Your search keyword '"Lunde PK"' showing total 28 results

1. Cannabidiol (CBD) modulates the transcriptional profile of ethanol-exposed human dermal fibroblast cells.

Author

Gurgul, Artur, Żurowski, Jakub, Szmatoła, Tomasz, Kucharski, Mirosław, Sawicki, Sebastian, Semik-Gurgul, Ewelina, and Ocłoń, Ewa

Abstract

Cannabidiol (CBD) is abundant in the Cannabis sativa plant and exhibits complex immunomodulatory, anxiolytic, antioxidant, and antiepileptic properties. Several studies suggest that CBD could be used for different purposes in alcohol use disorder (AUD) and alcohol-related injuries to the brain and the liver. In this study, we focused on analyzing transcriptional alterations in human dermal fibroblasts (HDFs) cell line challenged simultaneously with ethanol and CBD as an ethanol-protective agent. We aimed to expose the genes and pathways responsible for at least some of the CBD effects in those cells that can be related to the AUD. Transcriptome analysis was performed using HDFs cell line that expresses both cannabinoid receptors and can metabolize ethanol through alcohol dehydrogenase activity. Fibroblasts are also responsible for the progression of liver fibrosis, a common comorbidity in AUD. With the use of a cellular test, we found that CBD at the lowest applied concentration (0.75 μM) was able to stimulate depressed metabolism and reduce the level of apoptosis of cells treated with different concentrations of ethanol to the level observed in the control cells. Similar observations were made at the transcriptome level, in which cells treated with ethanol and CBD had similar expression profiles to the control cells. CBD also affects several genes connected with extracellular matrix formation (especially its collagen constituent), which can have potential implications for, e.g., fibrosis process. [ABSTRACT FROM AUTHOR]

Published

2024

2. Tripartite interactions of PKA catalytic subunit and C-terminal domains of cardiac Ca2+ channel may modulate its β-adrenergic regulation.

Author

Oz, Shimrit, Keren-Raifman, Tal, Sharon, Tom, Subramaniam, Suraj, Pallien, Tamara, Katz, Moshe, Tsemakhovich, Vladimir, Sholokh, Anastasiia, Watad, Baraa, Tripathy, Debi Ranjan, Sasson, Giorgia, Chomsky-Hecht, Orna, Vysochek, Leonid, Schulz-Christian, Maike, Fecher-Trost, Claudia, Zühlke, Kerstin, Bertinetti, Daniela, Herberg, Friedrich W., Flockerzi, Veit, and Hirsch, Joel A.

Subjects

RECOMBINANT proteins, PEPTIDES, CARDIAC contraction, PROTEIN kinases, PROTEIN-protein interactions, CALCIUM channels

Abstract

Background: The β-adrenergic augmentation of cardiac contraction, by increasing the conductivity of L-type voltage-gated CaV1.2 channels, is of great physiological and pathophysiological importance. Stimulation of β-adrenergic receptors (βAR) activates protein kinase A (PKA) through separation of regulatory (PKAR) from catalytic (PKAC) subunits. Free PKAC phosphorylates the inhibitory protein Rad, leading to increased Ca2+ influx. In cardiomyocytes, the core subunit of CaV1.2, CaV1.2α1, exists in two forms: full-length or truncated (lacking the distal C-terminus (dCT)). Signaling efficiency is believed to emanate from protein interactions within multimolecular complexes, such as anchoring PKA (via PKAR) to CaV1.2α1 by A-kinase anchoring proteins (AKAPs). However, AKAPs are inessential for βAR regulation of CaV1.2 in heterologous models, and their role in cardiomyocytes also remains unclear. Results: We show that PKAC interacts with CaV1.2α1 in heart and a heterologous model, independently of Rad, PKAR, or AKAPs. Studies with peptide array assays and purified recombinant proteins demonstrate direct binding of PKAC to two domains in CaV1.2α1-CT: the proximal and distal C-terminal regulatory domains (PCRD and DCRD), which also interact with each other. Data indicate both partial competition and possible simultaneous interaction of PCRD and DCRD with PKAC. The βAR regulation of CaV1.2α1 lacking dCT (which harbors DCRD) was preserved, but subtly altered, in a heterologous model, the Xenopus oocyte. Conclusions: We discover direct interactions between PKAC and two domains in CaV1.2α1. We propose that these tripartite interactions, if present in vivo, may participate in organizing the multimolecular signaling complex and fine-tuning the βAR effect in cardiomyocytes. [ABSTRACT FROM AUTHOR]

Published

2024

3. Nanoscale organization of cardiac calcium channels is dependent on thyroid hormone status.

Author

Charest, Amanda, Nasta, Nicholas, Siddiqui, Sumaiyah, Menkes, Silvia, Thomas, Anvin, Saad, Dana, Forman, Jake, Huang, Xueqi, Sison, Cristina P., Gerdes, A. Martin, Stout, Randy F., and Ojamaa, Kaie

Subjects

CALCIUM channels, RYANODINE receptors, CALCIUM ions, ION channels, STOCHASTIC analysis, HEART failure

Abstract

Thyroid hormone dysfunction is frequently observed in patients with chronic illnesses including heart failure, which increases the risk of adverse events. This study examined the effects of thyroid hormones (THs) on cardiac transverse-tubule (TT) integrity, Ca2+ sparks, and nanoscale organization of ion channels in excitation-contraction (EC) coupling, including L-type calcium channel (CaV1.2), ryanodine receptor type 2 (RyR2), and junctophilin-2 (Jph2). TH deficiency was established in adult female rats by propyl-thiouracil (PTU) ingestion for 8 wk; followed by randomization to continued PTU without or with oral triiodo- l -thyronine (T3; 10 µg/kg/day) for an additional 2 wk (PTU + T3). Confocal microscopy of isolated cardiomyocytes (CMs) showed significant misalignment of TTs and increased Ca2+ sparks in thyroid-deficient CMs. Density-based spatial clustering of applications with noise (DBSCAN) analysis of stochastic optical reconstruction microscopy (STORM) images showed decreased (P < 0.0001) RyR2 cluster number per cell area in PTU CMs compared with euthyroid (EU) control myocytes, and this was normalized by T3 treatment. CaV1.2 channels and Jph2 localized within a 210 nm radius of the RyR2 clusters were significantly reduced in PTU myocytes, and these values were increased with T3 treatment. A significant percentage of the RyR2 clusters in the PTU myocytes had neither CaV1.2 nor Jph2, suggesting fewer functional clusters in EC coupling. Nearest neighbor distances between RyR2 clusters were greater (P < 0.001) in PTU cells compared with EU- and T3-treated CMs that correspond to disarray of TTs at the sarcomere z-discs. These results support a regulatory role of T3 in the nanoscale organization of RyR2 clusters and colocalization of CaV1.2 and Jph2 in optimizing EC coupling. NEW & NOTEWORTHY: Thyroid hormone (TH) dysfunction exacerbates preexisting heart conditions leading to an increased risk of premature morbidity/mortality. Triiodo- l -thyronine (T3) optimizes cardiac excitation-contraction (EC) coupling by maintaining myocardial T-tubule (TT) structures and organization of calcium ion channels. Single-molecule localization microscopy shows T3 effects on the clustering of ryanodine receptors (RyR2) with colocalization of L-type calcium channels (CaV1.2) and junctophilin-2 (Jph2) at TT-SR structures. Heart disease with subclinical hypothyroidism/low T3 syndrome may benefit from TH treatment. [ABSTRACT FROM AUTHOR]

Published

2024

4. New insights into the cellular and molecular mechanisms of skeletal muscle fatigue: the Marion J. Siegman Award Lectureships.

Author

Debold, Edward P. and Westerblad, Håkan

Subjects

MUSCLE fatigue, SINGLE molecules, ANAEROBIC metabolism, SARCOPLASMIC reticulum, SKELETAL muscle, MYOSIN, CALCIUM metabolism

Abstract

Skeletal muscle fibers need to have mechanisms to decrease energy consumption during intense physical exercise to avoid devastatingly low ATP levels, with the formation of rigor cross bridges and defective ion pumping. These protective mechanisms inevitably lead to declining contractile function in response to intense exercise, characterizing fatigue. Through our work, we have gained insights into cellular and molecular mechanisms underlying the decline in contractile function during acute fatigue. Key mechanistic insights have been gained from studies performed on intact and skinned single muscle fibers and more recently from studies performed and single myosin molecules. Studies on intact single fibers revealed several mechanisms of impaired sarcoplasmic reticulum Ca2+ release and experiments on single myosin molecules provide direct evidence of how putative agents of fatigue impact myosin's ability to generate force and motion. We conclude that changes in metabolites due to an increased dependency on anaerobic metabolism (e.g., accumulation of inorganic phosphate ions and H+) act to directly and indirectly (via decreased Ca2+ activation) inhibit myosin's force and motion-generating capacity. These insights into the acute mechanisms of fatigue may help improve endurance training strategies and reveal potential targets for therapies to attenuate fatigue in chronic diseases. [ABSTRACT FROM AUTHOR]

Published

2024

5. Physiological Effects of Lactate in Individuals With Chronic Heart Failure

Author

Henrik Wiggers, Professor, Senior Consultant, MD, PhD, DMSc

Published

2024

6. Restoring Atrial T-Tubules Augments Systolic Ca Upon Recovery From Heart Failure.

Author

Caldwell, Jessica L., Clarke, Jessica D., Smith, Charlotte E. R., Pinali, Christian, Quinn, Callum J., Pearman, Charles M., Adomaviciene, Aiste, Radcliffe, Emma J., Watkins, Amy, Horn, Margaux A., Bode, Elizabeth F., Madders, George W. P., Eisner, Mark, Eisner, David A., Trafford, Andrew W., and Dibb, Katharine M.

Published

2024

7. The association between TSH and thyroid hormones in the normal or subclinical dysfunction range with left ventricular diastolic dysfunction.

Author

Jun, Ji Eun, Kim, Tae Hyuk, Kim, Sun Wook, Chung, Jae Hoon, Kim, Jae Hyeon, Lee, You-Bin, and Kang, Mira

Subjects

LEFT ventricular dysfunction, DIASTOLE (Cardiac cycle), THYROID gland, THYROTROPIN, THYROID hormones, THYROID diseases, CARDIOVASCULAR system

Abstract

Thyroid hormones modulate the cardiovascular system. However, the effects of subclinical thyroid dysfunction and euthyroidism on cardiac function remain unclear. We investigated the association between left ventricular (LV) diastolic dysfunction and subclinical thyroid dysfunction or thyroid hormones within the reference range. This cross-sectional study included 26,289 participants (22,197 euthyroid, 3,671 with subclinical hypothyroidism, and 421 with subclinical thyrotoxicosis) who underwent regular health check-ups in the Republic of Korea. Individuals with thyroid stimulating hormone (TSH) levels > 4.2 µIU/mL and normal free thyroxine (FT4, 0.78–1.85 ng/dL) and triiodothyronine (T3, 76–190 ng/dL) levels were defined as having subclinical hypothyroidism. Individuals with serum TSH levels < 0.4 µIU/mL and normal FT4 and T3 levels were defined as having subclinical thyrotoxicosis. The cardiac structure and function were evaluated using echocardiography. LV diastolic dysfunction with normal ejection fraction (EF) was defined as follows: EF of > 50% and (a) E/e' ratio > 15, or (b) E/e' ratio of 8–15 and left atrial volume index ≥ 34 mL/m2. Subclinical hypothyroidism was significantly associated with cardiac indices regarding LV diastolic dysfunction. The odds of having LV diastolic dysfunction was also increased in participants with subclinical hypothyroidism (adjusted odds ratio [AOR] 1.36, 95% confidence interval [CI], 1.01–1.89) compared to euthyroid participants. Subclinical thyrotoxicosis was not associated with LV diastolic dysfunction. Among the thyroid hormones, only serum T3 was significantly and inversely associated with LV diastolic dysfunction even within the normal range. Subclinical hypothyroidism was significantly associated with LV diastolic dysfunction, whereas subclinical thyrotoxicosis was not. Serum T3 is a relatively important contributor to LV diastolic dysfunction compared to TSH or FT4. [ABSTRACT FROM AUTHOR]

Published

2024

8. Leptospira spp. and Rickettsia spp. as pathogens with zoonotic potential causing acute undifferentiated febrile illness in a central-eastern region of Peru.

Author

Silva-Caso, Wilmer, Aguilar-Luis, Miguel Angel, Espinoza-Espíritu, Walter, Vilcapoma-Balbin, Mercedes, Del Valle, Luis J., Misaico-Revate, Erika, Soto-Febres, Fernando, Pérez-Lazo, Giancarlo, Martins-Luna, Johanna, Perona-Fajardo, Francisco, and del Valle-Mendoza, Juana

Subjects

RICKETTSIA, LEPTOSPIRA, LUMBAR pain, EXANTHEMA, FEVER, PATHOGENIC microorganisms

Abstract

Objetive: this study was to determine the relationship between acute febrile illness and bacterial pathogens with zoonotic potential that cause emerging and re-emerging diseases in a central-eastern region of Peru. Results: Out of the 279 samples analyzed, 23 (8.2%) tested positive for infection by Rickettsia spp., while a total of 15 (5.4%) tested positive for Leptospira spp. Women had a higher frequency of infection by Rickettsia spp., with 13 cases (53.3%), while men had a higher frequency of infection by Leptospira spp., with 10 cases (66.7%). The most frequently reported general symptom was headache, with 100.0% (n = 23) of patients with Rickettsia (+) and 86.7% (n = 13) of patients with Leptospira (+) experiencing it. Arthralgia was the second most frequent symptom, reported by 95.6% (n = 22) and 60% (n = 9) of patients with Rickettsia (+) and Leptospira (+), respectively. Myalgia was reported by 91.3% (n = 21) and 66.7% (n = 10) of patients with Rickettsia (+) and Leptospira (+), respectively. Retroocular pain, low back pain, and skin rash were also present, but less frequently. Among the positives, no manifestation of bleeding was recorded, although only one positive case for Leptospira spp. presented a decrease in the number of platelets. [ABSTRACT FROM AUTHOR]

Published

2024

9. Intersection of Immunology and Metabolism in Myocardial Disease.

Author

Thorp, Edward B. and Karlstaedt, Anja

Published

2024

10. Cardiac mitochondrial metabolism during pregnancy and the postpartum period.

Author

Schulman-Geltzer, Emily B., Fulghum, Kyle L., Singhal, Richa A., Hill, Bradford G., and Collins, Helen E.

Subjects

HEART metabolism, PUERPERIUM, HEART size, AMINO acid metabolism, PREGNANCY

Abstract

The goal of the present study was to characterize changes in mitochondrial respiration in the maternal heart during pregnancy and after birth. Timed pregnancy studies were performed in 12-wk-old female FVB/NJ mice, and cardiac mitochondria were isolated from the following groups of mice: nonpregnant (NP), midpregnancy (MP), late pregnancy (LP), and 1-wk postbirth (PB). Similar to our previous studies, we observed increased heart size during all stages of pregnancy (e.g., MP and LP) and postbirth (e.g., PB) compared with NP mice. Differential cardiac gene and protein expression analyses revealed changes in several mitochondrial transcripts at LP and PB, including several mitochondrial complex subunits and members of the Slc family, important for mitochondrial substrate transport. Respirometry revealed that pyruvate- and glutamate-supported state 3 respiration was significantly higher in PB vs. LP mitochondria, with respiratory control ratio (RCR) values higher in PB mitochondria. In addition, we found that PB mitochondria respired more avidly when given 3-hydroxybutyrate (3-OHB) than mitochondria from NP, MP, and LP hearts, with no differences in RCR. These increases in respiration in PB hearts occurred independent of changes in mitochondrial yield but were associated with higher abundance of 3-hydroxybutyrate dehydrogenase 1. Collectively, these findings suggest that, after birth, maternal cardiac mitochondria have an increased capacity to use 3-OHB, pyruvate, and glutamate as energy sources; however, increases in mitochondrial efficiency in the postpartum heart appear limited to carbohydrate and amino acid metabolism. NEW & NOTEWORTHY Few studies have detailed the physiological adaptations that occur in the maternal heart. We and others have shown that pregnancy-induced cardiac growth is associated with significant changes in cardiac metabolism. Here, we examined mitochondrial respiration and substrate preference in isolated mitochondria from the maternal heart. We show that following birth, cardiac mitochondria are "primed" to respire on carbohydrate, amino acid, and ketone bodies. However, heightened respiratory efficiency is observed only with carbohydrate and amino acid sources. These results suggest that significant changes in mitochondrial respiration occur in the maternal heart in the postpartum period. [ABSTRACT FROM AUTHOR]

Published

2024

11. Low Energy Availability Followed by Optimal Energy Availability Does Not Benefit Performance in Trained Females.

Author

OXFELDT, MIKKEL, MARSI, DANIEL, CHRISTENSEN, PETER M., ANDERSEN, OLE EMIL, JOHANSEN, FRANK TED, BANGSHAAB, MAJ, ANTHINIRISIKESAN, JEY, JEPPESEN, JAN S., HELLSTEN, YLVA, PHILLIPS, STUART M., MELIN, ANNA K., ØRTENBLAD, NIELS, and HANSEN, METTE

Published

2024

12. The genetic association between hyperthyroidism and heart failure: a Mendelian randomization study.

Author

Jun Liu, Gujie Wu, Shuqi Li, Lin Cheng, and Xinping Ye

Subjects

HEART failure, HYPERTHYROIDISM, ENDOCRINE diseases, RANDOMIZATION (Statistics), HEART development, GENETIC markers

Abstract

Background and aims: Hyperthyroidism is an endocrine disease with multiple etiologies and manifestations. Heart failure (HF) is a common, costly, and deadly medical condition in clinical practice. Numerous studies have suggested that abnormal thyroid function can induce or aggravate the development of heart disease. However, no study has demonstrated a causal relationship between hyperthyroidism and heart failure. Therefore, the purpose of this study was to explore the causal link between hyperthyroidism and HF. Methods: Summary data for genetically predicted hyperthyroidism were obtained from a genetic association study. The data examined for genetically determined all-cause heart failure came from 218,208 individuals from the FinnGen Consortium. Two-sample Mendelian randomization (MR) analysis was used to estimate the causal link between hyperthyroidism and heart failure. Statistical analyses were conducted using the inverse variance-weighted, weighted median, simple median, weighted mode, MR-PRESSO (number of distribution = 5000), MR-Egger, and leave-one-out. Results: The results of the inverse-variance weighted analysis indicated a causal association between hyperthyroidism and an increased risk of all-cause heart failure (IVW: b=0.048, OR=1.049, 95%CI: [1.013 to 1.087], P=0.007). Similarly, the weighted median approach demonstrated a positive correlation between hyperthyroidism and all-cause heart failure (OR=1.049, [95% CI, 1.001-1.100]; P=0.044). Additionally, no horizontal pleiotropy or heterogeneity was observed. The leave-one-out analysis revealed that the majority of the SNP-driven associations were not influenced by a single genetic marker. Conclusion: Our study observed a causal relationship between hyperthyroidism and all-cause heart failure. Hyperthyroidism may associate with heart failure genetically. [ABSTRACT FROM AUTHOR]

Published

2024

13. Profiling the Biomechanical Responses to Workload on the Human Myocyte to Explore the Concept of Myocardial Fatigue and Reversibility: Rationale and Design of the POWER Heart Failure Study.

Author

Tran, Patrick, Linekar, Adam, Dandekar, Uday, Barker, Thomas, Balasubramanian, Sendhil, Bhaskara-Pillai, Jain, Shelley, Sharn, Maddock, Helen, and Banerjee, Prithwish

Abstract

It remains unclear why some patients develop heart failure without evidence of structural damage. One theory relates to impaired myocardial energetics and ventricular-arterial decoupling as the heart works against adverse mechanical load. In this original study, we propose the novel concept of myocardial fatigue to capture this phenomenon and aim to investigate this using human cardiomyocytes subjected to a modern work-loop contractility model that closely mimics in vivo cardiac cycles. This proof-of-concept study (NCT04899635) will use human myocardial tissue samples from patients undergoing cardiac surgery to develop a reproducible protocol to isolate robust calcium-tolerant cardiomyocytes. Thereafter, work-loop contractility experiments will be performed over a range of preload, afterload and cycle frequency as a function of time to elicit any reversible reduction in contractile performance (i.e. fatigue). This will provide novel insight into mechanisms behind heart failure and myocardial recovery and serve as a valuable research platform in translational cardiovascular research. [ABSTRACT FROM AUTHOR]

Published

2024

14. Phosphodiesterase in heart and vessels: from physiology to diseases.

Author

Fu, Qin, Wang, Ying, Yan, Chen, and Xiang, Yang K.

Subjects

CYCLIC nucleotides, CYCLIC guanylic acid, CYCLIC adenylic acid, CARDIOVASCULAR system, PHYSIOLOGY, CARDIOVASCULAR diseases

Abstract

Phosphodiesterases (PDEs) are a superfamily of enzymes that hydrolyze cyclic nucleotides, including cyclic adenosine monophosphate (cAMP) and cyclic guanosine monophosphate (cGMP). Both cyclic nucleotides are critical secondary messengers in the neurohormonal regulation in the cardiovascular system. PDEs precisely control spatiotemporal subcellular distribution of cyclic nucleotides in a cell- and tissue-specific manner, playing critical roles in physiological responses to hormone stimulation in the heart and vessels. Dysregulation of PDEs has been linked to the development of several cardiovascular diseases, such as hypertension, aneurysm, atherosclerosis, arrhythmia, and heart failure. Targeting these enzymes has been proven effective in treating cardiovascular diseases and is an attractive and promising strategy for the development of new drugs. In this review, we discuss the current understanding of the complex regulation of PDE isoforms in cardiovascular function, highlighting the divergent and even opposing roles of PDE isoforms in different pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

15. Lactate infusion elevates cardiac output through increased heart rate and decreased vascular resistance: a randomised, blinded, crossover trial in a healthy porcine model.

Author

Hørsdal, Oskar Kjærgaard, Moeslund, Niels, Berg-Hansen, Kristoffer, Nielsen, Roni, Møller, Niels, Eiskjær, Hans, Wiggers, Henrik, and Gopalasingam, Nigopan

Subjects

VASCULAR resistance, CARDIAC output, HEART beat, CROSSOVER trials, PULMONARY artery catheters

Abstract

Background: Lactate is traditionally recognized as a by-product of anaerobic metabolism. However, lactate is a preferred oxidative substrate for stressed myocardium. Exogenous lactate infusion increases cardiac output (CO). The exact mechanism underlying this mechanism has yet to be elucidated. The aim of this study was to investigate the cardiovascular mechanisms underlying the acute haemodynamic effects of exogenous lactate infusion in an experimental model of human-sized pigs. Methods: In this randomised, blinded crossover study in eight 60-kg-pigs, the pigs received infusions with one molar sodium lactate and a control infusion of tonicity matched hypertonic saline in random order. We measured CO and pulmonary pressures using a pulmonary artery catheter. A pressure–volume admittance catheter in the left ventricle was used to measure contractility, afterload, preload and work-related parameters. Results: Lactate infusion increased circulating lactate levels by 9.9 mmol/L (95% confidence interval (CI) 9.1 to 11.0) and CO by 2.0 L/min (95% CI 1.2 to 2.7). Afterload decreased as arterial elastance fell by -1.0 mmHg/ml (95% CI -2.0 to -0.1) and systemic vascular resistance decreased by -548 dynes/s/cm5 (95% CI -261 to -835). Mixed venous saturation increased by 11 percentage points (95% CI 6 to 16), whereas ejection fraction increased by 16.0 percentage points (95% CI 1.1 to 32.0) and heart rate by 21 bpm (95% CI 8 to 33). No significant changes in contractility nor preload were observed. Conclusion: Lactate infusion increased cardiac output by increasing heart rate and lowering afterload. No differences were observed in left ventricular contractility or preload. Lactate holds potential as a treatment in situations with lowered CO and should be investigated in future clinical studies. [ABSTRACT FROM AUTHOR]

Published

2024

16. A novel imaging method (FIM-ID) reveals that myofibrillogenesis plays a major role in the mechanically induced growth of skeletal muscle.

Author

Jorgenson, Kent W., Hibbert, Jamie E., Sayed, Ramy K. A., Lange, Anthony N., Godwin, Joshua S., Mesquita, Paulo H. C., Ruple, Bradley A., McIntosh, Mason C., Kavazis, Andreas N., Roberts, Michael D., and Hornberger, Troy A.

Published

2024

17. Cardiac recovery from pressure overload is not altered by thyroid hormone status in old mice.

Author

Kerp, Helena, Gassen, Janina, Grund, Susanne Camilla, Hönes, Georg Sebastian, Dörr, Stefanie, Mittag, Jens, Härting, Nina, Kaiser, Frank, Moeller, Lars Christian, Lorenz, Kristina, and Führer, Dagmar

Subjects

THYROID hormones, CARDIAC hypertrophy, SLEEP deprivation, CARDIOVASCULAR system, MICE, HEART diseases, THYROID hormone receptors

Abstract

Introduction: Thyroid hormones (THs) are known to have various effects on the cardiovascular system. However, the impact of TH levels on preexisting cardiac diseases is still unclear. Pressure overload due to arterial hypertension or aortic stenosis and aging are major risk factors for the development of structural and functional abnormalities and subsequent heart failure. Here, we assessed the sensitivity to altered TH levels in aged mice with maladaptive cardiac hypertrophy and cardiac dysfunction induced by transverse aortic constriction (TAC). Methods: Mice at the age of 12 months underwent TAC and received T4 or antithyroid medication in drinking water over the course of 4 weeks after induction of left ventricular pressure overload. Results: T4 excess or deprivation in older mice had no or only very little impact on cardiac function (fractional shortening), cardiac remodeling (cardiac wall thickness, heart weight, cardiomyocyte size, apoptosis, and interstitial fibrosis), and mortality. This is surprising because T4 excess or deprivation had significantly changed the outcome after TAC in young 8-week-old mice. Comparing the gene expression of deiodinases (Dio) 2 and 3 and TH receptor alpha (TRα) 1 and the dominant-negative acting isoform TRα2 between young and aged mice revealed that aged mice exhibited a higher expression of TRα2 and Dio3, while expression of Dio2 was reduced compared with young mice. These changes in Dio2 and 3 expressions might lead to reduced TH availability in the hearts of 12- month-old mice accompanied by reduced TRα action due to higher TRα2. Discussion: In summary, our study shows that low and high TH availability have little impact on cardiac function and remodeling in older mice with preexisting pressure-induced cardiac damage. This observation seems to be the result of an altered expression of deiodinases and TRα isoforms, thus suggesting that even though cardiovascular risk is increasing with age, the response to TH stress may be dampened in certain conditions. [ABSTRACT FROM AUTHOR]

Published

2024

18. Strength training improves heart function, collagen and strength in rats with heart failure.

Author

Dias, Leisiane G., Reis, Carlos H. O., dos Santos, Leonardo, Krause Neto, Walter, Lima-Leopoldo, Ana Paula, Baker, Julien S., Leopoldo, André S., and Bocalini, Danilo S.

Abstract

Background/objectives: Myocardial infarction (MI) frequently leads to cardiac remodeling and failure with impaired life quality, playing an important role in cardiovascular deaths. Although physical exercise is a well-recognized effective non-pharmacological therapy for cardiovascular diseases, the effects of strength training (ST) on the structural and functional aspects of cardiac remodeling need to be further documented. In this study, we aimed to investigate the role of a linear block ST protocol in the rat model of MI. Methods and results: After 6 weeks of MI induction or sham surgery, male adult rats performed ST for the following 12 weeks. The ladder-based ST program was organized in three mesocycles of 4 weeks, with one load increment for each block according to the maximal carrying load test. After 12 weeks, the infarcted-trained rats exhibited an increase in performance, associated with reduced cardiac hypertrophy and pulmonary congestion compared with the untrained group. Despite not changing MI size, the ST program partially prevented cardiac dilatation and ventricular dysfunction assessed by echocardiography and hemodynamics, and interstitial fibrosis evaluated by histology. In addition, isolated cardiac muscles from infarcted-trained rats had improved contractility parameters in a steady state, and in response to calcium or stimuli pauses. Conclusions: The ST in infarcted rats increased the capacity to carry mass, associated with attenuation of cardiac remodeling and pulmonary congestion with improving cardiac function that could be attributed, at least in part, to the improvement of myocardial contractility. [ABSTRACT FROM AUTHOR]

Published

2024

19. British Society of Gastroenterology guidelines on sedation in gastrointestinal endoscopy.

Author

Sidhu, Reena, Turnbull, David, Haboubi, Hasan, Leeds, John S., Healey, Chris, Hebbar, Srisha, Collins, Paul, Jones, Wendy, Peerally, Mohammad Farhad, Brogden, Sara, Neilson, Laura J., Nayar, Manu, Gath, Jacqui, Foulkes, Graham, Trudgill, Nigel J., and Penman, Ian

Subjects

CONSCIOUS sedation, INSUFFLATION, GASTROINTESTINAL hemorrhage, SEROTONIN syndrome, MEDICAL personnel, ENDOSCOPY, MEDICAL care, GREENHOUSE gas mitigation, PATIENTS' attitudes

Published

2024

20. Irisin attenuates vascular remodeling in hypertensive mice induced by Ang II by suppressing Ca2+-dependent endoplasmic reticulum stress in VSMCs.

Author

Ru-li Li, Cai-li Zhuo, Xin Yan, He Li, Lan Lin, Ling-yu Li, Qiying Jiang, Die Zhang, Xue-mei Wang, Lin-ling Liu, Wen-jing Huang, Ying-ling Wang, Xin-yue Li, Yan Mao, Yixin Chen, Xiao Liu, Quan-chen Xu, Yu-yan Cai, Xi-jing Yang, and Hong-ying Chen

Published

2024

21. CNDP2: An Enzyme Linking Metabolism and Cardiovascular Diseases?

Author

Ocariza MGC, Paton LN, Templeton EM, Pemberton CJ, Pilbrow AP, and Appleby S

Abstract

The heart requires a substantial amount of energy to function, utilising various substrates including lipids, glucose and lactate as energy sources. In times of increased stress, lactate becomes the primary energy source of the heart, but persistently elevated lactate levels are linked to poor patient outcomes and increased mortality. Recently, carnosine dipeptidase II (CNDP2) was discovered to catalyse the formation of Lac-Phe, an exercise-induced metabolite derived from lactate, which has been shown to suppress appetite in mice and reduce adipose tissue in humans. This review discusses CNDP2, including its role in lactate clearance, carnosine hydrolysis, oxidative stress regulation, and involvement in metabolite regulation. The association between CNDP2 and cardiometabolic and renal diseases is also explored, and knowledge gaps are highlighted. CNDP2 appears to be a complex participant in human physiological processes and disease, necessitating additional research to unveil its functions and potential therapeutic applications., (© 2024. The Author(s).)

Published

2024

22. Administration of USP7 inhibitor p22077 alleviates Angiotensin II (Ang II)-induced atrial fibrillation in Mice.

Author

Wang Y, Gu YH, Ren KW, Xie X, Wang SH, Zhu XX, Wang L, Yang XL, and Bi HL

Subjects

Animals, Mice, Male, Mice, Inbred C57BL, Heart Atria drug effects, Heart Atria metabolism, Heart Atria pathology, Myocytes, Cardiac drug effects, Myocytes, Cardiac metabolism, Humans, Atrial Remodeling drug effects, Atrial Fibrillation metabolism, Atrial Fibrillation chemically induced, Atrial Fibrillation drug therapy, Atrial Fibrillation prevention & control, Angiotensin II, Ubiquitin-Specific Peptidase 7 metabolism

Abstract

Atrial fibrillation (AF), the most common cardiac arrhythmia, is an important contributor to mortality and morbidity. Ubquitin-specific protease 7 (USP7), one of the most abundant ubiquitin-specific proteases (USP), participated in many cellular events, such as cell proliferation, apoptosis, and tumourigenesis. However, its role in AF remains unknown. Here, the mice were treated with Ang II infusion to induce the AF model. Echocardiography was used to measure the atrial diameter. Electrical stimulation was programmed to measure the induction and duration of AF. The changes in atrial remodeling were measured using routine histologic analysis. Here, a significant increase in USP7 expression was observed in Ang II-stimulated atrial cardiomyocytes and atrial tissues, as well as in atrial tissues from patients with AF. The administration of p22077, the inhibitor of USP7, attenuated Ang II-induced inducibility and duration of AF, atrial dilatation, connexin dysfunction, atrial fibrosis, atrial inflammation, and atrial oxidase stress, and then inhibited the progression of AF. Mechanistically, the administration of p22077 alleviated Ang II-induced activation of TGF-β/Smad2, NF-κB/NLRP3, NADPH oxidases (NOX2 and NOX4) signals, the up-regulation of CX43, ox-CaMKII, CaMKII, Kir2.1, and down-regulation of SERCA2a. Together, this study, for the first time, suggests that USP7 is a critical driver of AF and revealing USP7 may present a new target for atrial fibrillation therapeutic strategies., (© 2024. The Author(s), under exclusive licence to The Japanese Society of Hypertension.)

Published

2024

23. Interleukin‑18 binding protein: Biological properties and roles in human and animal immune regulation (Review).

Author

Wang, Fengxue

Subjects

CARRIER proteins, STILL'S disease, INTERLEUKIN-18, MOLECULAR structure

Abstract

IL-18 binding protein (IL-18BP) is a natural regulatory molecule of the proinflammatory cytokine IL-18. It can regulate activity of IL-18 by high affinity binding. The present review aimed to highlight developments, characteristics and functions of IL-18BP. IL-18BP serves biological and anti-pathological roles in treating disease. In humans, it modulates progression of a number of chronic diseases, such as adult-onset Still's disease. The present review summarizes molecular structure, role of IL-18BP in disease and interaction with other proteins in important pathological processes. [ABSTRACT FROM AUTHOR]

Published

2024

24. Tripartite interactions of PKA catalytic subunit and C-terminal domains of cardiac Ca2+ channel may modulate its β-adrenergic regulation

Author

Oz, Shimrit, Keren-Raifman, Tal, Sharon, Tom, Subramaniam, Suraj, Pallien, Tamara, Katz, Moshe, Tsemakhovich, Vladimir, Sholokh, Anastasiia, Watad, Baraa, Tripathy, Debi Ranjan, Sasson, Giorgia, Chomsky-Hecht, Orna, Vysochek, Leonid, Schulz-Christian, Maike, Fecher-Trost, Claudia, Zühlke, Kerstin, Bertinetti, Daniela, Herberg, Friedrich W., Flockerzi, Veit, Hirsch, Joel A., Klussmann, Enno, Weiss, Sharon, and Dascal, Nathan

Published

2024

25. Insights into the prospects of nanobiomaterials in the treatment of cardiac arrhythmia

Author

Lu, Dingkun and Fan, Xiaohan

Published

2024

26. Skeletal Muscle Physiology : An Update to Anatomy and Function

Author

Christopher Myers and Christopher Myers

Subjects

Musculoskeletal system

Abstract

This book provides a comprehensive overview of skeletal muscle structure, function, and regulation at the cellular and molecular levels. In addition, the book covers various topics, such as muscle contraction, energy metabolism, fatigue, adaptation, and plasticity. This book discusses skeletal muscle anatomy and histology and then covers muscle contraction's molecular and cellular mechanisms. Also, it includes an in-depth discussion of the sarcomere, the basic unit of muscle contraction, and the role of calcium in the process of muscle contraction.This book also explores the energy metabolism of skeletal muscle, including the role of ATP, glycogen, and fatty acids in providing energy for muscle contraction. Additionally, the book covers the mechanisms of fatigue, including peripheral and central factors contributing to muscle fatigue.Other topics covered include muscle adaptation to exercise, the molecular and cellular mechanisms of muscle hypertrophy and atrophy, andthe influence of age, sex, and disease on skeletal muscle function.Overall, Skeletal Muscle Physiology: An Update to Anatomy and Function thoroughly explores the structure and function of skeletal muscle, making it an essential resource for students and professionals in exercise science, sports medicine, and physiology.The auto-summaries have been generated by a recursive clustering algorithm via the Dimensions Auto-summarizer by Digital Science handled by Subject Matter Experts and the external editor. The editor of this book selected which SN content should be auto-summarized and decided its order of appearance. Please be aware that the auto-summaries consist of original sentences, but are not representative of its original paper, since we do not show the full length of the publication. Please note that only published SN content is represented here, and that machine-generated books are still at an experimental stage.

Published

2024

27. Preventive Cardiovascular Nursing : Resilience Across the Lifespan for Optimal Cardiovascular Wellness

Author

Sandra B. Dunbar, Lynne T. Braun, Sandra B. Dunbar, and Lynne T. Braun

Subjects

Cardiovascular system--Diseases--Risk factors, Cardiovascular system--Diseases--Nursing, Cardiovascular system--Diseases--Prevention

Abstract

This book provides a comprehensive overview of essential concepts and evidence that guide the practice of contemporary preventive cardiovascular nursing. The sections incorporate a lifespan approach to cardiovascular wellness, and provide perspectives on sources of known and emerging cardiovascular risk factors as well as the spectrum of multidimensional factors including biological, behavioral, psychological and sociocultural influences on cardiovascular wellness, risk, and the evolution of cardiovascular conditions. Unique features address: 1) building resilience across the lifespan such that optimal cardiovascular wellness can be attained within multiple contexts of health states to increase a healthy lifespan and longevity; 2) behavior change skills for risk factor reduction; 3) risk factors and risk reduction approaches with special populations defined by gender,, age and aging, heath states, and health equity issues; and 4) high level roles for cardiovascular nurses as provider - risk assessor, communicator and care provider; educator, leader, patient and health advocate. Relevant case studies are included throughout to facilitate the application of the content. This book fills a gap in that there is no other book on preventive cardiovascular nursing care and roles, and it provides support for the nurse to lead relevant interdisciplinary teams. The book will empower nurses to build knowledge and skills for cardiovascular prevention and to provide leadership for optimal cardiovascular wellness for patients and communities.

Published

2024

28. Hale’s Medications & Mothers’ Milk 2025-2026 : A Manual of Lactational Pharmacology

Author

Thomas W. Hale, RPh, PhD, Kaytlin Krutsch, PhD, PharmD, MBA, BCPS, Thomas W. Hale, RPh, PhD, and Kaytlin Krutsch, PhD, PharmD, MBA, BCPS

Subjects

Breastfeeding, Newborn infants, Breast milk, Drugs--Side effects, Lactation, Chemotherapy, Lactation--Effect of drugs on--Handbooks, manuals, etc, Breast milk--Effect of drugs on--Handbooks, manuals, etc, Breastfeeding--Effect of drugs on--Handbooks, manuals, etc, Maternal-fetal exchange, Newborn infants--Effect of drugs on--Handbooks, manuals, etc

Abstract

Including new drugs for weight loss, heart failure, anxiety, and postpartum depression. OZEMPIC | WEGOVY | ENTRESTRO | AND MORE! Hale's Medications & Mothers'Milk is the ultimate resource for safe medication practices during breastfeeding. This meticulously updated edition offers the most current, evidence-based information available, maintaining its reputation as the definitive standard for medication safety in lactation. Written by world-renowned clinical pharmacologists, the detailed manual helps lactation consultants, pharmacists, and healthcare providers who work with women and children weigh the relative risks associated with commonly used medications, drawing from the latest evidence-based studies. Structured for quick and efficient use, this guide features Dr. Thomas W. Hale's renowned Lactation Risk Categories (LRC), which provide essential insight, listing safe medication alternatives that can be used now or in the future. The manual is intuitively organized to highlight key points, offer practical tips, and present easy-to-understand diagrams, common abbreviations, and concise information for evaluating infant health. This indispensable resource helps healthcare professionals to ensure the safety and well-being of both mother and infant. Embrace the peace of mind that comes with having reliable, expert-vetted knowledge at your fingertips. To ensure you always have the most current information, consider our online or mobile app subscription! Visit halesmeds.com to get started today. New to the 2025-2026 Edition: 66 new drugs 10 drugs with FDA updates 575 updated medications (formerly medications updated with new information) 84 existing drugs with updated LRCs Key Features: Delivers current, evidence-based information on 1,300 drugs, diseases, vaccines, and syndromes in alphabetical order Provides critical updates on weight loss drugs such as Wegovy and Ozempic, heart failure drugs such as Entresto, medications for anxiety, postpartum depression, and much more Incorporates updates to Dr. Hale's world-renowned Lactation Risk Categories (LRC) Discusses adult concerns, adult dose, pediatric concerns, infant monitoring, and drug alternatives

Published

2024