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13. Impact of Anesthesia on Echocardiographic Evaluation of Systolic and Diastolic Function in Rats

Author

Plante, E., Lachance, D., Roussel, E., Drolet, M.C., Arsenault, M., and Couet, J.

Abstract

Background: Echocardiography is used on rats but general anesthesia is usually necessary to be able to obtain a good quality echocardiogram. Each type of anesthetic agent has specific impacts on hemodynamics and, therefore, may affect differentially the echocardiographic measurements. Objectives: We sought to compare the echocardiograms of normal rats and rats with chronic aortic regurgitation under anesthesia using ketamine-xylazine or isoflurane. Methods: Animals underwent an echocardiogram with both drugs sequentially. Echocardiographic measurements were compared. Results: Mitral diastolic Doppler measurements (early diastolic filling wave [E] and late atrial diastolic filling wave [A] velocities) were significantly affected by the type of anesthesia in the normal group but not left ventricular dimensions or ejection fraction. Left ventricular dimensions were affected by the type of anesthesia in the aortic regurgitation group and diastolic Doppler flow. Conclusion: The anesthetic agent has significant specific impacts on many echocardiographic measurements. Investigators working with rat models should be aware of those potential effects.

Published
2006
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15. Molecular biology and genetics of the 3ß-hydroxysteroid dehydrogenase/?5-?4 isomerase gene family

Author

Simard, J, Durocher, F, Mébarki, F, Turgeon, C, Sanchez, R, Labrie, Y, Couet, J, Trudel, C, Rhéaume, E, Morel, Y, Luu-The, V, and Labrie, F

Abstract

The membrane-bound NAD+-dependent 3ß-hydroxy-steroid dehydrogenase/?5-?4-isomerase (3ß-HSD), located in the endoplasmic reticulum and in mitochondrial membrane (Luu-The et al.1989, 1990, Thomas et al.1989, Simard et al.1991a, Chapman et al.1992, Cherradi et al.1993, 1994, Sauer et al.1994), catalyzes the conversion of ?5-3ß-hydroxysteroids into the corresponding ?4-3-ketosteroids (Fig. 1). This activity is essential for the formation of all classes of steroids, namely, progesterone, mineralocorticoids, glucocorticoids, androgens and estrogens. In addition, the enzymes of the 3ß-HSD family also catalyze the formation and/or degradation of the 5a-androstanes and 5a-pregnanes, such as dihydrotestosterone (DHT) and dihydroprogesterone (Luu-The et al.1989, Rhéaume et al.1991, Simard et al.1991a, Zhao et al.1991, de Launoit et al.1992a,b, Mason 1993, Simard et al.1993a,b, Labrie et al.1994b, Sanchez et al.1994a). In human and rhesus monkey the 3ß-HSD activity is not only detectable in the adrenal

Published
1996
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16. Cell-type and tissue-specific expression of caveolin-2. Caveolins 1 and 2 co-localize and form a stable hetero-oligomeric complex in vivo.

Author

Scherer, P E, Lewis, R Y, Volonte, D, Engelman, J A, Galbiati, F, Couet, J, Kohtz, D S, van Donselaar, E, Peters, P, and Lisanti, M P

Abstract

Caveolae are microdomains of the plasma membrane that have been implicated in organizing and compartmentalizing signal transducing molecules. Caveolin, a 21-24-kDa integral membrane protein, is a principal structural component of caveolae membrane in vivo. Recently, we and other laboratories have identified a family of caveolin-related proteins; caveolin has been re-termed caveolin-1. Here, we examine the cell-type and tissue-specific expression of caveolin-2. For this purpose, we generated a novel mono-specific monoclonal antibody probe that recognizes only caveolin-2, but not caveolins-1 and -3. A survey of cell and tissue types demonstrates that the caveolin-2 protein is most abundantly expressed in endothelial cells, smooth muscle cells, skeletal myoblasts (L6, BC3H1, C2C12), fibroblasts, and 3T3-L1 cells differentiated to adipocytes. This pattern of caveolin-2 protein expression most closely resembles the cellular distribution of caveolin-1. In line with these observations, co-immunoprecipitation experiments with mono-specific antibodies directed against either caveolin-1 or caveolin-2 directly show that these molecules form a stable hetero-oligomeric complex. The in vivo relevance of this complex was further revealed by dual-labeling studies employing confocal laser scanning fluorescence microscopy. Our results indicate that caveolins 1 and 2 are strictly co-localized within the plasma membrane and other internal cellular membranes. Ultrastructurally, this pattern of caveolin-2 localization corresponds to caveolae membranes as seen by immunoelectron microscopy. Despite this strict co-localization, it appears that regulation of caveolin-2 expression occurs independently of the expression of either caveolin-1 or caveolin-3 as observed using two different model cell systems. Although caveolin-1 expression is down-regulated in response to oncogenic transformation of NIH 3T3 cells, caveolin-2 protein levels remain unchanged. Also, caveolin-2 protein levels remain unchanged during the differentiation of C2C12 cells from myoblasts to myotubes, while caveolin-3 levels are dramatically induced by this process. These results suggest that expression levels of caveolins 1, 2, and 3 can be independently up-regulated or down-regulated in response to a variety of distinct cellular cues.

Published
1997

17. Dissecting the interaction between nitric oxide synthase (NOS) and caveolin. Functional significance of the nos caveolin binding domain in vivo.

Author

García-Cardeña, G, Martasek, P, Masters, B S, Skidd, P M, Couet, J, Li, S, Lisanti, M P, and Sessa, W C

Abstract

Endothelial nitric oxide synthase (eNOS) is a dually acylated peripheral membrane protein that targets to the Golgi region and caveolae of endothelial cells. Recent evidence has shown that eNOS can co-precipitate with caveolin-1, the resident coat protein of caveolae, suggesting a direct interaction between these two proteins. To test this idea, we examined the interactions of eNOS with caveolin-1 in vitro and in vivo. Incubation of endothelial cell lysates or purified eNOS with glutathione S-transferase (GST)-caveolin-1 resulted in the direct interaction of the two proteins. Utilizing a series of GST-caveolin-1 deletion mutants, we identified two cytoplasmic domains of caveolin-1 that interact with eNOS, the scaffolding domain (amino acids 61-101) and to a lesser extent the C-terminal tail (amino acids 135-178). Incubation of pure eNOS with peptides derived from the scaffolding domains of caveolin-1 and -3, but not the analogous regions from caveolin-2, resulted in inhibition of eNOS, inducible NOS (iNOS), and neuronal NOS (nNOS) activities. These results suggest a common mechanism and site of inhibition. Utilizing GST-eNOS fusions, the site of caveolin binding was localized between amino acids 310 and 570. Site-directed mutagenesis of the predicted caveolin binding motif within eNOS blocked the ability of caveolin-1 to suppress NO release in co-transfection experiments. Thus, our data demonstrate a novel functional role for caveolin-1 in mammalian cells as a potential molecular chaperone that directly inactivates NOS. This suggests that the direct binding of eNOS to caveolin-1, per se, and the functional consequences of eNOS targeting to caveolae are likely temporally and spatially distinct events that regulate NO production in endothelial cells. Additionally, the inactivation of eNOS and nNOS by the scaffolding domain of caveolin-3 suggests that eNOS in cardiac myocytes and nNOS in skeletal muscle are likely subject to negative regulation by this muscle-specific caveolin isoform.

Published
1997

19. Interaction of a receptor tyrosine kinase, EGF-R, with caveolins. Caveolin binding negatively regulates tyrosine and serine/threonine kinase activities.

Author

Couet, J, Sargiacomo, M, and Lisanti, M P

Abstract

Caveolin, a 21-24-kDa integral membrane protein, is a principal component of caveolae membranes. We and others have suggested that caveolin functions as a scaffolding protein to organize and concentrate certain caveolin-interacting signaling molecules within caveolae membranes. In this regard, it has been shown that a 20-amino acid membrane-proximal region of the cytosolic NH2-terminal domain of caveolin is sufficient to mediate the interaction of caveolin with signaling proteins, namely G-proteins, Src-like kinases, eNOS, and H-Ras. This caveolin-derived protein domain has been termed the caveolin-scaffolding domain. Binding of the caveolin-scaffolding domain functionally suppresses the activity of G-protein alpha subunits, eNOS, and Src-like kinases, suggesting that caveolin binding may also play a negative regulatory role in signal transduction. Here, we report the direct interaction of caveolin with a growth factor receptor, EGF-R, a known caveolae-associated receptor tyrosine kinase. Two consensus caveolin binding motifs have been previously defined using phage display technology. One of these motifs is present within the conserved kinase domains of most known receptor tyrosine kinases (termed region IX). We now show that this caveolin binding motif within the kinase domain of the EGF-R can mediate the interaction of the EGF-R with the scaffolding domains of caveolins 1 and 3 but not with caveolin 2. In addition, the scaffolding domains of caveolins 1 and 3 both functionally inhibit the autophosphorylation of the EGF-R kinase in vitro. Importantly, this caveolin-mediated inhibition of the EGF-R kinase could be prevented by the addition of an EGF-R-derived peptide that (i) contains a well conserved caveolin binding motif and (ii) is located within the kinase domain of the EGF-R and most known receptor tyrosine kinases. Similar results were obtained with protein kinase C, a serine/threonine kinase, suggesting that caveolin may function as a general kinase inhibitor. The implications of our results are discussed within the context of caveolae-mediated signal transduction. In this regard, caveolae-coupled signaling might explain how linear signaling pathways can branch and interconnect extensively, forming a signaling module or network.

Published
1997

20. Identification of peptide and protein ligands for the caveolin-scaffolding domain. Implications for the interaction of caveolin with caveolae-associated proteins.

Author

Couet, J, Li, S, Okamoto, T, Ikezu, T, and Lisanti, M P

Abstract

Caveolin, a 21-24-kDa integral membrane protein, is a principal component of caveolae membranes. We have suggested that caveolin functions as a scaffolding protein to organize and concentrate certain caveolin-interacting proteins within caveolae membranes. In this regard, caveolin co-purifies with a variety of lipid-modified signaling molecules, including G-proteins, Src-like kinases, Ha-Ras, and eNOS. Using several independent approaches, it has been shown that a 20-amino acid membrane proximal region of the cytosolic amino-terminal domain of caveolin is sufficient to mediate these interactions. For example, this domain interacts with G-protein alpha subunits and Src-like kinases and can functionally suppress their activity. This caveolinderived protein domain has been termed the caveolin-scaffolding domain. However, it remains unknown how the caveolin-scaffolding domain recognizes these molecules. Here, we have used the caveolin-scaffolding domain as a receptor to select random peptide ligands from phage display libraries. These caveolin-selected peptide ligands are rich in aromatic amino acids and have a characteristic spacing in many cases. A known caveolin-interacting protein, Gi2alpha, was used as a ligand to further investigate the nature of this interaction. Gi2alpha and other G-protein alpha subunits contain a single region that generally resembles the sequences derived from phage display. We show that this short peptide sequence derived from Gi2alpha interacts directly with the caveolin-scaffolding domain and competitively inhibits the interaction of the caveolin-scaffolding domain with the appropriate region of Gi2alpha. This interaction is strictly dependent on the presence of aromatic residues within the peptide ligand, as replacement of these residues with alanine or glycine prevents their interaction with the caveolin-scaffolding domain. In addition, we have used this interaction to define which residues within the caveolin-scaffolding domain are critical for recognizing these peptide and protein ligands. Also, we find that the scaffolding domains of caveolins 1 and 3 both recognize the same peptide ligands, whereas the corresponding domain within caveolin-2 fails to recognize these ligands under the same conditions. These results serve to further demonstrate the specificity of this interaction. The implications of our current findings are discussed regarding other caveolin- and caveolae-associated proteins.

Published
1997

21. Caveolin interaction with protein kinase C. Isoenzyme-dependent regulation of kinase activity by the caveolin scaffolding domain peptide.

Author

Oka, N, Yamamoto, M, Schwencke, C, Kawabe, J, Ebina, T, Ohno, S, Couet, J, Lisanti, M P, and Ishikawa, Y

Abstract

Caveolar localization of protein kinase C and the regulation of caveolar function by protein kinase C are well known. This study was undertaken to examine whether caveolin subtypes interact with various protein kinase C isoenzymes using the caveolin scaffolding domain peptide. When protein kinase C-alpha, -epsilon, and -zeta were overexpressed in COS cells followed by subcellular fractionation using the sucrose gradient method, all the isoenzymes (alpha, epsilon, and zeta) were detected in the same fraction as caveolin. The scaffolding domain peptide of caveolin-1 and -3, but not -2, inhibited the kinase activity and autophosphorylation of protein kinase C-alpha and -zeta, but not of protein kinase C-epsilon, overexpressed in insect cells. Truncation mutation studies of the caveolin-1 and -3 peptides demonstrated that a minimum of 16 or 14 amino acid residues of the peptide were required for the inhibition or direct binding of protein kinase C. Thus, the caveolin peptide physically interacted with protein kinase C and regulated its function. Further, this regulation occurred in a protein kinase C isoenzyme-dependent manner. Our results may provide a new mechanism regarding the regulation of protein kinase C isoenzyme activity and the molecular interaction of protein kinase C with its putative binding proteins.

Published
1997

22. Src tyrosine kinases, Galpha subunits, and H-Ras share a common membrane-anchored scaffolding protein, caveolin. Caveolin binding negatively regulates the auto-activation of Src tyrosine kinases.

Author

Li, S, Couet, J, and Lisanti, M P

Abstract

Caveolae are plasma membrane specializations present in most cell types. Caveolin, a 22-kDa integral membrane protein, is a principal structural and regulatory component of caveolae membranes. Previous studies have demonstrated that caveolin co-purifies with lipid modified signaling molecules, including Galpha subunits, H-Ras, c-Src, and other related Src family tyrosine kinases. In addition, it has been shown that caveolin interacts directly with Galpha subunits and H-Ras, preferentially recognizing the inactive conformation of these molecules. However, it is not known whether caveolin interacts directly or indirectly with Src family tyrosine kinases. Here, we examine the structural and functional interaction of caveolin with Src family tyrosine kinases. Caveolin was recombinantly expressed as a glutathione S-transferase fusion. Using an established in vitro binding assay, we find that caveolin interacts with wild-type Src (c-Src) but does not form a stable complex with mutationally activated Src (v-Src). Thus, it appears that caveolin prefers the inactive conformation of Src. Deletion mutagenesis indicates that the Src-interacting domain of caveolin is located within residues 82-101, a cytosolic membrane-proximal region of caveolin. A caveolin peptide derived from this region (residues 82-101) functionally suppressed the auto-activation of purified recombinant c-Src tyrosine kinase and Fyn, a related Src family tyrosine kinase. We further analyzed the effect of caveolin on c-Src activity in vivo by transiently co-expressing full-length caveolin and c-Src tyrosine kinase in 293T cells. Co-expression with caveolin dramatically suppressed the tyrosine kinase activity of c-Src as measured via an immune complex kinase assay. Thus, it appears that caveolin structurally and functionally interacts with wild-type c-Src via caveolin residues 82-101. Besides interacting with Src family kinases, this cytosolic caveolin domain (residues 82-101) has the following unique features. First, it is required to form multivalent homo-oligomers of caveolin. Second, it interacts with G-protein alpha-subunits and down-regulates their GTPase activity. Third, it binds to wild-type H-Ras. Fourth, it is membrane-proximal, suggesting that it may be involved in other potential protein-protein interactions. Thus, we have termed this 20-amino acid stretch of caveolin residues the caveolin scaffolding domain.

Published
1996

23. Shedding of human thyrotropin receptor ectodomain. Involvement of a matrix metalloprotease.

Author

Couet, J, Sar, S, Jolivet, A, Hai, M T, Milgrom, E, and Misrahi, M

Abstract

The thyrotropin (TSH) receptor in human thyroid glands has been shown to be cleaved into an extracellular alpha subunit and a transmembrane beta subunit held together by disulfide bridges. An excess of the latter component relative to the former suggested the shedding of the ectodomain. Indeed we observed such a shedding in cultures of human thyrocytes and permanently transfected L or Chinese hamster ovary cells. The shedding was increased by inhibitors of endocytosis, recycling, and lysosomal degradation, suggesting that it was dependent on receptor residency at the cell surface. It was slightly increased by TSH and phorbol esters, whereas forskolin and 8-bromo-cyclic AMP were without effect. Decreasing the serum concentration in cell culture medium enhanced the shedding by an unknown mechanism. The shedding of the TSH receptor alpha domain is the consequence of two events: cleavage of the receptor into alpha and beta subunits and reduction of the disulfide bridge(s). The complete inhibition of soluble TSH receptor shedding by the specific inhibitor BB-2116 indicated that the cleavage reaction is catalyzed probably at the cell surface by a matrix metalloprotease. This shedding mechanism may be responsible for the presence of soluble TSH receptor alpha subunit in human circulation.

Published
1996

24. Investigations on the anionic polymerization of butadiene in capillaries by kinetic measurements and reactor simulation

Author

Schulze Simon, Cortese Bruno, Rupp Matthias, de Croon Mart H.J.M., Hessel Volker, Couet Julien, Lang Jürgen, and Klemm Elias

Subjects
1,3-butadiene, intrinsic kinetics, living anionic, microreactor, polydispersity, polymerization, process intensification, Chemistry, QD1-999
Abstract

For the first time the anionic polymerization of 1,3-butadiene (Bd) is successfully transferred from semi-batch into a continuous microfluidic setup with comparable product properties. The molecular weight distribution described by the polydispersity index (PDI) is commonly used as a key criterion for product quality. The steady state and the local resolution of a continuous setup provide the opportunity to investigate the progress of the PDI during anionic polymerization. In this work, the influence of kinetics (statistics) and fluid dynamics (FD) on the PDI of the product is investigated. Therefore a dedicated setup was designed and erected to keep Bd in the liquid phase and provide a pulsation free constant liquid flow. With optimized parameter settings, a separation of initiation and propagation is obtained and the intrinsic kinetics of propagation are determined. To explain the experimental results, an ideal plug flow and an ideal laminar flow model are applied and compared to computational fluid dynamics (CFD) simulations. Finally, it is concluded which FD and statistical contributions lead to the very low PDI of 1.04 found in the experiments.

Published
2013
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26. « Phrases turques et françoises, composées par J. B. Couet, enfant de langues à Constantinople, en 1712 », le turc en caractères latins.

Author

Couet (J. B.). Auteur du texte and Couet (J. B.). Auteur du texte

Abstract

Numérisation effectuée à partir d'un document de substitution : R 11639., Ces phrases sont disposées d'après l'ordre alphabétique du mot type turc qu'elles renferment ; le manuscrit se termine par la copie, transcription et traduction, de documents officiels émanant du Grand Seigneur (page 283), dont les plus importants sont un rescrit en faveur du consul de France à Alep, daté de Reǧeb 995 (7 juin-6 juillet 1587) ; un autre, en faveur des commerçants français en Syrie, daté de Rabiʿ premier 1021 (juin 1612) ; un autre, adressé au kadi et au sanğak beg de Jérusalem, en faveur des religieux francs, daté de Rabiʿ second 1112 (15 septembre-13 octobre 1708). Ce volume a fait partie de la bibliothèque des Jeunes de langues, à Constantinople., Arsenal.

27. Dobutamine stress echocardiography in healthy adult male rats

Author

Couet Jacques, Roussel Élise, Drolet Marie-Claude, Lachance Dominic, Plante Eric, and Arsenault Marie

Subjects
Dobutamine, stress echocardiography, rat, animal model, stress, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Abstract Background Dobutamine stress echocardiography is used to investigate a wide variety of heart diseases in humans. Dobutamine stress echocardiography has also been used in animal models of heart disease despite the facts that the normal response of healthy rat hearts to this type of pharmacological stress testing is unknown. This study was performed to assess this normal response. Methods 15 normal adult male Wistar rats were evaluated. Increasing doses of dobutamine were infused intravenously under continuous imaging of the heart by a 12 MHz ultrasound probe. Results Dobutamine stress echocardiography reduced gradually LV diastolic and systolic dimensions. Ejection fraction increased by a mean of +24% vs. baseline. Heart rate increased progressively without reaching a plateau. Changes in LV dimensions and ejection fraction reached a plateau after a mean of 4 minutes at a constant infusion rate. Conclusion DSE can be easily performed in rats. The normal response is an increase in heart rate and ejection fraction and a decrease in LV dimensions. A plateau in echocardiographic measurements is obtained after 4 minutes of a constant infusion rate in most animals.

Published
2005
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28. Early endothelial dysfunction in cholesterol-fed rabbits: a non-invasive in vivo ultrasound study.

Author

Couet Jacques, Battistini Bruno, Plante Éric, Drolet Marie-Claude, and Arsenault Marie

Subjects
endothelial function, atherosclerosis, cholesterol-fed rabbits, ultrasound., Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Abstract Background Endothelial function in hypercholesterolemic rabbits is usually evaluated ex vivo on isolated aortic rings. In vivo evaluation requires invasive imaging procedures that cannot be repeated serially. Aim We evaluated a non-invasive ultrasound technique to assess early endothelial function in rabbits and compare data with ex vivo measurements. Methods Twenty-four rabbits (fed with a cholesterol diet (0.5%) for 2 to 8 weeks) were given progressive infusions of acetylcholine (0.05–0.5 μg/kg/min) and their endothelial function was assessed in vivo by transcutaneous vascular ultrasound of the abdominal aorta. Ex vivo endothelial function was evaluated on isolated aortic rings and compared to in vivo data. Results Significant endothelial dysfunction was demonstrated in hypercholesterolemic animals as early as 2 weeks after beginning the cholesterol diet (aortic cross-sectional area variation: -2.9% vs. +4% for controls, p < 0.05). Unexpectedly, response to acetylcholine at 8 weeks was more variable. Endothelial function improved in 5 rabbits while 2 rabbits regained a normal endothelial function. These data corroborated well with ex vivo results. Conclusion Endothelial function can be evaluated non-invasively in vivo by transcutaneous vascular ultrasound of the abdominal aorta in the rabbit and results correlate well with ex vivo data.

Published
2004
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32. Plasma and Myocardial miRNomes Similarities and Differences during Cardiac Remodelling and Reverse Remodelling in a Murine Model of Heart Failure with Preserved Ejection Fraction.

Author

Thibodeau SÈ, Labbé EA, Walsh-Wilkinson É, Morin-Grandmont A, Arsenault M, and Couet J

Subjects
Animals, Mice, Male, Female, Angiotensin II blood, Angiotensin II metabolism, Mice, Inbred C57BL, Diet, High-Fat adverse effects, Heart Failure physiopathology, Heart Failure blood, Heart Failure pathology, Heart Failure metabolism, Ventricular Remodeling, MicroRNAs genetics, MicroRNAs blood, MicroRNAs metabolism, Myocardium metabolism, Myocardium pathology, Stroke Volume, Disease Models, Animal
Abstract

Heart failure with preserved ejection fraction (HFpEF) is a heterogeneous syndrome characterised by multiple risk factors touching various organs outside the heart. Using a murine HFpEF model, we studied cardiac reverse remodelling (RR) after stopping the causing metabolic-hypertensive stress (MHS; Angiotensin II [AngII] and a high-fat diet [HFD]) after 28 days and introducing voluntary exercise (VE) for four more weeks. We measured the effects of MHS and RR on the plasma and myocardial microRNA (miR) profile (miRNome) to characterise better cardiac and non-cardiac responses to HFpEF-inducing risk factors and their reversibility. AngII alone, the HFD or the MHS caused cardiac hypertrophy (CH), left ventricular (LV) concentric remodelling and left atrial enlargement in females. Only AngII and the MHS, but not HFD, did in males. After RR, CH, LV concentric remodelling and atrial enlargement were normalised. Among the 25 most abundant circulating miRs, 10 were modulated by MHS. Plasma miRNomes from AngII, HFD or MHS mice shared 31 common significantly modulated miRs (24 upregulated and 7 downregulated), suggesting that the response of organs producing the bulk of those circulating miRs was similar even for seemingly different stress. In the LV, 19 out of 25 most expressed miRs were modulated. RR restored normality for the plasma miRNome but not for the LV miRNome, which remained mostly unchanged. Our results suggest that abnormalities persist in the myocardium of the HFpEF mice and that the normalisation of circulatory markers may be falsely reassuring after recovery.

Published
2024
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33. A murine model of hypertensive heart disease in older women.

Author

Morin-Grandmont A, Walsh-Wilkinson E, Thibodeau SÈ, Boudreau DK, Arsenault M, Bossé Y, and Couet J

Subjects
Animals, Female, Mice, Aging physiology, Heart Ventricles drug effects, Heart Ventricles pathology, Heart Ventricles physiopathology, Menopause, Humans, Connective Tissue Growth Factor genetics, Connective Tissue Growth Factor metabolism, Heart Atria physiopathology, Heart Atria drug effects, Heart Atria pathology, Collagen Type III, Angiotensin II pharmacology, Disease Models, Animal, Hypertension physiopathology, Mice, Inbred C57BL, Ovariectomy
Abstract

We propose a new mouse (C57Bl6/J) model combining several features of heart failure with preserved ejection fraction encountered in older women, including hypertension from Angiotensin II infusion (AngII), menopause, and advanced age. To mimic menopause, we delayed ovariectomy (Ovx) at 12 months of age. We also studied the effects of AngII infusion for 28 days in younger animals and the impact of losing gonadal steroids earlier in life. We observed that AngII effects on heart morphology were different in younger and adult mice (3- and 12-month-old; 20 and 19% increase in heart weight. P  < 0.01 for both) than in older animals (24-month-old; 6%; not significant). Ovariectomy at 12 months restored the hypertrophic response to AngII in elderly females (23%, p  = 0.0001). We performed a bulk RNA sequencing study of the left ventricle (LV) and left atrial gene expression in elderly animals, controls, and Ovx. AngII modulated (|Log 2 fold change| ≥ 1) the LV expression of 170 genes in control females and 179 in Ovx ones, 64 being shared. In the left atrium, AngII modulated 235 genes in control females and 453 in Ovx, 140 shared. We observed many upregulated genes associated with the extracellular matrix regulation in both heart chambers. Many of these upregulated genes were shared between the ventricle and the atrium as well as in control and Ovx animals, namely for the most expressed Ankrd1, Nppb, Col3a1, Col1a1, Ctgf Col8a1 , and Cilp . Several circadian clock LV genes were modulated differently by AngII between control and Ovx females ( Clock, Arntl, Per2, Cry2, and Ciart ). In conclusion, sex hormones, even in elderly female mice, modulate the heart's hypertrophic response to AngII. Our study identifies potential new markers of hypertensive disease in aging female mice and possible disturbances of their cardiac circadian clock., Competing Interests: The authors declare there are no competing interests., (©2024 Morin-Grandmont et al.)

Published
2024
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34. Biological sex, sex steroids and sex chromosomes contribute to mouse cardiac aging.

Author

Morin-Grandmont A, Walsh-Wilkinson É, Labbé EA, Thibodeau SÈ, Dupont É, Boudreau DK, Arsenault M, Bossé Y, and Couet J

Subjects
Animals, Female, Male, Mice, Mice, Transgenic, Ovariectomy, Heart, Myocardium metabolism, Myocardium pathology, Sex Factors, Cardiomegaly genetics, Aging genetics, Gonadal Steroid Hormones metabolism, Sex Chromosomes genetics
Abstract

After menopause, the incidence of cardiovascular disease rapidly rises in women. The disappearing protection provided by sex steroids is a consequence of the development of many risk factors. Preclinical studies are necessary to understand better the effects of ovarian hormones loss cardiac aging. To mimic menopause in mice and study its consequences, we delayed ovariectomy at 12 months and followed animals for 12 months. Using RNA sequencing, we investigated changes in the myocardial exome with aging. In addition, with four-core genotypes (FCG) transgenic mice, we studied sex chromosome effects on cardiac aging. Heart weight increased from 3 to 24 months (males + 35%, females + 29%). In males, 75% of this increase had occurred at 12 months; in females, only 30%. Gonadectomy of mice at 12 months blocked cardiac hypertrophy in both sexes during the second year of life. The dosage of the X chromosomes did not influence cardiac growth in young and older mice. We performed an RNA sequencing study in young and old mice. We identified new highly expressed genes modulated during aging ( Bdh , Myot, Cpxm2 , and Slc38a1 ). The myocardial exome in older animals displayed few differences related to the animal's sex or the presence or absence of sex steroids for a year. We show that the morphological evolution of the heart depends on the biological sex via gonadal sex hormone actions. The myocardial exome of old male and female mice is relatively similar. Our study emphasizes the need to consider sex steroid effects in studying cardiac aging.

Published
2024
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35. Age and sex hormones modulate left ventricle regional response to angiotensin II in male and female mice.

Author

Walsh-Wilkinson É, Aidara ML, Morin-Grandmont A, Thibodeau SÈ, Gagnon J, Genest M, Arsenault M, and Couet J

Subjects
Animals, Female, Gonadal Steroid Hormones, Male, Mice, Mice, Inbred C57BL, Steroids, Ventricular Function, Left physiology, Angiotensin II, Heart Ventricles diagnostic imaging
Abstract

Age, hypertension, and the female sex are among the risk factors in the development of heart failure with preserved ejection fraction. We studied by standard and speckle-tracking echocardiography (STE), the response of the left ventricle (LV) to aging and angiotensin II continuous infusion (ANG II; 1.5 mg/kg/day for 28 days) in 2- and 12-mo-old male and female C57Bl6/J mice. We also investigated the effects of the loss of sex steroids by gonadectomy (GDX). To do so, we used STE data from 48 points or regions of interest (ROIs) around the LV endocardium from B-mode images and generated profiles of maximal strain, strain rate (SR), and reverse SR for each experimental group of mice. In young mice, LV strain, strain rate (SR), and reverse SR profile levels were higher in females than in males. Aging was characterized by concentric LV remodeling and a decrease of strain, SR, and reverse SR. GDX at 6 wk of age slowed normal cardiac growth in male mice. In females, GDX reduced LV strain, SR, and reverse SR but did not influence cardiac growth. ANG II caused similar levels of hypertrophy in young and older mice. In young mice, ANG II had little effect on STE parameters, whereas in older animals, strain, SR, and reverse SR were reduced, mainly for the LV posterior wall. In older GDX mice, hypertrophic response to ANG II was decreased compared with intact animals. Generating detailed STE profile for the LV wall can help detect differences linked to sex, age, or a stressor better than global strain measurements. NEW & NOTEWORTHY We propose a new method for the study of regional strain data by analyzing individually the software-generated 48 regions of interest (ROI) from an LV wall tracing in B-mode. This helps obtain a more comprehensive profile of strain data. Using these new tools, we studied in mice how sex, sex hormones, age, or a pathological stress influenced strain parameters. We show that for similar cardiac hypertrophy, regional strain shows important differences related to sex, sex hormones, and age.

Published
2022
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36. Effects of Cyproheptadine on Mitral Valve Remodeling and Regurgitation After Myocardial Infarction.

Author

Marsit O, Clavel MA, Paquin A, Deschênes V, Hadjadj S, Sénéchal-Dumais I, Couet J, Arsenault M, Handschumacher MD, Levine RA, Aikawa E, Pibarot P, and Beaudoin J

Subjects
Animals, Aortic Valve, Cells, Cultured, Cyproheptadine pharmacology, Cyproheptadine therapeutic use, Fibrosis, Mitral Valve diagnostic imaging, Serotonin, Sheep, Ventricular Remodeling physiology, Aortic Valve Stenosis, Calcinosis, Mitral Valve Insufficiency etiology, Myocardial Infarction complications, Myocardial Infarction drug therapy
Abstract

Background: Ischemic mitral regurgitation (MR) is primarily caused by left ventricle deformation, but leaflet thickening with fibrotic changes are also observed in the valve. Increased levels of 5-hydroxytryptamine (5-HT; ie, serotonin) are described after myocardial infarction (MI); 5-HT can induce valve fibrosis through the 5-HT type 2B receptor (5-HT2BR)., Objectives: This study aims to test the hypothesis that post-MI treatment with cyproheptadine (5-HT2BR antagonist) can prevent ischemic MR by reducing the effect of serotonin on mitral biology., Methods: Thirty-six sheep were divided into 2 groups: inferior MI and inferior MI treated with cyproheptadine (0.5 mg/kg/d). Animals were followed for 90 days. Blood 5-HT, infarct size, left ventricular volume and function, MR fraction and mitral leaflet size were assessed. In a complementary in vitro study, valvular interstitial cells were exposed to pre-MI and post-MI serum collected from the experimental animals., Results: Increased 5-HT levels were observed after MI in nontreated animals, but not in the group treated with cyproheptadine. Infarct size was similar in both groups (11 ± 3 g vs 9 ± 5 g; P = 0.414). At 90 days, MR fraction was 16% ± 7% in the MI group vs 2% ± 6% in the cyproheptadine group (P = 0.0001). The increase in leaflet size following MI was larger in the cyproheptadine group (+40% ± 9% vs +22% ± 12%; P = 0.001). Mitral interstitial cells overexpressed extracellular matrix genes when treated with post-MI serum, but not when exposed to post-MI serum collected from treated animals., Conclusions: Cyproheptadine given after inferior MI reduces post-MI 5-HT levels, prevents valvular fibrotic remodeling, is associated with larger increase in mitral valve size and less MR., Competing Interests: Funding Support and Author Disclosures This work has been funded by the Canadian Institutes for Health Research (CIHR—grant #399323). Dr Clavel is supported by a New National Investigator from the Heart and Stroke Foundation of Canada and an Early Carrier Investigator Award from the CIHR. Dr Beaudoin is supported by the Fonds de Recherche du Québec-Santé (FRQS). The other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2022 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)

Published
2022
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37. Short-lived species move uphill faster under climate change.

Author

Couet J, Marjakangas EL, Santangeli A, Kålås JA, Lindström Å, and Lehikoinen A

Subjects
Altitude, Animals, Biodiversity, Birds, Humans, Climate Change, Ecosystem
Abstract

Climate change is pushing species ranges and abundances towards the poles and mountain tops. Although many studies have documented local altitudinal shifts, knowledge of general patterns at a large spatial scale, such as a whole mountain range, is scarce. From a conservation perspective, studying altitudinal shifts in wildlife is relevant because mountain regions often represent biodiversity hotspots and are among the most vulnerable ecosystems. Here, we examine whether altitudinal shifts in birds' abundances have occurred in the Scandinavian mountains over 13 years, and assess whether such shifts are related to species' traits. Using abundance data, we show a clear pattern of uphill shift in the mean altitude of bird abundance across the Scandinavian mountains, with an average speed of 0.9 m per year. Out of 76 species, 7 shifted significantly their abundance uphill. Altitudinal shift was strongly related to species' longevity: short-lived species showed more pronounced uphill shifts in abundance than long-lived species. The observed abundance shifts suggest that uphill shifts are not only driven by a small number of individuals at the range boundaries, but the overall bird abundances are on the move. Overall, the results underscore the wide-ranging impact of climate change and the potential vulnerability of species with slow life histories, as they appear less able to timely respond to rapidly changing climatic conditions., (© 2021. The Author(s).)

Published
2022
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38. Segmental analysis by speckle-tracking echocardiography of the left ventricle response to isoproterenol in male and female mice.

Author

Walsh-Wilkinson E, Arsenault M, and Couet J

Abstract

We studied by conventional and speckle-tracking echocardiography, the response of the left ventricle (LV) to a three-week continuous infusion of isoproterenol (Iso), a non-specific beta-adrenergic receptor agonist in male and female C57Bl6/J mice. Before and after Iso (30 mg/kg/day), we characterized LV morphology and function as well as global and segmental strain. We observed that Iso reduced LV ejection in both male (-8.7%) and female (-14.7%) mice. Several diastolic function parameters were negatively regulated in males and females such as E/A, E/E', isovolumetric relaxation time. Global longitudinal (GLS) and circumferential (GCS) strains were reduced by Iso in both sexes, GLS by 31% and GCS by about 20%. For the segmental LV analysis, we measured strain, strain rate, reverse strain rate, peak speckle displacement and peak speckle velocity in the parasternal long axis. We observed that radial strain of the LV posterior segments were more severely modulated by Iso than those of the anterior wall in males. In females, on the other hand, both posterior and anterior wall segments were negatively impacted by Iso. Longitudinal strain showed similar results to the radial strain for both sexes. Strain rate, on the other hand, was only moderately changed by Iso. Reverse strain rate measurements (an index of diastolic function) showed that posterior LV segments were negatively regulated by Iso. We then studied the animals 5 and 17 weeks after Iso treatment. Compared to control mice, LV dilation was still present in males. Ejection fraction was decreased in mice of both sex compared to control animals. Diastolic function parameters, on the other hand, were back to normal. Taken together, our study indicates that segmental strain analysis can identify LV regions that are more negatively affected by a cardiotoxic agent such as Iso. In addition, cessation of Iso was not accompanied with a complete restoration of cardiac function after four months., Competing Interests: The authors declare there are no competing interests., (©2021 Walsh-Wilkinson et al.)

Published
2021
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39. Attenuated Mitral Leaflet Enlargement Contributes to Functional Mitral Regurgitation After Myocardial Infarction.

Author

Marsit O, Clavel MA, Côté-Laroche C, Hadjadj S, Bouchard MA, Handschumacher MD, Clisson M, Drolet MC, Boulanger MC, Kim DH, Guerrero JL, Bartko PE, Couet J, Arsenault M, Mathieu P, Pibarot P, Aïkawa E, Bischoff J, Levine RA, and Beaudoin J

Subjects
Animals, Aortic Valve Insufficiency complications, Echocardiography, Three-Dimensional, Extracellular Matrix metabolism, Female, Fibrosis, Magnetic Resonance Imaging, Male, Myocardial Ischemia complications, Sheep, Tomography, X-Ray Computed, Tricuspid Valve diagnostic imaging, Mitral Valve diagnostic imaging, Mitral Valve Insufficiency physiopathology, Myocardial Infarction complications, Ventricular Remodeling
Abstract

Background: Mitral leaflet enlargement has been identified as an adaptive mechanism to prevent mitral regurgitation in dilated left ventricles (LVs) caused by chronic aortic regurgitation (AR). This enlargement is deficient in patients with functional mitral regurgitation, which remains frequent in the population with ischemic cardiomyopathy. Maladaptive fibrotic changes have been identified in post-myocardial infarction (MI) mitral valves. It is unknown if these changes can interfere with valve growth and whether they are present in other valves., Objectives: This study sought to test the hypothesis that MI impairs leaflet growth, seen in AR, and induces fibrotic changes in mitral and tricuspid valves., Methods: Sheep models of AR, AR + MI, and controls were followed for 90 days. Cardiac magnetic resonance, echocardiography, and computed tomography were performed at baseline and 90 days to assess LV volume, LV function, mitral regurgitation and mitral leaflet size. Histopathology and molecular analyses were performed in excised valves., Results: Both experimental groups developed similar LV dilatation and dysfunction. At 90 days, mitral valve leaflet size was smaller in the AR + MI group (12.8 ± 1.3 cm 2 vs. 15.1 ± 1.6 cm 2 , p = 0.03). Mitral regurgitant fraction was 4% ± 7% in the AR group versus 19% ± 10% in the AR + MI group (p = 0.02). AR + MI leaflets were thicker compared with AR and control valves. Increased expression of extracellular matrix remodeling genes was found in both the mitral and tricuspid leaflets in the AR + MI group., Conclusions: In these animal models of AR, the presence of MI was associated with impaired adaptive valve growth and more functional mitral regurgitation, despite similar LV size and function. More pronounced extracellular remodeling was observed in mitral and tricuspid leaflets, suggesting systemic valvular remodeling after MI., (Copyright © 2020 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)

Published
2020
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40. Sex differences in the evolution of left ventricle remodeling in rats with severe volume overload.

Author

Walsh-Wilkinson E, Drolet MC, Arsenault M, and Couet J

Subjects
Animals, Aortic Valve Insufficiency diagnostic imaging, Aortic Valve Insufficiency physiopathology, Disease Models, Animal, Female, Hypertrophy, Left Ventricular diagnostic imaging, Hypertrophy, Left Ventricular physiopathology, Male, Rats, Wistar, Severity of Illness Index, Sex Characteristics, Sex Factors, Time Factors, Aortic Valve Insufficiency complications, Hypertrophy, Left Ventricular etiology, Ventricular Function, Left, Ventricular Remodeling
Abstract

Background: Aortic valve regurgitation (AR) results in left ventricle (LV) volume overload (VO) leading to its dilation and hypertrophy (H). We study a rat model of severe AR induced by puncturing one or two leaflets using a catheter. Most of our studies were conducted in male animals. Recently, we started investigating if sex dimorphism existed in the AR rat model. We observed that AR females developed as much LVH as males but morphological remodeling differences were present. A head-to-head comparison of LV morphological and functional changes had never been performed in AR males (M) and females (F) using the latest modalities in cardiac imaging by echocardiography., Methods: We performed a longitudinal study to evaluate the development of LV hypertrophy caused by chronic AR in male and female rats over 6 months. Sham-operated (sham) animals were used as controls., Results: LV diastolic volumes (EDV) increased more over 6 months in sham males than in females (38% vs. 23% for EDV, both p < 0.01). AR resulted in significant LV dilation for both sexes (54% vs. 51% increase in EDV) vs. baseline values. Since normal cardiac growth was less in females, dilation from AR was relatively more important for them (88% (M) vs. 157% (F) increase in EDV over sham). AR caused LV wall thickening in both males and females. It happened sooner for AR females and was more important than in males (25% (M) vs. 56% (F) increase in septum thickness at 2 months and 10% (M) vs. 30% (F) at 6 months). We then evaluated if AR was associated with changes in LV strain using speckle-tracking 2D echocardiography. Global longitudinal strain remained similar between AR and sham animals. Circumferential strain was negatively modulated by AR but only in females and early after VO induction (13% (M) vs. 26% (F))., Conclusion: AR resulted in more LV dilation and quicker wall thickening in female AR rats compared to males. Global circumferential strain was negatively modulated in AR females but not in males. AR also seemed to lead to a more spherical LV shape in females whereas; it kept mostly an ellipsoid shape in males. This can influence validity of mass estimation of the dilated LV in females by echocardiography.

Published
2020
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41. Effects of the loss of estrogen on the heart's hypertrophic response to chronic left ventricle volume overload in rats.

Author

Walsh-Wilkinson E, Beaumont C, Drolet MC, Roy ÈM, Le Houillier C, Beaudoin J, Arsenault M, and Couet J

Abstract

Aortic valve regurgitation (AR) can result in heart failure from chronic overloading of the left ventricle (LV). Little is known of the role of estrogens in the LV responses to this condition. The aim of the study was to compare LV remodeling in female rats with severe AR in absence of estrogens by ovariectomy (Ovx). In a first study, we investigated over 6 months the development of hypertrophy in four groups of female Wistar rats: AR or sham-operated (sham) and Ovx or not. Ovx reduced normal heart growth. As expected, volume overload (VO) from AR resulted in significant LV dilation (42% and 32% increase LV end-diastolic diameter in intact and Ovx groups vs. their respective sham group; p  < 0.0001). LV weight was also significantly and similarly increased in both AR groups (non-Ovx and Ovx). Increase in stroke volume or cardiac output and loss of systolic function were similar between AR intact and AR Ovx groups compared to sham. We then investigated what were the effects of 17beta-estradiol (E2; 0.03 mg/kg/day) treatment on the parameters studied in Ovx rats. Ovx reduced uterus weight by 85% and E2 treatment restored up to 65% of the normal weight. E2 also helped normalize heart size to normal values. On the other hand, it did not influence the extent of the hypertrophic response to AR. In fact, E2 treatment further reduced LV hypertrophy in AR Ovx rats (41% over Sham Ovx + E2). Systolic and diastolic functions parameters in AR Ovx + E2 were similar to intact AR animals. Ovx in sham rats had a significant effect on the LV gene expression of several hypertrophy markers. Atrial natriuretic peptide ( Nppa ) gene expression was reduced by Ovx in sham-operated females whereas brain natriuretic peptide ( Nppb ) expression was increased. Alpha ( Myh6 ) and beta ( Myh7 ) myosin heavy chain genes were also significantly modulated by Ovx in sham females. In AR rats, LV expression of both Nppa and Nppb genes were increased as expected. Ovx further increased it of AR rats for Nppa and did the opposite for Nppb . Interestingly, AR in Ovx rats had only minimal effects on Myh6 and Myh7 genes whereas they were modulated as expected for intact AR animals. In summary, loss of estrogens by Ovx in AR rats was not accompanied by a worsening of hypertrophy or cardiac function. Normal cardiac growth was reduced by Ovx in sham females but not the hypertrophic response to AR. On the other hand, Ovx had important effects on LV gene expression both in sham and AR female rats., Competing Interests: The authors declare there are no competing interests., (©2019 Walsh-Wilkinson et al.)

Published
2019
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42. Sex differences in the response to angiotensin II receptor blockade in a rat model of eccentric cardiac hypertrophy.

Author

Walsh-Wilkinson É, Drolet MC, Le Houillier C, Roy ÈM, Arsenault M, and Couet J

Abstract

Background. Men and women differ in their susceptibility to cardiovascular disease, though the underlying mechanism has remained elusive. Heart disease symptoms, evolution and response to treatment are often sex-specific. This has been studied in animal models of hypertension or myocardial infarction in the past but has received less attention in the context of heart valve regurgitation. The aim of the study was to evaluate the development of cardiac hypertrophy (CH) in response to left ventricle (LV) volume overload (VO) caused by chronic aortic valve regurgitation (AR) in male and female rats treated or not with angiotensin II receptor blocker (ARB), valsartan. We studied eight groups of Wistar rats: male or female, AR or sham-operated (sham) and treated or not with valsartan (30 mg/kg/day) for 9 weeks starting one week before AR surgical induction. Results. As expected, VO from AR resulted for both male and female rats in significant LV dilation (39% vs. 40% end-diastolic LV diameter increase, respectively; p  < 0.0001) and CH (53% vs. 64% heart weight increase, respectively; p  < 0.0001) compared to sham. Sex differences were observed in LV wall thickening in response to VO. In untreated AR males, relative LV wall thickness (a ratio of wall thickness to end-diastolic diameter) was reduced compared to sham, whereas this ratio in females remained unchanged. ARB treatment did not prevent LV dilation in both male and female animals but reversed LV wall thickening in females. Systolic and diastolic functions in AR animals were altered similarly for both sexes. ARB treatment did not improve systolic function but helped normalizing diastolic parameters such as left atrial mass and E wave slope in female AR rats. Increased LV gene expression of  Anp and Bnp was normalized by ARB treatment in AR females but not in males. Other hypertrophy gene markers ( Fos, Trpc6, Klf15, Myh6 and Myh7 ) were not modulated by ARB treatment. The same was true for genes related to LV extracellular matrix remodeling ( Col1a1, Col3a1, Fn1, Mmp2, Timp1 and Lox ). In summary, ARB treatment of rats with severe AR blocked the female-specific hypertrophic response characterized by LV chamber wall thickening. LV dilation, on the other hand, was not significantly decreased by ARB treatment. This also indicates that activation of the angiotensin II receptor is probably more involved in the early steps of LV remodeling caused by AR in females than in males., Competing Interests: The authors declare there are no competing interests.

Published
2019
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43. Testosterone deficiency reduces cardiac hypertrophy in a rat model of severe volume overload.

Author

Beaumont C, Walsh-Wilkinson É, Drolet MC, Roussel É, Melançon N, Fortier É, Harpin G, Beaudoin J, Arsenault M, and Couet J

Subjects
Animals, Aortic Valve Insufficiency complications, Biomarkers metabolism, Cardiomegaly diagnostic imaging, Cardiomegaly etiology, Cardiomegaly metabolism, Disease Models, Animal, Echocardiography, Energy Metabolism physiology, Extracellular Matrix metabolism, Gene Expression Regulation physiology, Heart Ventricles metabolism, Hemodynamics physiology, Male, Orchiectomy, Rats, Wistar, Signal Transduction physiology, Testosterone physiology, Ventricular Function, Left physiology, Ventricular Remodeling physiology, Cardiomegaly prevention & control, Testosterone deficiency
Abstract

The aim of the study was to characterize if the development of cardiac hypertrophy (CH) caused by severe left ventricle (LV) volume overload (VO) from chronic aortic valve regurgitation (AR) in male rats was influenced by androgens. We studied Wistar rats with/without orchiectomy (Ocx) either sham-operated (S) or with severe AR for 26 weeks. Loss of testosterone induced by Ocx decreased general body growth. Cardiac hypertrophy resulting from AR was relatively more important in intact (non-Ocx) animals than in Ocx ones compared to their respective S group (60% vs. 40%; P = 0.019). The intact AR group had more LV dilation, end-diastolic LV diameter being increased by 37% over S group and by 17% in AROcx rats (P < 0.0001). Fractional shortening (an index of systolic function) decreased only by 15% in AROcx compared to 26% for intact AR animals (P = 0.029). Changes in LV gene expression resulting from CH were more marked in intact rats than in AROcx animals, especially for genes linked to extracellular matrix remodeling and energy metabolism. The ratio of hydroxyacyl-Coenzyme A dehydrogenase activity over hexokinase activity, an index of the shift of myocardial substrate use toward glucose from the preferred fatty acids, was significantly decreased in the AR group but not in AROcx. Finally, pJnk2 LV protein content was more abundant in AR than in AROcx rats, indicating decreased activation of this stress pathway in the absence of androgens. In summary, testosterone deficiency in rats with severe LV VO resulted in less CH and a normalization of the LV gene expression profile., (© 2019 The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of The Physiological Society and the American Physiological Society.)

Published
2019
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44. Multiple short-chain dehydrogenases/reductases are regulated in pathological cardiac hypertrophy.

Author

Roussel E, Drolet MC, Lavigne AM, Arsenault M, and Couet J

Abstract

Cardiac hypertrophy (CH) is an important and independent predictor of morbidity and mortality. Through expression profiling, we recently identified a subset of genes ( Dhrs7c , Decr , Dhrs11 , Dhrs4 , Hsd11b1 , Hsd17b10 , Hsd17b8 , Blvrb , Pecr ), all of which are members of the short-chain dehydrogenase/reductase (SDR) superfamily and are highly expressed in the heart, that were significantly dysregulated in a rat model of CH caused by severe aortic valve regurgitation (AR). Here, we studied their expression in various models of CH, as well as factors influencing their regulation. Among the nine SDR genes studied, all but Hsd11b1 were down-regulated in CH models (AR rats or mice infused with either isoproterenol or angiotensin II). This regulation showed a clear sex dimorphism, being more evident in males than in females irrespective of CH levels. In neonatal rat cardiomyocytes, we observed that treatment with the α 1 -adrenergic receptor agonist phenylephrine mostly reproduced the observations made in CH animals models. Retinoic acid, on the other hand, stimulated the expression of most of the SDR genes studied, suggesting that their expression may be related to cardiomyocyte differentiation. Indeed, levels of expression were found to be higher in the hearts of adult animals than in neonatal cardiomyocytes. In conclusion, we identified a group of genes modulated in animal models of CH and mostly in males. This could be related to the activation of the fetal gene expression program in pathological CH situations, in which these highly expressed genes are down-regulated in the adult heart.

Published
2018
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45. Loss of OcaB Prevents Age-Induced Fat Accretion and Insulin Resistance by Altering B-Lymphocyte Transition and Promoting Energy Expenditure.

Author

Carter S, Miard S, Caron A, Sallé-Lefort S, St-Pierre P, Anhê FF, Lavoie-Charland E, Blais-Lecours P, Drolet MC, Lefebvre JS, Lacombe J, Deshaies Y, Couet J, Laplante M, Ferron M, Bossé Y, Marette A, Richard D, Marsolais D, and Picard F

Subjects
Adolescent, Adult, Aged, Aging genetics, Animals, Cell Differentiation genetics, Cell Differentiation immunology, Cells, Cultured, Epididymis, Female, Glucose Intolerance genetics, Glucose Intolerance immunology, Glucose Intolerance metabolism, Humans, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Middle Aged, Young Adult, Aging metabolism, B-Lymphocytes physiology, Energy Metabolism genetics, Insulin Resistance genetics, Lipid Metabolism genetics, Obesity complications, Obesity genetics, Obesity immunology, Obesity metabolism, Trans-Activators genetics
Abstract

The current demographic shift toward an aging population has led to a robust increase in the prevalence of age-associated metabolic disorders. Recent studies have demonstrated that the etiology of obesity-related insulin resistance that develops with aging differs from that induced by high-calorie diets. Whereas the role of adaptive immunity in changes in energy metabolism driven by nutritional challenges has recently gained attention, its impact on aging remains mostly unknown. Here we found that the number of follicular B2 lymphocytes and expression of the B-cell-specific transcriptional coactivator OcaB increase with age in spleen and in intra-abdominal epididymal white adipose tissue (eWAT), concomitantly with higher circulating levels of IgG and impaired glucose homeostasis. Reduction of B-cell maturation and Ig production-especially that of IgG2c-by ablation of OcaB prevented age-induced glucose intolerance and insulin resistance and promoted energy expenditure by stimulating fatty acid utilization in eWAT and brown adipose tissue. Transfer of wild-type bone marrow in OcaB -/- mice replenished the eWAT B2-cell population and IgG levels, which diminished glucose tolerance, insulin sensitivity, and energy expenditure while increasing body weight gain in aged mice. Thus these findings demonstrate that upon aging, modifications in B-cell-driven adaptive immunity contribute to glucose intolerance and fat accretion., (© 2018 by the American Diabetes Association.)

Published
2018
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46. Early Activation of Growth Pathways in Mitral Leaflets Exposed to Aortic Regurgitation: New Insights from an Animal Model.

Author

Marsit O, Royer O, Drolet MC, Arsenault M, Couet J, Morin S, Levine RA, Pibarot P, and Beaudoin J

Subjects
Actins genetics, Actins metabolism, Animals, Aortic Valve Insufficiency diagnostic imaging, Aortic Valve Insufficiency metabolism, Aortic Valve Insufficiency physiopathology, Disease Models, Animal, Echocardiography, Doppler, Extracellular Matrix metabolism, Hypertrophy, Left Ventricular pathology, Hypertrophy, Left Ventricular physiopathology, Male, Matrix Metalloproteinase 2 genetics, Matrix Metalloproteinase 2 metabolism, Mitral Valve diagnostic imaging, Mitral Valve metabolism, Mitral Valve physiopathology, Rats, Wistar, Time Factors, Transforming Growth Factor beta1 genetics, Transforming Growth Factor beta1 metabolism, Up-Regulation, Ventricular Function, Left, Ventricular Remodeling, Aortic Valve Insufficiency pathology, Cell Proliferation, Extracellular Matrix pathology, Mitral Valve pathology
Abstract

Background and Aim of the Study: Mitral leaflet enlargement in patients with chronic aortic regurgitation (AR) has been identified as an adaptive mechanism potentially able to prevent functional mitral regurgitation (FMR) in response to left ventricular (LV) dilatation. The timing of valve enlargement is not known, and the related mechanisms are largely unexplored., Methods: AR was induced in 58 rats, and another 54 were used as sham controls. Animals were euthanized at different time points after AR creation (48 h, one week, and three months), and AR severity, FMR and LV dilatation were assessed using echocardiography. Mitral valves were harvested to document the reactivation of embryonic growth pathways., Results: AR animals had increased LV dimensions and mitral annulus size. No animal developed FMR. No change in leaflet length or thickness was seen at 48 h; however, anterior mitral leaflets were longer and thicker in AR animals at one week and three months. Molecular changes were present early (at 48 h and at one week), with positive staining for transforming growth factor-b1 (TGF-b1), Alpha-smooth muscle actin (α-SMA) and matrix metalloproteinase-2 (MMP-2), which suggested active matrix remodeling. Increased gene expression for collagen 1, TGF-β1, α-SMA and MMP-2 was found in the mitral valve at 48 h and at one week, but after three months their expression had returned to normal., Conclusions: This model of AR induces active expansion and thickening of the mitral leaflets. Growth signals are expressed acutely, but not at three months, which suggests that most of this enlargement occurs at an early stage. The stimulation of valvular growth could represent a new strategy for the prevention of FMR.

Published
2017

47. Female rats with severe left ventricle volume overload exhibit more cardiac hypertrophy but fewer myocardial transcriptional changes than males.

Author

Beaumont C, Walsh-Wilkinson É, Drolet MC, Roussel É, Arsenault M, and Couet J

Subjects
Animals, Biomarkers, Biopsy, Cardiomegaly diagnostic imaging, Cardiomegaly pathology, Disease Models, Animal, Echocardiography, Energy Metabolism, Female, Heart Function Tests, Hemodynamics, Hypertrophy, Left Ventricular diagnostic imaging, Hypertrophy, Left Ventricular pathology, Male, Mitochondria, Heart metabolism, Rats, Sex Factors, Ventricular Remodeling, Cardiomegaly genetics, Cardiomegaly physiopathology, Hypertrophy, Left Ventricular genetics, Hypertrophy, Left Ventricular physiopathology, Transcription, Genetic, Ventricular Dysfunction, Left genetics, Ventricular Dysfunction, Left physiopathology
Abstract

Aortic valve regurgitation (AR) imposes a volume overload (VO) to the left ventricle (LV). Male rats with a pathological heart overload usually progress more quickly towards heart failure than females. We examined whether a sexual dimorphism exists in the myocardial transcriptional adaptations to AR. Adult Wistar male and female rats either underwent a sham operation or were induced with AR and then followed for 26 weeks. Female AR rats gained relatively more LV mass than males (75 vs. 42%). They had a similar increase in LV chamber dimensions compared to males but more wall thickening. On the other hand, fatty acid oxidation (FAO)-related LV enzyme activity was only decreased in AR males. The expression of genes encoding FAO-related enzymes was only reduced in AR males and not in females. A similar situation was observed for the expression of genes involved in mitochondrial biogenesis or function as well as for genes encoding for transcription factors implicated in the control of bioenergetics and mitochondrial function (Errα, Errγ or Pgc1α). Although females develop more LV hypertrophy from severe VO, their myocardial gene expression remains closer to normal. This could provide survival benefits for females with severe VO.

Published
2017
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48. Ablation of Potassium-Chloride Cotransporter Type 3 (Kcc3) in Mouse Causes Multiple Cardiovascular Defects and Isosmotic Polyuria.

Author

Garneau AP, Marcoux AA, Noël M, Frenette-Cotton R, Drolet MC, Couet J, Larivière R, and Isenring P

Subjects
Animals, Aorta, Thoracic metabolism, Aorta, Thoracic physiopathology, Blood Pressure, Cardiovascular Diseases blood, Cardiovascular Diseases physiopathology, Heart physiopathology, Heart Function Tests, Hemodynamics, Hormones metabolism, Kidney Function Tests, Lipids blood, Mice, Inbred C57BL, Polyuria physiopathology, Sodium metabolism, Transcriptome genetics, Cardiovascular Diseases complications, Cardiovascular Diseases metabolism, Gene Deletion, Osmosis, Polyuria complications, Polyuria metabolism, Symporters metabolism
Abstract

Inactivation of Kcc3 in a mixed 129/Sv×C57BL/6 mouse background has been previously found to increase systemic blood pressure (BP) through presumed neurogenic mechanisms. Yet, while this background is generally not considered ideal to investigate the cardiovascular system, KCC3 is also expressed in the arterial wall and proximal nephron. In the current study, the effects of Kcc3 ablation was investigated in a pure rather than mixed C57BL/6J background under regular- and high-salt diets to determine whether they could be mediated through vasculogenic and nephrogenic mechanisms. Aortas were also assessed for reactivity to pharmacological agents while isolated from the influence of sympathetic ganglia. This approach led to the identification of unforeseen abnormalities such as lower pulse pressure, heart rate, aortic reactivity and aortic wall thickness, but higher diastolic BP, left ventricular mass and urinary output in the absence of increased catecholamine levels. Salt loading also led systolic BP to be higher, but to no further changes in hemodynamic parameters. Importantly, aortic vascular smooth muscle cells and cardiomyocytes were both found to express KCC3 abundantly in heterozygous mice. Hence, Kcc3 inactivation in our model caused systemic vascular resistance and ventricular mass to increase while preventing extracellular fluid volume to accumulate. Given that it also affected the physiological properties of aortas in vitro, vasculogenic mechanisms could therefore account for a number of the hemodynamic abnormalities observed.

Published
2016
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49. Blockade of the acute activation of mTOR complex 1 decreases hypertrophy development in rats with severe aortic valve regurgitation.

Author

Drolet MC, Desbiens-Brassard V, Roussel E, Tu V, Couet J, and Arsenault M

Abstract

Background: Hypertrophy (H) is an adaptive response of the heart to a hemodynamic overload. Severe left ventricular (LV) volume overload (VO) from valve regurgitations (aortic (AR) or mitral regurgitation) leads to eccentric LVH. Increased protein turnover is a major event during development of LVH and the mechanistic target of rapamycin (mTOR) is a key molecule for its control. The role of mTOR inhibition in the development of LVH using rapamycin for relatively short periods of time (days to a few weeks) has been studied in the past in pressure overload models but not in VO models. We investigated if mTOR pathway was activated during LVH development in a model of severe VO (AR) in rats and if a rapamycin treatment can slow heart remodeling in this situation., Methods and Results: Male rats with severe AR were studied acutely at 2 days, at 8 weeks (compensated phase) and 6 months (late phase) after VO induction. mTOR complex (mTORC) 1 (ribosomal S6 protein phosphorylation) was activated early after AR induction but not later in the disease whereas mTORC2 activity levels (Akt phosphorylation at Ser473) remained stable. We observed that a moderate dose of rapamycin (2 mg/kg/day; orally) for 8 weeks prevented severe LVH caused by AR (-46 %: p < 0.001). Rapamycin treatment specifically inhibited LV mTORC1 without altering mTORC2 activity at 8 weeks. Rapamycin also prevented cardiac myocyte hypertrophy caused by AR., Conclusion: Rapamycin slows hypertrophy in LV VO by inhibiting early activation of mTORC1 without modulating mTORC2.

Published
2015
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50. Transcriptional Changes Associated with Long-Term Left Ventricle Volume Overload in Rats: Impact on Enzymes Related to Myocardial Energy Metabolism.

Author

Roussel E, Drolet MC, Walsh-Wilkinson E, Dhahri W, Lachance D, Gascon S, Sarrhini O, Rousseau JA, Lecomte R, Couet J, and Arsenault M

Subjects
Animals, Aortic Valve Insufficiency drug therapy, Aortic Valve Insufficiency physiopathology, Cardiac Volume genetics, Disease Models, Animal, Fenofibrate administration & dosage, Heart Failure drug therapy, Heart Failure physiopathology, Heart Ventricles drug effects, Heart Ventricles metabolism, Heart Ventricles physiopathology, Humans, Hypertrophy, Left Ventricular metabolism, Hypertrophy, Left Ventricular physiopathology, Mitochondria, Heart genetics, Oxidation-Reduction, PPAR alpha genetics, Rats, Transcriptome, Ventricular Function, Left drug effects, Ventricular Function, Left genetics, Aortic Valve Insufficiency genetics, Energy Metabolism genetics, Heart Failure genetics, Hypertrophy, Left Ventricular genetics
Abstract

Patients with left ventricle (LV) volume overload (VO) remain in a compensated state for many years although severe dilation is present. The myocardial capacity to fulfill its energetic demand may delay decompensation. We performed a gene expression profile, a model of chronic VO in rat LV with severe aortic valve regurgitation (AR) for 9 months, and focused on the study of genes associated with myocardial energetics. Methods. LV gene expression profile was performed in rats after 9 months of AR and compared to sham-operated controls. LV glucose and fatty acid (FA) uptake was also evaluated in vivo by positron emission tomography in 8-week AR rats treated or not with fenofibrate, an activator of FA oxidation (FAO). Results. Many LV genes associated with mitochondrial function and metabolism were downregulated in AR rats. FA β-oxidation capacity was significantly impaired as early as two weeks after AR. Treatment with fenofibrate, a PPARα agonist, normalized both FA and glucose uptake while reducing LV dilation caused by AR. Conclusion. Myocardial energy substrate preference is affected early in the evolution of LV-VO cardiomyopathy. Maintaining a relatively normal FA utilization in the myocardium could translate into less glucose uptake and possibly lesser LV remodeling.

Published
2015
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