection fraction, business, 030217 neurology & neurosurgery
Abstract

KEY POINTS Heart failure with preserved ejection fraction (HFpEF) is seen more frequently in older women; risk factors include age, hypertension and excess weight. No female animal models of early stage remodelling (pre-HFpEF) have examined the effects that the convergence of such factors have on cardiac structure and function. In this study, we demonstrate that ageing can lead to the development of mild chamber remodelling, diffuse fibrosis and loss of diastolic function. The loss of oestrogens further aggravates such changes by leading to a notable drop in cardiac output (while preserving normal ejection fraction) in the presence of diffuse fibrosis that is more predominant in endocardium and is accompanied by papillary fibrosis. Excess weight did not markedly aggravate such findings. This animal model recapitulates many of the features recognized in older, female HFpEF patients and thus, may serve to examine the effects of candidate therapeutic agents. ABSTRACT Two-thirds of patients with heart failure with preserved ejection fraction (HFpEF) are older women, and risk factors include hypertension and excess weight/obesity. Pathophysiological factors that drive early disease development (before heart failure ensues) remain obscure and female animal models are lacking. The study evaluated the intersecting roles of ageing, oestrogen depletion and excess weight on altering cardiac structure/function. Female, 18-month-old, Fischer F344 rats were divided into an aged group, aged + ovariectomy (OVX) and aged + ovariectomy + 10% fructose (OVF) in drinking water (n = 8-16/group) to induce weight gain. Left ventricular (LV) structure/function was monitored by echocardiography. At 22 months of age, animals were anaesthetized and catheter-based haemodynamics evaluated, followed by histological measures of chamber morphometry and collagen density. All aged animals developed hypertension. OVF animals increased body weight. Echocardiography only detected mild chamber remodelling with ageing while intraventricular pressure-volume loop analysis showed significant (P

Published
2019

10. Restorative Effects of (-)-Epicatechin in a Rat Model of Gulf War Illness Muscle Atrophy and Fatigue

Author

Israel Ramirez-Sanchez, Viridiana Navarrrete, Alejandra Garate-Carrillo, Modesto Lara-Hernandez, Judith Espinosa-Raya, Aldo Moreno-Ulloa, Benjamin Gomez-Diaz, Ana Lilia Cedeño-Garcidueñas, Guillermo Ceballos, and Francisco Villarreal

Abstract

We examined in a rat model of Gulf War illness (GWI), the potential of (-)-epicatechin (Epi) to reverse skeletal muscle (SkM) atrophy and dysfunction, decrease mediators of inflammation and normalize metabolic perturbations. Male Wistar rats (n = 15) were provided orally with pyridostigmine bromide (PB) 1.3 mg/kg/day, permethrin (PM) 0.13 mg/kg/day (skin), DEET 40 mg/kg/day (skin) and were physically restrained for 5 min/day for 3 weeks. A one-week period ensued to fully develop the GWI-like profile followed by 2 weeks of either Epi treatment at 1 mg/kg/day by gavage (n = 8) or water (n = 7) for controls. A normal, control group (n = 15) was given vehicles and not restrained. At 6 weeks, animals were subjected to treadmill and limb strength testing followed by euthanasia. SkM and blood sampling was used for histological, biochemical and plasma pro-inflammatory cytokine and metabolomics assessments. GWI animals developed an intoxication profile characterized SkM atrophy and loss of function accompanied by increases in modulators of muscle atrophy, degradation markers and plasma pro-inflammatory cytokine levels. Treatment of GWI animals with Epi yielded either a significant partial or full normalization of the above stated indicators relative to normal controls. Plasma metabolomics revealed that metabolites linked to inflammation and SkM waste pathways were dysregulated in the GWI group whereas Epi, attenuated such changes. In conclusion, in a rat model of GWI, Epi reverses detrimental changes in SkM structure including modulators of atrophy, inflammation and select plasma metabolites yielding improved function.

Published
2021

11. Stimulatory effects of (-)-epicatechin and its enantiomer (+)-epicatechin on mouse frontal cortex neurogenesis markers and short-term memory: proof of concept

Author

Antonio Rodriguez-Castañeda, George F. Schreiner, Israel Ramirez-Sanchez, Rosa María Ordoñez-Razo, Francisco Villarreal, Sundeep Dugar, Viridiana Navarrete-Yañez, Marcos Ayala, Guillermo Ceballos, Alejandra Garate-Carrillo, and Patricia Mendoza-Lorenzo

Subjects
0301 basic medicine, Male, medicine.medical_specialty, Doublecortin Protein, Neurogenesis, Stimulation, Nitric Oxide, Catechin, 03 medical and health sciences, Mice, 0302 clinical medicine, Microtubule-associated protein 2, Enos, Internal medicine, parasitic diseases, medicine, Animals, Maze Learning, Cell Proliferation, Brain Chemistry, Neurons, Cacao, biology, Chemistry, Stereoisomerism, General Medicine, Spontaneous alternation, biology.organism_classification, Doublecortin, Frontal Lobe, Mice, Inbred C57BL, 030104 developmental biology, Nerve growth factor, Endocrinology, Memory, Short-Term, biology.protein, NeuN, 030217 neurology & neurosurgery, Biomarkers, Food Science
Abstract

Consumption of (−)-epicatechin (Epi), a cacao flavanol improves cognition. The aim was to compare the effects of (−)-Epi or its stereoisomer (+)-Epi on mouse frontal cortex-dependent short-term working memory and modulators of neurogenesis. Three-month-old male mice (n = 7 per group) were provided by gavage either water (vehicle; Veh), (−)-Epi, at 1 mg kg−1 or (+)-Epi at 0.1 mg per kg of body weight for 15 days. After treatment, spontaneous alternation was evaluated by Y-maze. Brain frontal cortex was isolated for nitrate/nitrite measurements, Western blotting for nerve growth factor (NGF), microtubule associated protein 2 (MAP2), endothelial and neuronal nitric oxide synthase (eNOS and nNOS) and immunohistochemistry for neuronal specific protein (NeuN), doublecortin (DCX), capillary (CD31) and neurofilaments (NF200). Results demonstrate the stimulatory capacity of (−)-Epi and (+)-Epi on markers of neuronal proliferation as per increases in immunoreactive cells for NeuN (74 and 120% respectively), DCX (70 and 124%) as well as in NGF (34.4, 63.6%) and MAP2 (41.8, 63.8%). Capillary density yielded significant increases with (−)-Epi (∼80%) vs. (+)-Epi (∼160%). CD31 protein levels increased with (−)-Epi (∼70%) and (+)-Epi (∼140%). Effects correlated with nitrate/nitrite stimulation by (–)-Epi and (+)-Epi (110.2, 246.5%) and enhanced eNOS phosphorylation (Ser1177) with (–)-Epi and (+)-Epi (21.4, 41.2%) while nNOS phosphorylation only increased with (+)-Epi (18%). Neurofilament staining was increased in (–)-Epi by 135.6 and 84% with (+)-Epi. NF200 increased with (–)-Epi (116%) vs. (+)-Epi (84.5%). Frontal cortex-dependent short-term spatial working improved with (–)-Epi and (+)-Epi (15, 13%). In conclusion, results suggest that both enantiomers, but more effectively (+)-Epi, upregulate neurogenesis markers likely through stimulation of capillary formation and NO triggering, improvements in memory.

Published
2021

12. Selective FPR2 Agonism Promotes a Proresolution Macrophage Phenotype and Improves Cardiac Structure-Function Post Myocardial Infarction

Author

Moises Muratt Bustamante-Pozo, Rongan Zhang, Nancy L. Carson, Madeleine Héroux, Michel Bouvier, Jian Chen, David A. Gordon, Bruce R. Ito, Stéphane St.-Onge, Gayani Fernando, Marilyn Carrier, Francisco Villarreal, Zhaoqing Wang, Alejandra Garate-Carrillo, Carol S. Ryan, Jignesh Nagar, Jacek Ostrowski, John A. Lupisella, Ricardo Garcia, Shailesh Dudhgaonkar, Debra Search, Ellen K. Kick, Xiuying Ma, Ruth R. Wexler, Mei-Yin Hsu, Elizabeth A. Dierks, Nicholas R. Wurtz, and John Allocco

Subjects
Agonist, FPR2, HF, FPR2, formyl peptide receptor 2, medicine.drug_class, heart failure, Inflammation, Pharmacology, HF, heart failure, Formyl peptide receptor 2, medicine, SAA, serum amyloid A, Myocardial infarction, Receptor, Ventricular remodeling, BRET, bioluminescence resonance energy transfer, MI, TNF, tumor necrosis factor, KO, knockout, business.industry, Monocyte, LV, left ventricle/ventricular, resolution, Chemotaxis, MCP, monocyte chemoattractant protein, medicine.disease, I/R, ischemia-reperfusion, WT, wild-type, mRNA, messenger RNA, IL, interleukin, medicine.anatomical_structure, myocardial infarction, formyl peptide receptor 2, MI, myocardial infarction, EC50, half maximal effective concentration, LPS, lipopolysaccharide, Preclinical Research, medicine.symptom, Cardiology and Cardiovascular Medicine, business
Abstract

Visual Abstract, Highlights • MI leads to ischemic damage of myocardium and activation of inflammatory programs as part of the wound healing response. • Selective activation of FPR2 on macrophages potentiates key cellular activities that enable wound healing. • MI was induced in rodents to study the effects of treatment with BMS-986235, a selective small molecule agonist of FPR2. • BMS-986235 stimulated proresolution macrophage activities, induced neutrophil apoptosis and clearance, improved LV and infarct structure, and preserved cardiac function post MI. • The findings suggest that targeted activation of FPR2 can improve post-MI outcome and may diminish the development of HF., Summary Dysregulated inflammation following myocardial infarction (MI) leads to maladaptive healing and remodeling. The study characterized and evaluated a selective formyl peptide receptor 2 (FPR2) agonist BMS-986235 in cellular assays and in rodents undergoing MI. BMS-986235 activated G proteins and promoted β-arrestin recruitment, enhanced phagocytosis and neutrophil apoptosis, regulated chemotaxis, and stimulated interleukin-10 and monocyte chemoattractant protein-1 gene expression. Treatment with BMS-986235 improved mouse survival, reduced left ventricular area, reduced scar area, and preserved wall thickness. Treatment increased macrophage arginase-1 messenger RNA and CD206 receptor levels indicating a proresolution phenotype. In rats following MI, BMS-986235 preserved viable myocardium, attenuated left ventricular remodeling, and increased ejection fraction relative to control animals. Therefore, FPR2 agonism improves post-MI healing, limits remodeling and preserves function, and may offer an innovative therapeutic option to improve outcomes.

Published
2021

13. Development of muscle atrophy and loss of function in a Gulf-War illness model: underlying mechanisms

Author

Anaamika Campeau, David Gonzalez, Guillermo Ceballos, Maria Loredo, Esmeralda Lira-Romero, Marvic Carrillo-Terrazas, Israel Ramirez-Sanchez, Javier Estrada-Mena, Aldo Moreno-Ulloa, Alejandra Garate-Carrillo, Viridiana Navarrete-Yañez, and Francisco Villarreal

Subjects
0301 basic medicine, Male, Proteomics, Weakness, Blotting, Western, Physiology, lcsh:Medicine, Article, 03 medical and health sciences, 0302 clinical medicine, medicine, Myocyte, Animals, Treadmill, Rats, Wistar, lcsh:Science, Wasting, Depression (differential diagnoses), Fatigue, Multidisciplinary, business.industry, lcsh:R, Ubiquitination, Skeletal muscle, Energy metabolism, Muscle atrophy, Rats, Muscular Atrophy, 030104 developmental biology, medicine.anatomical_structure, Pyridostigmine, lcsh:Q, medicine.symptom, business, 030217 neurology & neurosurgery, medicine.drug
Abstract

Gulf War illness (GWI) afflicts military personnel who served during the Persian Gulf War and is notable for cognitive deficits, depression, muscle pain, weakness, intolerance to exercise, and fatigue. Suspect causal agents include the chemicals pyridostigmine (PB), permetrim (PM) and N,N-diethyl-m-toluamide (DEET) used as protectants against insects and nerve gases. No pre-clinical studies have explored the effects on skeletal muscle (SkM). Young male rats were provided PB, PM and DEET at equivalent human doses and physical restraint (to induce stress) for 3 weeks followed a 3-week recovery. GWI gastrocnemius weight was ~ 35% lower versus controls, which correlated with decreases in myofiber area, limb strength, and treadmill time/distance. In GWI rats, SkM fiber type relative abundance changed towards slow type I. Muscle wasting pathway proteins were upregulated while those that promote growth decreased as did mitochondrial endpoints and muscle ATP levels. Proteomic analysis of SkM also documented unique alterations in mitochondrial and metabolic pathways. Thus, exposure to GWI chemicals/stress adversely impacts key metabolic pathways leading to muscle atrophy and loss of function. These changes may account for GWI Veterans symptoms.

Published
2020

14. Sex related differences in the pathogenesis of organ fibrosis

Author

Julisa Gonzalez, Guillermo Ceballos, Francisco Villarreal, Alejandra Garate-Carrillo, and Israel Ramirez-Sanchez

Subjects
0301 basic medicine, Male, Disease, Bioinformatics, Article, 03 medical and health sciences, Liver disease, 0302 clinical medicine, Fibrosis, Physiology (medical), Diabetes mellitus, Medicine, Animals, Humans, Sex Characteristics, Lung, business.industry, Biochemistry (medical), Public Health, Environmental and Occupational Health, General Medicine, medicine.disease, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Organ Specificity, 030220 oncology & carcinogenesis, Female, business, Hormone, Sex characteristics
Abstract

The development of organ fibrosis has garnered rising attention as multiple diseases of increasing and/or high prevalence appear to progress to the chronic stage. Such is the case for heart, kidney, liver, and lung where diseases such as diabetes, idiopathic/autoimmune disorders, and nonalcoholic liver disease appear to notably drive the development of fibrosis. Noteworthy is that the severity of these pathologies is characteristically compounded by aging. For these reasons, research groups and drug companies have identified fibrosis as a therapeutic target for which currently, there are essentially no effective options. Although a limited body of published studies are available, most literature indicates that in multiple organs, premenopausal women are protected from developing severe forms of fibrosis suggesting an important role for sex hormones in mitigating this process. Investigators have implemented relevant animal models of organ disease linked to fibrosis supporting in general, these observations. In vitro studies and transgenic animals models have also been used in an attempt to understand the role that sex hormones and related receptors play in the development of fibrosis. However, in the setting of chronic disease in some organs such as the heart older (postmenopausal) women within a few years can quickly approach men in disease severity and develop significant degrees of fibrosis. This review summarizes the current body of relevant literature and highlights the imperative need for a major focus to be placed on understanding the manner in which sex and the presence or absence of related hormones modulates cell phenotypes so as to allow for fibrosis to develop.

Published
2019

15. Antifibrotic Effect of (−)‐Epicatechin in a Rodent Model of Early Stage HFpEF

Author

Jeffrey H. Omens, Ricardo Garcia, Guillermo Ceballos, Francisco Villarreal, Israel Ramirez-Sanchez, Moises Muratt Bustamante Pozo, Nancy L. Carson, Bruce R. Ito, and Alejandra Garate Carrillo

Subjects
Oncology, medicine.medical_specialty, Internal medicine, Genetics, medicine, Rodent model, Stage (cooking), Biology, Molecular Biology, Biochemistry, Biotechnology
Published
2019

16. Arginase inhibition by (−)-Epicatechin reverses endothelial cell aging

Author

Moises Muratt Bustamante-Pozo, Guillermo Ceballos, Pilar Ortiz-Vilchis, Francisco Villarreal, Gustavo Guevara, Ivan Rubio-Gayosso, Carmen Castillo, Viridiana Navarrete-Yañez, Miguel Ortiz-Flores, Nayelli Nájera, Alejandra Garate-Carrillo, Israel Ramirez-Sanchez, and Patricia Mendoza-Lorenzo

Subjects
Male, 0301 basic medicine, Aging, medicine.medical_specialty, Nitric Oxide Synthase Type III, Blood Pressure, Nitric Oxide, medicine.disease_cause, Article, Catechin, 03 medical and health sciences, 0302 clinical medicine, In vivo, Enos, Internal medicine, medicine, Animals, Computer Simulation, Endothelial dysfunction, Rats, Wistar, Cellular Senescence, Epicatechin, Pharmacology, Arginase, biology, Chemistry, Nitric oxide synthase, Endothelial Cells, Valine, medicine.disease, biology.organism_classification, Biopterin, Rats, Endothelial stem cell, Oxidative Stress, 030104 developmental biology, Endocrinology, biology.protein, Cattle, Endothelium, Vascular, Norvaline, 030217 neurology & neurosurgery, Oxidative stress, Acetylcholine, medicine.drug
Abstract

Endothelial dysfunction (EnD) occurs with aging and endothelial nitric oxide (NO) production by NO synthase (NOS) can be impaired. Low NO levels have been linked to increased arginase (Ar) activity as Ar competes with NOS for L-arginine. The inhibition of Ar activity can reverse EnD and (−)-epicatechin (Epi) inhibits myocardial Ar activity. In this study, through in silico modeling we demonstrate that Epi interacts with Ar similarly to its inhibitor Norvaline (Norv). Using in vitro and in vivo models of aging, we examined Epi and Norv-inhibition of Ar activity and its endothelium-protective effects. Bovine coronary artery endothelial cells (BCAEC) were treated with Norv (10 μM), Epi (1 μM) or the combination (Epi + Norv) for 48 h. Ar activity increased in aged BCAEC, with decreased NO generation. Treatment decreased Ar activity to levels seen in young cells. Epi and Epi + Norv decreased nitrosylated Ar levels by ∼25% in aged cells with lower oxidative stress (∼25%) (dihydroethidium) levels. In aged cells, Epi and Epi + Norv restored the eNOS monomer/dimer ratio, protein expression levels and NO production to those of young cells. Furthermore, using 18 month old rats 15 days of treatment with either Epi (1 mg/kg), Norv (10 mg/kg) or combo, decreased hypertension and improved aorta vasorelaxation to acetylcholine, blood NO levels and tetra/dihydribiopterin ratios in cultured rat aortic endothelial cells. In conclusion, results provide evidence that inhibiting Ar with Epi reverses aged-related loss of eNOS function and improves vascular function through the modulation of Ar and eNOS protein levels and activity., Highlights • In aged endothelium, arginase (Ar) activity is increased, leading to a reduction in NO production. • (−)-Epicatechin (Epi) inhibits Ar activity and modulates L-arginine availability. • Inhibition of Ar with Epi reverses aged-related loss of eNOS function. • Epi and Epi plus Norvaline improves endothelial and vascular function in aged endothelium.

Published
2020

18. '(−)‐Epicatechin reduces inflammation biomarkers in plasma and ameliorates cardiac fibrosis in a female rat model of pre‐HFpEF'

Author

Moises Muratt Bustamante-Pozo, Guillermo Ceballos, Alejandra Garate-Carrillo, Bruce R. Ito, Francisco Villarreal, and Israel Ramirez-Sanchez

Subjects
Pathology, medicine.medical_specialty, Inflammation biomarkers, business.industry, Cardiac fibrosis, Rat model, Genetics, Medicine, business, medicine.disease, Molecular Biology, Biochemistry, Biotechnology
Published
2020

19. Detrimental Effects of Aging, Ovariectomy and Weight Gain on Left Ventricular Structure and Function: A Potential Preclinical Model of Early Stage HFpEF

Author

Ricardo Garcia, Guillermo Ceballos, Israel Ramirez-Sanchez, Moises Bustamante, Bruce R. Ito, Jeffrey H. Omens, Francisco Villarreal, Maria Loredo, Nancy L. Carson, and Alejandra Garate-Carrillo

Subjects
Left ventricular structure, medicine.medical_specialty, business.industry, Function (mathematics), Biochemistry, Internal medicine, Genetics, Cardiology, Medicine, medicine.symptom, Stage (cooking), business, Molecular Biology, Weight gain, Biotechnology
Published
2018

21. The flavanol (−)‐epicatechin improves learning, memory and anxiety behavior in ovariectomized rats

Author

Gabriel Manjarrez-Gutiérrez, Alejandra Garate-Carrillo, Israel Ramirez-Sanchez, Francisco Villarreal, Teresa Neri-Gómez, and Guillermo Ceballos

Subjects
0301 basic medicine, medicine.medical_specialty, Biochemistry, 03 medical and health sciences, 030104 developmental biology, Endocrinology, Internal medicine, Genetics, medicine, Ovariectomized rat, Anxiety, medicine.symptom, Learning memory, Psychology, Molecular Biology, Biotechnology
Published
2018

22. Embryonary Mouse Cardiac Fibroblast Isolation

Author

Alejandra, Garate-Carrillo and Israel, Ramirez

Subjects
Mice, Cell Culture Techniques, Animals, Cell Differentiation, Heart, Fibroblasts, Embryo, Mammalian, Cell Division, Cells, Cultured
Abstract

Mouse cardiac fibroblasts have been widely used as an in vitro model for studying fundamental biological processes and mechanisms underlying cardiac pathologies, as well as identifying potential therapeutic targets. Cardiac FBs are relatively easy to culture in a dish and can be manipulated using molecular and pharmacological tools. Because FBs rapidly decrease cell cycle division and proliferative rate after birth, they are prone to phenotypic changes and senescence in cell culture soon after a few passages. Therefore, primary cultures of differentiated fibroblasts from embryos are more desirable. Below we will describe a method that provides good cell yield and viability of E16 CD-1 mouse embryonic cardiac fibroblasts in primary cultures.

Published
2018

23. Embryonary Mouse Cardiac Fibroblast Isolation

Author

Israel Ramirez and Alejandra Garate-Carrillo

Subjects
0301 basic medicine, Senescence, Embryo, 030204 cardiovascular system & hematology, Biology, Cell cycle division, Embryonic stem cell, Phenotype, Cell biology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Cardiac fibroblast, Cell culture, sense organs, Cell yield
Abstract

Mouse cardiac fibroblasts have been widely used as an in vitro model for studying fundamental biological processes and mechanisms underlying cardiac pathologies, as well as identifying potential therapeutic targets. Cardiac FBs are relatively easy to culture in a dish and can be manipulated using molecular and pharmacological tools. Because FBs rapidly decrease cell cycle division and proliferative rate after birth, they are prone to phenotypic changes and senescence in cell culture soon after a few passages. Therefore, primary cultures of differentiated fibroblasts from embryos are more desirable. Below we will describe a method that provides good cell yield and viability of E16 CD-1 mouse embryonic cardiac fibroblasts in primary cultures.

Published
2018

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