Your search keyword '"Adipogenesis"' showing total 34,668 results

1. Exploring the molecular pathways of the activation process in PPARγ recurrent bladder cancer mutants.

Author

de Oliveira, Vinícius M., Malospirito, Caique C., da Silva, Fernando B., Videira, Natália B., Dias, Marieli M. G., Sanches, Murilo N., Leite, Vitor B. P., and Figueira, Ana Carolina M.

Subjects

*GAIN-of-function mutations, *BLADDER cancer, *ADIPOGENESIS, *CHEMINFORMATICS, *HOMEOSTASIS

Abstract

The intricate involvement of Peroxisome Proliferator-Activated Receptor Gamma (PPARγ) in glucose homeostasis and adipogenesis is well-established. However, its role in cancer, particularly luminal bladder cancer, remains debated. The overexpression and activation of PPARγ are implicated in tumorigenesis. Specific gain-of-function mutations (M280I, I290M, and T475M) within the ligand-binding domain of PPARγ are associated with bladder cancer and receptor activation. The underlying molecular pathways prompted by these mutations remain unclear. We employed a dual-basin structure-based model (db-SBM) to explore the conformational dynamics between the inactive and active states of PPARγ and examined the effects of the M280I, I290M, and T475M mutations. Our findings, consistent with the existing literature, reveal heightened ligand-independent transcriptional activity in the I290M and T475M mutants. Both mutants showed enhanced stabilization of the active state compared to the wild-type receptor, with the I290M mutation promoting a specific transition route, making it a prime candidate for further study. Electrostatic analysis identified residues K303 and E488 as pivotal in the I290M activation cascade. Biophysical assays confirmed that disrupting the K303–E488 interaction reduced the thermal stabilization characteristic of the I290M mutation. Our study demonstrates the predictive capabilities of combining simulation and cheminformatics methods, validated by biochemical experiments, to gain insights into molecular activation mechanisms and identify target residues for protein modulation. [ABSTRACT FROM AUTHOR]

Published

2024

2. Stem cell secretome treatment improves whole-body metabolism, reduces adiposity, and promotes skeletal muscle function in aged mice.

Author

Fennel, Zachary, Bourrant, Paul-Emile, Kurian, Anu, Petrocelli, Jonathan, de Hart, Naomi, Yee, Elena, Boudina, Sihem, Keirstead, Hans, Nistor, Gabrielle, Greilach, Scott, Berchtold, Nicole, Lane, Thomas, and Drummond, Micah

Subjects

adipogenesis, fibrosis, lipids, metabolic rate, sarcopenia, stem cells, Animals, Muscle, Skeletal, Male, Adiposity, Mice, Mice, Inbred C57BL, Aging, Secretome, Stem Cells

Abstract

Aging coincides with the progressive loss of muscle mass and strength, increased adiposity, and diminished physical function. Accordingly, interventions aimed at improving muscle, metabolic, and/or physical health are of interest to mitigate the adverse effects of aging. In this study, we tested a stem cell secretome product, which contains extracellular vesicles and growth, cytoskeletal remodeling, and immunomodulatory factors. We examined the effects of 4 weeks of 2×/week unilateral intramuscular secretome injections (quadriceps) in ambulatory aged male C57BL/6 mice (22-24 months) compared to saline-injected aged-matched controls. Secretome delivery substantially increased whole-body lean mass and decreased fat mass, corresponding to higher myofiber cross-sectional area and smaller adipocyte size, respectively. Secretome-treated mice also had greater whole-body physical function (grip strength and rotarod performance) and had higher energy expenditure and physical activity levels compared to control mice. Furthermore, secretome-treated mice had greater skeletal muscle Pax7+ cell abundance, capillary density, collagen IV turnover, reduced intramuscular lipids, and greater Akt and hormone sensitive lipase phosphorylation in adipose tissue. Finally, secretome treatment in vitro directly enhanced muscle cell growth and IL-6 production, and in adipocytes, it reduced lipid content and improved insulin sensitivity. Moreover, indirect treatment with secretome-treated myotube culture media also enhanced muscle cell growth and adipocyte size reduction. Together, these data suggest that intramuscular treatment with a stem cell secretome improves whole-body metabolism, physical function, and remodels skeletal muscle and adipose tissue in aged mice.

Published

2024

3. Sexual dimorphism and the multi-omic response to exercise training in rat subcutaneous white adipose tissue

Author

Many, Gina M, Sanford, James A, Sagendorf, Tyler J, Hou, Zhenxin, Nigro, Pasquale, Whytock, Katie L, Amar, David, Caputo, Tiziana, Gay, Nicole R, Gaul, David A, Hirshman, Michael F, Jimenez-Morales, David, Lindholm, Malene E, Muehlbauer, Michael J, Vamvini, Maria, Bergman, Bryan C, Fernández, Facundo M, Goodyear, Laurie J, Hevener, Andrea L, Ortlund, Eric A, Sparks, Lauren M, Xia, Ashley, Adkins, Joshua N, Bodine, Sue C, Newgard, Christopher B, and Schenk, Simon

Subjects

Medical Biochemistry and Metabolomics, Medical Physiology, Biomedical and Clinical Sciences, Nutrition and Dietetics, Physical Activity, Women's Health, Prevention, Behavioral and Social Science, Animals, Male, Female, Physical Conditioning, Animal, Rats, Sex Characteristics, Adipose Tissue, White, Subcutaneous Fat, Adipogenesis, Rats, Sprague-Dawley, Multiomics, MoTrPAC Study Group, Medical biochemistry and metabolomics, Medical physiology, Nutrition and dietetics

Abstract

Subcutaneous white adipose tissue (scWAT) is a dynamic storage and secretory organ that regulates systemic homeostasis, yet the impact of endurance exercise training (ExT) and sex on its molecular landscape is not fully established. Utilizing an integrative multi-omics approach, and leveraging data generated by the Molecular Transducers of Physical Activity Consortium (MoTrPAC), we show profound sexual dimorphism in the scWAT of sedentary rats and in the dynamic response of this tissue to ExT. Specifically, the scWAT of sedentary females displays -omic signatures related to insulin signaling and adipogenesis, whereas the scWAT of sedentary males is enriched in terms related to aerobic metabolism. These sex-specific -omic signatures are preserved or amplified with ExT. Integration of multi-omic analyses with phenotypic measures identifies molecular hubs predicted to drive sexually distinct responses to training. Overall, this study underscores the powerful impact of sex on adipose tissue biology and provides a rich resource to investigate the scWAT response to ExT.

Published

2024

4. Transcription factor PATZ1 promotes adipogenesis by controlling promoter regulatory loci of adipogenic factors

Author

Patel, Sanil, Ganbold, Khatanzul, Cho, Chung Hwan, Siddiqui, Juwairriyyah, Yildiz, Ramazan, Sparman, Njeri, Sadeh, Shani, Nguyen, Christy M, Wang, Jiexin, Whitelegge, Julian P, Fried, Susan K, Waki, Hironori, Villanueva, Claudio J, Seldin, Marcus M, Sakaguchi, Shinya, Ellmeier, Wilfried, Tontonoz, Peter, and Rajbhandari, Prashant

Subjects

Biochemistry and Cell Biology, Bioinformatics and Computational Biology, Biological Sciences, Human Genome, Stem Cell Research - Nonembryonic - Non-Human, Obesity, Stem Cell Research, Nutrition, Biotechnology, Diabetes, Genetics, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Affordable and Clean Energy, Animals, Female, Humans, Male, Mice, 3T3-L1 Cells, Adipocytes, Adipogenesis, Adipose Tissue, White, Cell Differentiation, Gene Expression Regulation, Mice, Inbred C57BL, Promoter Regions, Genetic, Transcription Factors

Abstract

White adipose tissue (WAT) is essential for lipid storage and systemic energy homeostasis. Understanding adipocyte formation and stability is key to developing therapies for obesity and metabolic disorders. Through a high-throughput cDNA screen, we identified PATZ1, a POZ/BTB and AT-Hook Containing Zinc Finger 1 protein, as an important adipogenic transcription factor. PATZ1 is expressed in human and mouse adipocyte precursor cells (APCs) and adipocytes. In cellular models, PATZ1 promotes adipogenesis via protein-protein interactions and DNA binding. PATZ1 ablation in mouse adipocytes and APCs leads to a reduced APC pool, decreased fat mass, and hypertrophied adipocytes. ChIP-Seq and RNA-seq analyses show that PATZ1 supports adipogenesis by interacting with transcriptional machinery at the promoter regions of key early adipogenic factors. Mass-spec results show that PATZ1 associates with GTF2I, with GTF2I modulating PATZ1's function during differentiation. These findings underscore PATZ1's regulatory role in adipocyte differentiation and adiposity, offering insights into adipose tissue development.

Published

2024

5. Glucocorticoid signaling and the impact of high-fat diet on adipogenesis in vivo

Author

Babel, Noah K and Feldman, Brian J

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Obesity, Nutrition, 2.1 Biological and endogenous factors, Underpinning research, Aetiology, 1.1 Normal biological development and functioning, Metabolic and endocrine, Cardiovascular, Cancer, Humans, Adipogenesis, Glucocorticoids, Diet, High-Fat, Adipocytes, Endocrinology & Metabolism, Clinical sciences

Abstract

Our research used glucocorticoids as a medically relevant molecular probe to identify a previously unrecognized ADAMTS1-PTN-Wnt pathway. We elucidated the role of this pathway in regulating adipose precursor cell (APC) behavior to either proliferate or differentiate in response to systemic cues, such as elevated caloric intake. Further, our studies identified the non-muscle myosin protein MYH9 as a key target of this pathway to modulate adipogenesis in vivo. These findings enable strategies toward developing novel therapeutics for obesity and related metabolic disorders.

Published

2024

6. Is choline kinase alpha a drug target for obesity?

Author

Lacal, Juan Carlos, Ibrahim, Salam A., and Zimmerman, Tahl

Abstract

Choline kinase alpha (ChoKα) is a therapeutic target being developed for a variety of diseases, from cancer to rheumatoid arthritis and from parasites to bacterial infections. Nevertheless, the therapeutic potential of this drug target seems not exhausted and may end up as a possible solution for a larger variety of conditions. Here we present our working model for how ChoKα could play a role in obesity and for how drugs being developed as therapeutics for other diseases using ChoKα as a target, could be repurposed as prophylactic treatments for obesity. We also present preliminary observations in support of our model. [ABSTRACT FROM AUTHOR]

Published

2024

7. Impacts of time‐restricted feeding on middle‐aged and old mice with obesity.

Author

Yang, Yueze and Liu, Dexi

Subjects

*OBESITY, *HOMEOSTASIS, *ADIPOGENESIS, *INSULIN resistance, *LABORATORY mice

Abstract

Time‐restricted feeding is known to ameliorate obesity in young mice. However, evaluation of its effect in old age is still lacking. The current work aims to investigate the effects of time‐restricted feeding on treating pre‐existing obesity in old animals. The study utilized middle‐aged and old high fat diet‐induced obese mice and subjected them to 8 h daily time‐restricted feeding. Aged obese mice did not lose fat mass but lost lean mass after 8 weeks of treatment. In addition, time‐restricted feeding reduced adiposity in brown adipose tissue, reversed excessive hepatic lipid accumulation, and improved glucose homeostasis in middle‐aged and old obese mice. Mechanistic studies show that these metabolic benefits were mediated by transcriptional downregulation of essential genes responsible for hepatic adipogenesis and adipose tissue chronic inflammation. These results demonstrate that time‐restricted feeding improves metabolic health and has beneficial effects in combating diet‐induced obesity in aged obese mice. Key points: Contrary to in young obese mice, in old obese mice time‐restricted feeding did not significantly reduce body fat but decreased lean mass.Time‐restricted feeding reduced adipose tissue inflammation, reversed fatty liver, and improved glucose homeostasis in aged mice with diet‐induced obesity.Time‐restricted feeding is effective in improving metabolic homeostasis in aged mice, but less effective in terms of reducing obesity. Future studies should investigate the underlying mechanism of how ageing impaired intermittent fasting induced fat loss. [ABSTRACT FROM AUTHOR]

Published

2024

8. Unraveling the metabolic activities of bioactive compounds on cellular models of hepatosteatosis and adipogenesis through docking analysis with PPARs.

Author

Diab, Farah, Zbeeb, Hawraa, Zeaiter, Lama, Baldini, Francesca, Pagano, Aldo, Minicozzi, Velia, and Vergani, Laura

Abstract

Obesity is associated with fatty liver disease. Available therapies show modest efficacy, and nutraceuticals with good effectiveness and safety are largely investigated. We focused on five natural compounds, three plant phenolic compounds (carvacrol, rosmarinic acid, silybin), and two thyroid hormones (T2: 3,5-diiodo-l-thyronine; T3: 3,5,3'-triiodo-L-thyronine) as comparison, to assess their beneficial effects on two cellular models of hepatosteatosis and adipogenesis. All compounds ameliorated the lipid accumulation and oxidative stress in both models, but with different potencies. The peroxisome proliferator-activated receptors (PPARs) are pivotal controllers of adipogenesis and lipid metabolism. For the main isoforms, PPARγ and PPARa, we assessed their possible binding to the compounds by molecular docking calculations, and their expression pattern by real-time PCR. All compounds bind both PPARs with different affinity, while not all compounds affect their expression. The results may clarify the distinctive molecular mechanisms underlying the action of the five compounds in the different cell models with possible applications to treat obesity. [ABSTRACT FROM AUTHOR]

Published

2024

9. Effect of Thai Herbal Remedy NL Inhibits Lipid Accumulation on 3T3‐L1 Adipocyte Cells.

Author

Warinhomhoun, Sakan, Viwatpinyo, Kittikun, Nokkaew, Nuttikarn, Limcharoen, Thanchanok, Ngamdokmai, Ngamrayu, and Natalini, Benedetto

Subjects

*PANCREATIC enzymes, *HERBAL medicine, *REGULATION of body weight, *NATURAL products, *ADIPOGENESIS

Abstract

Obesity is a global health concern, steadily rising and posing risks to various health conditions. Despite available antiobesity drugs, their withdrawal due to severe side effects highlights the need for safer alternatives. Natural products, particularly mixed herbal formulations, present a promising avenue in obesity research. This study aimed to investigate the potential antiobesity effects of the NL herbal formula, a traditional remedy in Nakhon Si Thammarat, Thailand, composed of nine herbs. The specific focus was on the inhibitory effects on α‐glucosidase and pancreatic lipase enzyme activities, adipogenesis inhibition and lipolysis promotion. NL extract was phytochemically analyzed and assessed for its inhibitory effects on α‐glucosidase and pancreatic lipase. Its impact on lipid accumulation and glycerol release was also evaluated. Phytochemical analysis using liquid chromatography–tandem mass spectrometry (LC/MS‐MS) identified piperine as the major compound in the NL extract. NL extract exhibited significant inhibition of α‐glucosidase, moderate pancreatic lipase inhibition, and dose‐dependent reduction in fat accumulation and triglyceride content. Glycerol release increased compared to the control, indicating potential benefits in weight management. This research underscores the potential of the NL formula in combating obesity through its effects on adipogenesis, lipolysis, and enzyme activities. Further investigations into the molecular mechanisms are warranted to fully elucidate its therapeutic potential. [ABSTRACT FROM AUTHOR]

Published

2024

10. Crosstalk between adipogenesis and aging: role of polyphenols in combating adipogenic-associated aging.

Author

Al-Regaiey, Khalid

Subjects

*HORMONE regulation, *ADIPOSE tissues, *AMP-activated protein kinases, *HISTONE methylation, *DNA methylation

Abstract

In the last forty years, the number of people over 60 years of age has increased significantly owing to better nutrition and lower rates of infectious diseases in developing countries. Aging significantly impacts adipose tissue, which plays crucial role in hormone regulation and energy storage. This can lead to imbalances in glucose, and overall energy homeostasis within the body. Aging is irreversible phenomena and potentially causing lipid infiltration in other organs, leading to systemic inflammation, metabolic disorders. This review investigates various pathways contributing to aging-related defects in adipogenesis, such as changes in adipose tissue function and distribution. Polyphenols, a diverse group of natural compounds, can mitigate aging effects via free radicals, oxidative stress, inflammation, senescence, and age-related diseases. Polyphenols like resveratrol, quercetin and EGCG exhibit distinct mechanisms and regulate crucial pathways, such as the TGF-β, AMPK, Wnt, PPAR-γ, and C/EBP transcription factors, and influence epigenetic modifications, such as DNA methylation and histone modification. This review highlights the critical importance of understanding the intricate relationship between aging and adipogenesis for optimizing well-being with increasing age. These findings highlight the therapeutic potential of polyphenols like quercetin and resveratrol in enhancing adipose tissue function and promoting healthy aging. [ABSTRACT FROM AUTHOR]

Published

2024

11. Adipocytes reprogram the proteome of breast cancer cells in organotypic three-dimensional cell cultures.

Author

Tovar-Hernández, Karla, Salinas-Vera, Yarely M., Carlos-Reyes, Ángeles, García-Hernández, Alejandra P., Marchat, Laurence A., Mandujano-Lázaro, Gilberto, Ríos-Castro, Emmanuel, Velasco-Suárez, Andrea, Mendez-Gómez, Ivonne, Tecalco-Cruz, Ángeles C., Ibarra-Sierra, Eloisa, and López-Camarillo, César

Subjects

*MICROPHYSIOLOGICAL systems, *CANCER cell culture, *FAT cells, *CELL anatomy, *TUMOR proteins, *CELL culture, *ADIPOGENESIS

Abstract

While epidemiological evidence has long linked obesity with an increased risk of breast cancer, the intricate interactions between adipocytes and cancer cells within the tumor microenvironment remain largely uncharted territory. The use of organotypic three-dimensional (3D) cell cultures that more accurately mimic the spatial architecture of tumors represents an innovative approach to this complex issue. In the present study, we investigated the effects of adipocytes on the proteome of Hs578t breast cancer cells cultured in a 3D microenvironment. Using different treatments, we rigorously optimized the experimental conditions to induce the optimal differentiation of 3T3-L1 fibroblasts into mature adipocytes. Then, we grow the Hs578t cells in a simulated microenvironment using an on-top model for organotypic 3D cultures. Our data showed that cancer cells formed 3D stellate-like architectures when grown over an extracellular matrix proteins-enriched scaffold for 48 h. Proteomic profiling using LC-MS/MS mass spectrometry of Hs578t cells grown in 3D conditions with or without the adipocyte-enriched culture discovered 916 unique proteins. Of these, 605 showed no significant changes in abundance, whereas 87 proteins were significantly upregulated and 224 downregulated after interaction with fat cells (p < 0.05, FC > 2.0). Bioinformatic analysis of upregulated proteins indicated that the most enriched GO terms and molecular functions were related to lipids transport, cell differentiation, hypoxia response, and cell junctions. In addition, several modulated proteins have been previously associated with breast cancer progression. Interestingly, lipid transport proteins, including PITPNM2, ATP2C1, ABCA12, HDLBP, and APOB, showed perturbations in their expression, which were also associated with low overall survival in breast cancer patients. Functional studies showed that the knockdown of apolipoprotein B (APOB) expression in Hs578t cells reduced the size of 3D cellular structures. Moreover, APOB-knocked cells cocultured with adipocytes for 48 h exhibited a significant decrease of intracellular lipids, whereas an increase in the adipocytes was found. Our results indicate that the 3D microenvironment and the adipocytes crosstalk reprogram the proteome of breast cancer cells. These data help us understand the environmental effects in gene expression and contribute to discovering novel tumor proteins with potential intervention in breast cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2024

12. Energy Landscape Reveals the Underlying Mechanism of Cancer‐Adipose Conversion in Gene Network Models.

Author

Chen, Zihao, Lu, Jia, Zhao, Xing‐Ming, Yu, Haiyang, and Li, Chunhe

Subjects

*GENE regulatory networks, *GENE conversion, *SYSTEMS biology, *CANCER cells, *CELL lines, *ADIPOGENESIS

Abstract

Cancer is a systemic heterogeneous disease involving complex molecular networks. Tumor formation involves an epithelial‐mesenchymal transition (EMT), which promotes both metastasis and plasticity of cancer cells. Recent experiments have proposed that cancer cells can be transformed into adipocytes via a combination of drugs. However, the underlying mechanisms for how these drugs work, from a molecular network perspective, remain elusive. To reveal the mechanism of cancer‐adipose conversion (CAC), this study adopts a systems biology approach by combing mathematical modeling and molecular experiments, based on underlying molecular regulatory networks. Four types of attractors are identified, corresponding to epithelial (E), mesenchymal (M), adipose (A) and partial/intermediate EMT (P) cell states on the CAC landscape. Landscape and transition path results illustrate that intermediate states play critical roles in the cancer to adipose transition. Through a landscape control approach, two new therapeutic strategies for drug combinations are identified, that promote CAC. These predictions are verified by molecular experiments in different cell lines. The combined computational and experimental approach provides a powerful tool to explore molecular mechanisms for cell fate transitions in cancer networks. The results reveal underlying mechanisms of intermediate cell states that govern the CAC, and identified new potential drug combinations to induce cancer adipogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

13. Erratum: Addressing chemically-induced obesogenic metabolic disruption: selection of chemicals for in vitro human PPARα, PPARγ transactivation, and adipogenesis test methods.

Subjects

PEROXISOME proliferator-activated receptors, MOLECULAR structure, BENZOIC acid, ADIPOGENESIS, TEST methods, CHLORPYRIFOS, TRICLOSAN, EICOSAPENTAENOIC acid, ESSENTIAL fatty acids

Abstract

The document is a correction notice for a study on chemically-induced obesogenic metabolic disruption, focusing on the selection of chemicals for in vitro human PPARα, PPARγ transactivation, and adipogenesis test methods. It highlights a production error in Tables 2A–C, where molecular structures were incorrectly placed. The corrected tables provide detailed information on selected chemicals, their activity bands, and uses in various industries, pharmaceuticals, and pesticides. [Extracted from the article]

Published

2024

14. Addressing chemically-induced obesogenic metabolic disruption: selection of chemicals for in vitro human PPARα, PPARγ transactivation, and adipogenesis test methods.

Author

Ozcagli, Eren, Kubickova, Barbara, and Jacobs, Miriam N.

Subjects

WHITE adipose tissue, PEROXISOME proliferator-activated receptors, LITERATURE reviews, TEST methods, OBESOGENIC environment

Abstract

Whilst western diet and sedentary lifestyles heavily contribute to the global obesity epidemic, it is likely that chemical exposure may also contribute. A substantial body of literature implicates a variety of suspected environmental chemicals in metabolic disruption and obesogenic mechanisms. Chemically induced obesogenic metabolic disruption is not yet considered in regulatory testing paradigms or regulations, but this is an internationally recognised human health regulatory development need. An early step in the development of relevant regulatory test methods is to derive appropriate minimum chemical selection lists for the target endpoint and its key mechanisms, such that the test method can be suitably optimised and validated. Independently collated and reviewed reference and proficiency chemicals relevant for the regulatory chemical universe that they are intended to serve, assist regulatory test method development and validation, particularly in relation to the OECD Test Guidelines Programme. To address obesogenic mechanisms and modes of action for chemical hazard assessment, key initiating mechanisms include molecular-level Peroxisome Proliferator-Activated Receptor (PPAR) α and γ agonism and the tissue/organ-level key event of perturbation of the adipogenesis process that may lead to excess white adipose tissue. Here we present a critical literature review, analysis and evaluation of chemicals suitable for the development, optimisation and validation of human PPARα and PPARγ agonism and human white adipose tissue adipogenesis test methods. The chemical lists have been derived with consideration of essential criteria needed for understanding the strengths and limitations of the test methods. With a weight of evidence approach, this has been combined with practical and applied aspects required for the integration and combination of relevant candidate test methods into test batteries, as part of an Integrated Approach to Testing and Assessment for metabolic disruption. The proposed proficiency and reference chemical list includes a long list of negatives and positives (20 chemicals for PPARα, 21 for PPARγ, and 11 for adipogenesis) from which a (pre-)validation proficiency chemicals list has been derived. [ABSTRACT FROM AUTHOR]

Published

2024

15. Extracellular matrix modulates depot-specific adipogenic capacity in adipose tissue of dairy cattle.

Author

Fiallo Diez, J.F., Tegeler, A.P., Flesher, C.G., Michelotti, T.C., Ford, H., Hoque, M.N., Bhattarai, B., Benitez, O.J., Christopher, G.F., and Strieder-Barboza, C.

Subjects

*ADIPOGENESIS, *EXTRACELLULAR matrix, *ADIPOSE tissues, *FREE fatty acids, *PROGENITOR cells, *GENE expression

Abstract

Adipose tissue (AT) expands through both hyperplasia and hypertrophy. During adipogenesis, adipose stromal and progenitor cells (ASPC) proliferate and then accumulate lipids, influenced by the local AT microenvironment. Increased adipogenic capacity is desirable as it relates to metabolic health, especially in transition dairy cows where excess free fatty acids in circulation can compromise metabolic and immune health. Our aim was to elucidate the depot-specific adipogenic capacity and extracellular matrix (EMX) properties of subcutaneous (SAT) and visceral (VAT) AT of dairy cows and define how the EMX affects adipogenesis. Flank SAT and omental VAT samples were collected from dairy cows in a local abattoir. Tissue samples were used for transcriptome analysis, targeted real-time quantitative PCR (RT-qPCR) for adipogenic markers, adipocyte sizing, assessment of viscoelastic properties and collagen accumulation, and then decellularized for native EMX isolation. For in vitro analyses, SAT and VAT samples were digested via collagenase, and ASPC cultured for metabolic analysis. Adipogenic capacity was assessed by adipocyte size, quantification of ASPC in stromal vascular fraction (SVF) via flow cytometry, and gene expression of adipogenic markers. In addition, functional assays including lipolysis and glucose uptake were performed to further characterize SAT and VAT adipocyte metabolic function. Data were analyzed using SAS (version 9.4; SAS Institute Inc., Cary, NC) and GraphPad Prism 9. Subcutaneous AT adipogenic capacity was greater than VAT's, as indicated by increased ASPC abundance, increased magnitude of adipocyte ADIPOQ and FASN expression during differentiation, and higher adipocyte lipid accumulation as shown by an increased proportion of larger adipocytes and abundance of lipid droplets. Rheologic analysis revealed that VAT is stiffer than SAT, which led us to hypothesize that differences between SAT and VAT adipogenic capacity were partly mediated by depot-specific EMX microenvironment. Thus, we studied depot-specific EMX-adipocyte crosstalk using a 3-dimensional model with native EMX (decellularized AT). Subcutaneous AT and VAT ASPC were cultured and differentiated into adipocytes within depot-matched and mismatched EMX for 14 d, followed by ADIPOQ expression analysis. Visceral AT EMX impaired ADIPOQ expression in SAT cells. Our results demonstrate that SAT is more adipogenic than VAT and suggest that divergences between SAT and VAT adipogenesis are partially mediated by the depot-specific EMX microenvironment. The list of standard abbreviations for JDS is available at adsa.org/jds-abbreviations-24. Nonstandard abbreviations are available in the Notes. [ABSTRACT FROM AUTHOR]

Published

2024

16. Purple Butter Clam (Saxidomus Purpurata) as a Potential Functional Food Source for Obesity Treatment.

Author

Dayarathne, Lakshi A., Jasmadi, Ko, Seok-Chun, Yim, Mi-Jin, Lee, Jeong Min, Kim, Ji-Yul, Oh, Gun-Woo, Kim, Chul Hwan, Kim, Kyung Woo, Lee, Dae-Sung, Jung, Won-Kyo, and Je, Jae-Young

Subjects

*LIPID metabolism, *SEAFOOD, *CYTOSOL, *LIPID metabolism disorders, *PHOSPHORYLATION, *RESEARCH funding, *CELL physiology, *LIPIDS, *GLYCERIN, *FAT cells, *FUNCTIONAL foods, *AMP-activated protein kinases, *TRANSCRIPTION factors, *GENE expression, *ANTIOBESITY agents, *GENETIC disorders, *LIPASES, *MOLLUSKS, *TRIGLYCERIDES, *MOLECULAR biology, *OBESITY, *WNT proteins, *BIOMARKERS, *PHARMACODYNAMICS

Abstract

Saxidomus purpurata extract (SPE) is a highly consumable seafood worldwide with known health-related benefits. However, there are no reports of its' anti-obesity effect. This study explores the potential of SPE for anti-obesity effects by modulating adipogenesis and lipolysis. SPE reduced intracellular lipid and triglyceride accumulation while increasing free glycerol release in adipocytes. SPE inhibited lipogenesis protein expressions and increased the phosphorylation of hormone-sensitive lipase and Adenosine monophosphate-activated protein kinase (AMPK) to promote lipolysis. In addition, SPE suppressed adipogenesis by downregulating protein expression of key adipogenic markers, peroxisome proliferator-activated receptor gamma (PPARγ), CCAAT/enhancer-binding protein α (C/EBPα), and sterol regulatory element-binding protein 1 (SREBP1) via Wnt/β-catenin signaling. SPE augmented the heme oxygenase-1 (HO-1) expression. Thus, pharmacological intervention with Zinc protoporphyrin (ZnPP-HO-1 antagonist) was employed to validate the HO-1 role. The presence of ZnPP increased the lipid accumulation and reduced the free glycerol release. At the molecular level, adipogenic transcription factors (PPARγ, C/EBPα, and SREBP1) expressions were restored in the presence of ZnPP. GC-MS analysis revealed that SPE was comprised of several fatty acids, contributing to its anti-obesity activity. SPE is an effective nutraceutical that can be used to reduce the progression of obesity. HO-1 expression during adipogenesis might be the mechanism of action for the anti-obesity effect of SPE. [ABSTRACT FROM AUTHOR]

Published

2024

17. Therapeutic role of physalin A in the pathogenesis of Graves’ orbitopathy.

Author

Kim, Eunjin, Kim, Ji-Young, Choi, Soo Hyun, Park, Hyun Young, Ko, JaeSang, and Yoon, Jin Sook

Subjects

*CELL adhesion molecules, *SOMATOMEDIN, *CARRIER proteins, *WESTERN immunoblotting, *B cells

Abstract

AbstractBackgroundMethodsResultsConclusionsGraves’ orbitopathy (GO) is an autoimmune condition that causes serious ocular symptoms; its treatment strategies are limited. Physalin A is a phytosterol that has shown various therapeutic properties, including anti-inflammatory and anti-fibrotic effects. In this study, we investigated whether physalin A could inhibit inflammation, fibrosis, hyaluronan (hyaluronic acid) production, and adipogenesis, which are crucial to the pathogenesis of GO.Orbital tissue explants were obtained from patients with GO during orbital decompression surgery and healthy controls. Orbital fibroblasts (OFs) were isolated and treated with different concentrations of physalin A. Using western blot and ELISA analyses, we determined the effects of physalin A on OFs.Physalin A treatment suppressed the production of interleukin (IL)-1β-induced prostaglandin E2 (PGE2) and pro-inflammatory molecules, including cyclooxygenase (COX)-2, IL-6, IL-8, and intercellular adhesion molecule (ICAM)-1. We discovered that physalin A attenuated hyaluronan production induced by IL-1β or insulin-like growth factor (IGF)-1. Moreover, physalin A reduced lipid droplet formation and production of peroxisome proliferator activator (PPAR) γ, CCAAT-enhancer-binding protein (C/EBP) α, C/EBP β, sterol regulatory element binding protein (SREBP)-1, leptin, and adiponectin proteins. Physalin A suppressed the phosphorylation of extracellular signal-related kinase (ERK), nuclear factor kappa-light-chain-enhancer of activated B cells (NFκB), and suppressor of mothers against decapentaplegic (SMAD) 2 signaling protein.Our study suggests that the major mechanisms by which physalin A suppresses GO include reducing inflammation, fibrosis, hyaluronan production, and adipogenesis in OFs. The findings of this study provide evidence of the therapeutic effect of physalin A in GO. [ABSTRACT FROM AUTHOR]

Published

2024

18. Determination of adipogenesis stages of human umbilical cord-derived mesenchymal stem cells using three-dimensional label-free holotomography.

Author

Bhatta, Mahesh Prakash, Won, Gun-Woo, Lee, Seung Hoon, Choi, Seung-Hyeon, Oh, Cheong-Hae, Moon, Ji Hyun, Hoang, Hong-Hoa, Lee, Jaehyeok, Lee, Sang Do, and Park, Jong-Il

Subjects

*FATTY acid-binding proteins, *PEROXISOME proliferator-activated receptors, *MESENCHYMAL stem cells, *CELL imaging, *REFRACTIVE index, *ADIPOGENESIS

Abstract

[Display omitted] • Morphological Biomarkers of adipogenesis stages was established with holotomography. • Quantified lipid droplets, cellular shape, and nuclear features distinguish stages. • Human UC-MSCs were employed to create markers, offering a non-invasive approach. Adipogenesis involves complex changes in gene expression, morphology, and cytoskeletal organization. However, the quantitative analysis of live cell images to identify their stages through morphological markers is limited. Distinct adipogenesis markers on human umbilical cord-derived mesenchymal stem cells (UC-MSCs) were identified through holotomography, a label-free live cell imaging technique. In the MSC-to-preadipocyte transition, the nucleus-to-cytoplasm ratio (0.080 vs. 0.052) and lipid droplet (LD) refractive index variation decreased (0.149 % vs. 0.061 %), whereas the LD number (20 vs. 65) increased. This event was also accompanied by the downregulation and upregulation of THY1 and Preadipocyte Factor-1 (PREF-1), respectively. In the preadipocyte to immature adipocyte shift, cell sphericity (0.20 vs. 0.43) and LD number (65 vs. 200) surged, large LDs (>10 μm3) appeared, and the major axis of the cell was reduced (143.7 μm vs. 83.12 μm). These findings indicate features of preadipocyte and immature adipocyte stages, alongside the downregulation of PREF-1 and upregulation of Peroxisome Proliferator-Activated Receptor gamma (PPARγ). In adipocyte maturation, along with PPARγ and Fatty Acid-Binding Protein 4 upregulation, cell compactness (0.15 vs. 0.29) and sphericity (0.43 vs. 0.59) increased, and larger LDs (>30 μm3) formed, marking immature and mature adipocyte stages. The study highlights the distinct adipogenic morphological biomarkers of adipogenesis stages in UC-MSCs, providing potential applications in biomedical and clinical settings, such as fostering innovative medical strategies for treating metabolic disease. [ABSTRACT FROM AUTHOR]

Published

2024

19. The expression of NFAT family genes in subcutaneous adipose tissue before and after weight loss in obese individuals.

Author

Danowska, Magdalena, Stefanowicz, Magdalena, and Strączkowski, Marek

Abstract

Adipose tissue (AT) serves as a vital energy storage site and plays a pivotal role in metabolic regulation, exhibiting a high response to insulin. Impairment in this response may closely associate with obesity, and NFAT (nuclear factor of activated T cells) family genes may be involved in the process. However, human data linking NFAT and AT remains elusive. The aim of this study was to assess the expression of NFAT family genes and markers of adipogenesis in subcutaneous adipose tissue (SAT) among normal-weight and overweight/obese individuals before and after weight loss, in relation to insulin sensitivity. The study included 45 participants, 15 normal-weight (control group) and 30 overweight or obese, who underwent a 12-week dietary intervention (DI) program. Before and after the program hyperinsulinemic-euglycemic clamp and SAT biopsy were conducted. Before DI, a positive correlations was observed in the expression of NFATc1 , NFATc4 , and NFAT5 with insulin sensitivity. The expression of NFAT family genes and markers of adipogenesis in SAT was lower in individuals with overweight or obesity compared to normal-weight. Additionally, a positive correlation was noted between NFAT family genes and adipogenesis markers both before and after weight loss. Following the DI program, there was an increase in the expression of NFATc3 , NFATc4 , and NFAT5 in SAT. Decreased SAT expression of NFAT genes in obesity is partly reversed in response to weight loss. NFAT genes in SAT are associated with insulin sensitivity and adipogenesis. Registration number for clinical trial: NCT01393210. • Decreased SAT expression of NFAT genes in obesity is partly reversed in response to weight loss. • NFAT genes in SAT are associated with insulin sensitivity and adipogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effects of Opuntia stricta var. dillenii Extracts Obtained from Prickly Pear and an Industrial By-Product on Maturing Pre-Adipocytes.

Author

Gómez-López, Iván, Eseberri, Itziar, Krisa, Stéphanie, Cano, M. Pilar, and Portillo, María P.

Subjects

OPUNTIA, PHENOLS, BETALAINS, BIOACTIVE compounds, HEALTH promotion

Abstract

Opuntia stricta var. dillenii, a member of the Cactaceae family, produces a fruit known as prickly pear. This fruit is rich in bioactive compounds, including betalains and phenolic compounds, which play an important role in health promotion due to their antioxidant and anti-inflammatory properties. This study aims to investigate the impact of prickly pear extracts obtained from the whole fruit, peel, pulp, and an industrial by-product (bagasse) on the differentiation of 3T3-L1 pre-adipocytes. During the differentiation process, 3T3-L1 pre-adipocytes were treated with prickly pear extracts at concentrations ranging from 10 to 100 μg/mL from day 0 to day 8 post-induction. Moreover, the potential mechanisms justifying the observed effects were assessed by RT-PCR. All extracts led to an increase in both triacylglycerol accumulation and cell number. In conclusion, the analysed extracts demonstrated adipogenic effects in 3T3-L1 maturing pre-adipocytes by increasing the expression of the c/ebp-β, srebf-1, and c/ebp-α genes. Additionally, a potential anti-inflammatory effect was observed through the upregulation of adiponectin. [ABSTRACT FROM AUTHOR]

Published

2024

21. Deciphering adipose development: Function, differentiation and regulation.

Author

Guo, Ge, Wang, Wanli, Tu, Mengjie, Zhao, Binbin, Han, Jiayang, Li, Jiali, Pan, Yanbing, Zhou, Jie, Ma, Wen, Liu, Yi, Sun, Tiantian, Han, Xu, and An, Yang

Subjects

ADIPOSE tissues, FAT cells, ENERGY storage, ADIPOGENESIS, OBESITY

Abstract

The overdevelopment of adipose tissues, accompanied by excess lipid accumulation and energy storage, leads to adipose deposition and obesity. With the increasing incidence of obesity in recent years, obesity is becoming a major risk factor for human health, causing various relevant diseases (including hypertension, diabetes, osteoarthritis and cancers). Therefore, it is of significance to antagonize obesity to reduce the risk of obesity‐related diseases. Excess lipid accumulation in adipose tissues is mediated by adipocyte hypertrophy (expansion of pre‐existing adipocytes) or hyperplasia (increase of newly‐formed adipocytes). It is necessary to prevent excessive accumulation of adipose tissues by controlling adipose development. Adipogenesis is exquisitely regulated by many factors in vivo and in vitro, including hormones, cytokines, gender and dietary components. The present review has concluded a comprehensive understanding of adipose development including its origin, classification, distribution, function, differentiation and molecular mechanisms underlying adipogenesis, which may provide potential therapeutic strategies for harnessing obesity without impairing adipose tissue function. Key Findings: Obesity; adipose development; differentiation [ABSTRACT FROM AUTHOR]

Published

2024

22. Familial partial lipodystrophy resulting from loss-of-function PPARγ pathogenic variants: phenotypic, clinical, and genetic features.

Author

Vasconcelos Soares, Reivla Marques, Alvares da Silva, Monique, Araújo de Melo Campos, Julliane Tamara, and Gomes Lima, Josivan

Subjects

PEROXISOME proliferator-activated receptors, FATTY liver, POLYCYSTIC ovary syndrome, TISSUE metabolism, GENETICS, ADIPOGENESIS

Abstract

The PPARG gene encodes a member of a nuclear receptor superfamily known as peroxisome proliferator-activated gamma (PPARg). PPARg plays an essential role in adipogenesis, stimulating the differentiation of preadipocytes into adipocytes. Loss-of-function pathogenic variants in PPARG reduce the activity of the PPARg receptor and can lead to severe metabolic consequences associated with familial partial lipodystrophy type 3 (FPLD3). This review focuses on recent scientific data related to FPLD3, including the role of PPARg in adipose tissue metabolism and the phenotypic and clinical consequences of loss-of-function variants in the PPARG gene. The clinical features of 41 PPARG pathogenic variants associated with FPLD3 patients were reviewed, highlighting the genetic and clinical heterogeneity observed among 91 patients. Most of them were female, and the average age at the onset and diagnosis of lipoatrophy was 21 years and 33 years, respectively. Considering the metabolic profile, hypertriglyceridemia (91.9% of cases), diabetes (77%), hypertension (59.5%), polycystic ovary syndrome (58.2% of women), and metabolic-dysfunction-associated fatty liver disease (87,5%). We also discuss the current treatment for FPLD3. This review provides new data concerning the genetic and clinical heterogeneity in FPLD3 and highlights the importance of further understanding the genetics of this rare disease. [ABSTRACT FROM AUTHOR]

Published

2024

23. Endocrine disruption of adipose physiology: Screening in SGBS cells.

Author

Kucera, Jan, Chalupova, Zuzana, Wabitsch, Martin, and Bienertova‐Vasku, Julie

Subjects

ENDOCRINE system, ADIPOSE tissues, PERFLUOROOCTANOIC acid, PROTEIN expression, DIBUTYL phthalate, ADIPOGENESIS

Abstract

The increasing use of industrial chemicals has raised concerns regarding exposure to endocrine‐disrupting chemicals (EDCs), which interfere with developmental, reproductive and metabolic processes. Of particular concern is their interaction with adipose tissue, a vital component of the endocrine system regulating metabolic and hormonal functions. The SGBS (Simpson Golabi Behmel Syndrome) cell line, a well‐established human‐relevant model for adipocyte research, closely mimics native adipocytes' properties. It responds to hormonal stimuli, undergoes adipogenesis and has been successfully used to study the impact of EDCs on adipose biology. In this study, we screened human exposure‐relevant doses of various EDCs on the SGBS cell line to investigate their effects on viability, lipid accumulation and adipogenesis‐related protein expression. Submicromolar doses were generally well tolerated; however, at higher doses, EDCs compromised cell viability, with cadmium chloride (CdCl2) showing the most pronounced effects. Intracellular lipid levels remained unaffected by EDCs, except for tributyltin (TBT), used as a positive control, which induced a significant increase. Analysis of adipogenesis‐related protein expression revealed several effects, including downregulation of fatty acid‐binding protein 4 (FABP4) by dibutyl phthalate, upregulation by CdCl2 and downregulation of perilipin 1 and FABP4 by perfluorooctanoic acid. Additionally, TBT induced dose‐dependent upregulation of C/EBPα, perilipin 1 and FABP4 protein expression. These findings underscore the importance of employing appropriate models to study EDC‐adipocyte interactions. Conclusions from this research could guide strategies to reduce the negative impacts of EDC exposure on adipose tissue. The increasing use of chemicals raises concerns about exposure to endocrine‐disrupting chemicals (EDCs). This study used the Simpson Golabi Behmel Syndrome cell line, a human‐relevant adipocyte model, to screen the effect of various EDCs on viability, lipid accumulation and adipogenesis‐related protein expression. Submicromolar doses were generally well tolerated, and EDCs did not affect lipid levels except for tributyltin, which increased them and also upregulated FABP4, perilipin 1 and C/EBPα. [ABSTRACT FROM AUTHOR]

Published

2024

24. Long non-coding RNA (LncRNA) and epigenetic factors: their role in regulating the adipocytes in bovine.

Author

Jilo, Diba Dedacha, Abebe, Belete Kuraz, Jianfang Wang, Juntao Guo, Anning Li, and Linsen Zan

Subjects

GENETIC regulation, GENETIC variation, ADIPOGENESIS, REGULATOR genes, CELL physiology, GENETIC markers, LINCRNA, GENE enhancers

Abstract

Investigating the involvement of long non-coding RNAs (lncRNAs) and epigenetic processes in bovine adipocytes can provide valuable new insights into controlling adipogenesis in livestock. Long non-coding RNAs have been associated with forming chromatin loops that facilitate enhancer-promoter interactions during adipogenesis, as well as regulating important adipogenic transcription factors like C/EBPα and PPARγ. They significantly influence gene expression regulation at the post-transcriptional level and are extensively researched for their diverse roles in cellular functions. Epigenetic modifications such as chromatin reorganization, histone alterations, and DNA methylation subsequently affect the activation of genes related to adipogenesis and the progression of adipocyte differentiation. By investigating how fat deposition is epigenetically regulated in beef cattle, scientists aim to unravel molecular mechanisms, identify key regulatory genes and pathways, and develop targeted strategies for modifying fat deposition to enhance desirable traits such as marbling and meat tenderness. This review paper delves into lncRNAs and epigenetic factors and their role in regulating bovine adipocytes while focusing on their potential as targets for genetic improvement to increase production efficiency. Recent genomics advancements, including molecular markers and genetic variations, can boost animal productivity, meeting global demands for high-quality meat products. This review establishes a foundation for future research on understanding regulatory networks linked to lncRNAs and epigenetic changes, contributing to both scholarly knowledge advancement and practical applications within animal agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

25. Heterogeneity of extracellular vesicles in porcine myoblasts regulates adipocyte differentiation.

Author

Qin, Mengran, Xing, Lipeng, Wen, Shulei, Luo, Junyi, Sun, Jiajie, Chen, Ting, Zhang, Yongliang, and Xi, Qianyun

Subjects

*STAINS & staining (Microscopy), *MYOBLASTS, *STEM cells, *EXTRACELLULAR vesicles, *MUSCLE cells, *ADIPOGENESIS, *FAT cells

Abstract

The interactions between myogenic cells and adipocytes play an important role in improving carcass traits and the efficiency of energy utilization. However, there are few reports about the interaction between them mediated by small extracellular vesicles (sEV). In this study, sEV derived from porcine primary skeletal muscle stem cells (MuSCs) was found to be involved in the inhibition of porcine primary adipocyte viability, triglyceride content, Oil Red O enrichment and the expression of adipogenic genes. When the MuSCs were treated with insulin (INS) and oleic acid (OA), the effects of their secreted sEVs on adipose precursor cells were reversed, suggesting that the signaling effects of sEV are related to their own heterogeneity. Further by component heterogeneity analysis, miR-146a-5p was found to be enriched in sEVs of MuSCs and to regulate and suppress adipogenesis through its heterogeneity. This study provides an important mechanism and molecular target for small extracellular vesicles to regulate the interaction between muscle and adipose tissue and improve carcass traits at the intercellular level. [ABSTRACT FROM AUTHOR]

Published

2024

26. snRNA-seq of adipose tissues reveals the potential cellular and molecular mechanisms of cold and disease resistance in Mongolian cattle.

Author

Chi, Zhiduan, Jia, Qiong, Yang, Haoyu, Ren, Hongrui, Jin, Congli, He, Jinxin, Wuri, Nile, Sui, Ze, Zhang, Junzhen, Mengke, Bayier, Zhu, Lixian, Qiqi, Ge, Aierqing, Sarengaowa, Wuli, Ji, Ai, Dong, Fan, Ruiwen, and Herrid, Muren

Subjects

*ADIPOSE tissues, *FAT cells, *RNA sequencing, *NATURAL immunity, *CELL populations, *ADIPOGENESIS

Abstract

Background: Mongolian cattle are local breeds in northern China with excellent adaptability to harsh environmental conditions. Adipose tissues play essential roles in tolerance to cold and disease, but the associated cellular and molecular mechanisms are unclear. Methods: Single-nucleus RNA sequencing (snRNA-seq) was performed on the adipose tissues from the subcutaneous (SAT), greater omentum (OAT) and perirenal (PAT) of 3 healthy cattle. The adipogenic trajectory was analyzed, and the functional roles of gene of interest were verified in vitro. Results: There were different cell subpopulations in adipose tissues. The lipid-deposition adipocytes identified by the PTGER3 marker exhibited outstanding characteristics in SAT. In PAT and OAT, aldosterone was expressed to provide clues for the differential brown adipocytes. Among the DEGs by comparing OAT with SAT and PAT with OAT, C3 was significantly expressed in most of the cell populations in SAT. G0S2, LIPE, LPIN1, PTGER3 and RGCC took part in the adipogenic trajectory from preadipocyte commitment to mature adipocytes. S100A4 expression affected Ca2+ signaling and the expression of UCP1 ~ 3, FABP4 and PTGER3. Conclusion: The cell heterogeneity and genes expressed in adipose tissues of Mongolian cattle not only determine the endocrine and energy storage, but contribute to adapt to cold and disease resistance. [ABSTRACT FROM AUTHOR]

Published

2024

27. From fat storage to immune hubs: the emerging role of adipocytes in coordinating the immune response to infection.

Author

Sinton, Matthew C. and Kajimura, Shingo

Subjects

*ADIPOSE tissues, *TISSUE expansion, *CELL populations, *STROMAL cells, *IMMUNE response, *ADIPOGENESIS, *FAT cells

Abstract

Adipose tissue is a rich source of diverse cell populations, including immune cells, adipocytes and stromal cells. Interactions between these different cell types are now appreciated to be critical for maintaining tissue structure and function, by governing processes such as adipogenesis, lipolysis and differentiation of white to beige adipocytes. Interactions between these cells also drive inflammation in obesity, leading to an expansion of adipose tissue immune cells, and the secretion of proinflammatory cytokines from immune cells and from adipocytes themselves. However, in evolutionary terms, obesity is a recent phenomenon, raising the question of why adipocytes evolved to express factors that influence the immune response. Studies of various pathogens indicate that adipocytes are highly responsive to infection, altering their metabolic profiles in a way that can be used to release nutrients and fuel the immune response. In the case of infection with the extracellular parasite Trypanosoma brucei, attenuating the ability of adipocytes to sense the cytokine IL‐17 results in a loss of control of the local immune response and an increased pathogen load. Intriguingly, comparisons of the adipocyte response to infection suggest that the immune responses of these cells occur in a pathogen‐dependent manner, further confirming their complexity. Here, with a focus on murine adipose tissue, we discuss the emerging concept that, in addition to their canonical function, adipocytes are immune signalling hubs that integrate and disseminate signals from the immune system to generate a local environment conducive to pathogen clearance. [ABSTRACT FROM AUTHOR]

Published

2024

28. Effects of inorganic phosphate on stem cells isolated from human exfoliated deciduous teeth.

Author

Suwittayarak, Ravipha, Nowwarote, Nunthawan, Kornsuthisopon, Chatvadee, Sukarawan, Waleerat, Foster, Brian L, Egusa, Hiroshi, and Osathanon, Thanaphum

Subjects

*DECIDUOUS teeth, *DENTAL pulp capping, *STAINS & staining (Microscopy), *GENE expression profiling, *CELL cycle, *ADIPOGENESIS

Abstract

Calcium phosphate-based materials (CaP) are introduced as potential dental pulp capping materials for deciduous teeth. The present study investigated the influence of inorganic phosphate (Pi) on regulating stem cells isolated from human exfoliated deciduous teeth (SHED). SHEDs were treated with Pi. Cell cycle progression and apoptosis were examined using flow cytometry analysis. Osteo/odontogenic and adipogenic differentiation were analyzed using alizarin red S and oil red O staining, respectively. The mRNA expression profile was investigated using a high-throughput RNA sequencing technique. Pi increased the late apoptotic cell population while cell cycle progression was not altered. Pi upregulated osteo/odontoblastic gene expression and enhanced calcium deposition. Pi-induced mineralization was reversed by pretreatment of cells with Foscarnet, or p38 inhibitor. Pi treatment inhibited adipogenic differentiation as determined by decreased PPARγ expression and reduced intracellular lipid accumulation. Bioinformatic analysis of gene expression profiles demonstrated several involved pathways, including PI3K/AKT, MAPK, EGFR, and VEGF signaling. In conclusion, Pi enhanced osteo/odontogenic but inhibited adipogenic differentiation in SHED. [ABSTRACT FROM AUTHOR]

Published

2024

29. Long non-coding RNA (LncRNA) and epigenetic factors: their role in regulating the adipocytes in bovine.

Author

Diba Dedacha Jilo, Abebe, Belete Kuraz, Jianfang Wang, Juntao Guo, Anning Li, and Linsen Zan

Subjects

GENETIC regulation, GENETIC variation, ADIPOGENESIS, REGULATOR genes, CELL physiology, GENETIC markers, LINCRNA, GENE enhancers

Abstract

Investigating the involvement of long non-coding RNAs (lncRNAs) and epigenetic processes in bovine adipocytes can provide valuable new insights into controlling adipogenesis in livestock. Long non-coding RNAs have been associated with forming chromatin loops that facilitate enhancer-promoter interactions during adipogenesis, as well as regulating important adipogenic transcription factors like C/EBPa and PPARγ. They significantly influence gene expression regulation at the post-transcriptional level and are extensively researched for their diverse roles in cellular functions. Epigenetic modifications such as chromatin reorganization, histone alterations, and DNA methylation subsequently affect the activation of genes related to adipogenesis and the progression of adipocyte differentiation. By investigating how fat deposition is epigenetically regulated in beef cattle, scientists aim to unravel molecular mechanisms, identify key regulatory genes and pathways, and develop targeted strategies for modifying fat deposition to enhance desirable traits such as marbling and meat tenderness. This review paper delves into lncRNAs and epigenetic factors and their role in regulating bovine adipocytes while focusing on their potential as targets for genetic improvement to increase production efficiency. Recent genomics advancements, including molecular markers and genetic variations, can boost animal productivity, meeting global demands for high-quality meat products. This review establishes a foundation for future research on understanding regulatory networks linked to lncRNAs and epigenetic changes, contributing to both scholarly knowledge advancement and practical applications within animal agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

30. The Application of Duck Embryonic Fibroblasts CCL-141 as a Cell Model for Adipogenesis.

Author

Sun, Dan-Dan, Li, Xiao-Qin, Liu, Yong-Tong, Ge, Meng-Qi, and Hou, Zhuo-Cheng

Subjects

*STAINS & staining (Microscopy), *FAT cells, *GENE knockout, *GENE expression, *TRETINOIN, *ADIPOGENESIS

Abstract

Simple Summary: This study demonstrates that the duck embryo fibroblast cell line CCL-141 can undergo adipogenesis, vital for understanding fat cell development in ducks. Treatments with chicken serum, fatty acids, insulin, and all-trans retinoic acid induced fat cell formation, as evidenced by Oil Red O staining and a gene expression analysis. Moreover, the CRISPR/Cas9 knockout of the adipogenesis gene PPARγ in CCL-141 cells confirmed the cell line's utility for studying adipogenesis-related gene functions. These findings validate CCL-141 as a model for adipogenesis research, which will aid in uncovering its regulatory mechanisms. The duck embryo fibroblast cell line CCL-141, which is currently the only commercialized duck cell line, has been underexplored in adipogenesis research. (1) Background: This study establishes an experimental protocol to induce adipogenesis in CCL-141 cells, addressing the importance of understanding gene functions in this process. (2) Methods: Chicken serum, fatty acids, insulin, and all-trans retinoic acid were used to treat CCL-141 cells, with adipogenesis confirmed by Oil Red O staining and gene expression quantification. CRISPR/Cas9 technology was applied to knockout PPARγ, and the resulting adipogenic phenotype was assessed. (3) Results: The treatments promoted adipogenesis, and the knockout of PPARγ validated the cell line's utility for gene function studies. (4) Conclusions: CCL-141 cells are a suitable model for investigating duck adipogenesis, contributing to the understanding of regulatory factors in this biological process. [ABSTRACT FROM AUTHOR]

Published

2024

31. Limited Adipogenic Differentiation Potential of Human Dental Pulp Stem Cells Compared to Human Bone Marrow Stem Cells.

Author

Bugueno, Isaac Maximiliano, Alastra, Giuseppe, Balic, Anamaria, Stadlinger, Bernd, and Mitsiadis, Thimios A.

Subjects

*BONE marrow cells, *NOTCH signaling pathway, *HUMAN stem cells, *NOTCH genes, *CELL populations, *ADIPOGENESIS

Abstract

Bone marrow and teeth contain mesenchymal stem cells (MSCs) that could be used for cell-based regenerative therapies. MSCs from these two tissues represent heterogeneous cell populations with varying degrees of lineage commitment. Although human bone marrow stem cells (hBMSCs) and human dental pulp stem cells (hDPSCs) have been extensively studied, it is not yet fully defined if their adipogenic potential differs. Therefore, in this study, we compared the in vitro adipogenic differentiation potential of hDPSCs and hBMSCs. Both cell populations were cultured in adipogenic differentiation media, followed by specific lipid droplet staining to visualise cytodifferentiation. The in vitro differentiation assays were complemented with the expression of specific genes for adipogenesis and osteogenesis–dentinogenesis, as well as for genes involved in the Wnt and Notch signalling pathways. Our findings showed that hBMSCs formed adipocytes containing numerous and large lipid vesicles. In contrast to hBMSCs, hDPSCs did not acquire the typical adipocyte morphology and formed fewer lipid droplets of small size. Regarding the gene expression, cultured hBMSCs upregulated the expression of adipogenic-specific genes (e.g., PPARγ2, LPL, ADIPONECTIN). Furthermore, in these cells most Wnt pathway genes were downregulated, while the expression of NOTCH pathway genes (e.g., NOTCH1, NOTCH3, JAGGED1, HES5, HEY2) was upregulated. hDPSCs retained their osteogenic/dentinogenic molecular profile (e.g., RUNX2, ALP, COLIA1) and upregulated the WNT-specific genes but not the NOTCH pathway genes. Taken together, our in vitro findings demonstrate that hDPSCs are not entirely committed to the adipogenic fate, in contrast to the hBMSCs, which are more effective to fully differentiate into adipocytes. [ABSTRACT FROM AUTHOR]

Published

2024

32. SLAMF8 regulates osteogenesis and adipogenesis of bone marrow mesenchymal stem cells via S100A6/Wnt/β-catenin signaling pathway.

Author

Wang, Yibo, Hang, Kai, Wu, Xiaoyong, Ying, Li, Wang, Zhongxiang, Ling, Zemin, Hu, Hao, Pan, Zhijun, and Zou, Xuenong

Subjects

*STAINS & staining (Microscopy), *MESENCHYMAL stem cells, *FEMORAL fractures, *BONE marrow, *CELLULAR signal transduction, *FRACTURE healing, *ADIPOGENESIS, *WNT signal transduction

Abstract

Background: The inflammatory microenvironment plays an essential role in bone healing after fracture. The signaling lymphocytic activation molecule family (SLAMF) members deeply participate in inflammatory response and make a vast difference. Methods: We identified SLAMF8 in GEO datasets (GSE129165 and GSE176086) and co-expression analyses were performed to define the relationships between SLAMF8 and osteogenesis relative genes (RUNX2 and COL1A1). In vitro, we established SLAMF8 knockdown and overexpression mouse bone marrow mesenchymal stem cells (mBMSCs) lines. qPCR, Western blot, ALP staining, ARS staining, Oil Red O staining and Immunofluorescence analyses were performed to investigate the effect of SLAMF8 in mBMSCs osteogenesis and adipogenesis. In vivo, mice femoral fracture model was performed to explore the function of SLAMF8. Results: SLAMF8 knockdown significantly suppressed the expression of osteogenesis relative genes (RUNX2, SP7 and COL1A1), ALP activity and mineral deposition, but increased the expression of adipogenesis relative genes (PPARγ and C/EBPα). Additionally, SLAMF8 overexpression had the opposite effects. The role SLAMF8 played in mBMSCs osteogenic and adipogenic differentiation were through S100A6 and Wnt/β-Catenin signaling pathway. Moreover, SLAMF8 overexpression mBMSCs promoted the healing of femoral fracture. Conclusions: SLAMF8 promotes osteogenesis and inhibits adipogenesis of mBMSCs via S100A6 and Wnt/β-Catenin signaling pathway. SLAMF8 overexpression mBMSCs effectively accelerate the healing of femoral fracture in mice. [ABSTRACT FROM AUTHOR]

Published

2024

33. The short-chain fatty acid receptors Gpr41/43 regulate bone mass by promoting adipogenic differentiation of mesenchymal stem cells.

Author

Behler-Janbeck, Friederike, Baranowsky, Anke, Yorgan, Timur A., Jaeckstein, Michelle Y., Worthmann, Anna, Fuh, Marceline M., Gunasekaran, Karthikeyan, Tiegs, Gisa, Amling, Michael, Schinke, Thorsten, and Heeren, Joerg

Subjects

MESENCHYMAL stem cell differentiation, SHORT-chain fatty acids, G protein coupled receptors, BONE growth, BONE metabolism, RUMEN fermentation

Abstract

Bone is a dynamic tissue that is constantly remodeled throughout adult life. Recently, it has been shown that bone turnover decreases shortly after food consumption. This process has been linked to the fermentation of non-digestible food ingredients such as inulin by gut microbes, which results in the production of the short-chain fatty acids (SCFAs) acetate, propionate and butyrate. SCFAs exert various metabolic functions, which in part can be explained by activation of G protein-coupled receptors (Gpr) 41 and 43. However, the potential relevance of a SCFA-Gpr41/43 signaling axis for bone metabolism has not been established. The aim of our study is to investigate the role of Gpr41/43 in bone metabolism and osteogenic differentiation of mesenchymal stem cells. For this purpose, we analyzed the skeletal phenotype of wild type controls (WT) and Gpr41/43 double knockout (Gpr41/43 dKO) mice fed either a chow or an inulin-enriched diet. In addition, we isolated bone marrow derived mesenchymal stem cells from WT and Gpr41/43 dKO mice and differentiated them into osteoblasts in the absence or presence of acetate. MicroCT scanning of femoral bones of Gpr41/43 dKO mice revealed a significant increase of trabecular bone volume and trabecular compared to WT controls. Treatment of WT bone marrow-derived osteoblasts with acetate resulted in decreased mineralization and substantial downregulation of bone formation markers such as Phex, Ptgs2 and Col1a1. Notably, this effect was strongly attenuated in differentiated osteoblasts lacking Gpr41/43. Inversely, acetate supplementation resulted in higher levels of adipocyte marker genes including Pparg, Lpl and Adipoq in bone marrow-derived cells from WT mice, an effect blunted in differentiated cells isolated from Gpr41/43 dKO mice. Overall, these data indicate that acetate regulates bone architecture via SCFA-Gpr41/43 signaling by modulating the osteogenic versus adipogenic differentiation of mesenchymal stem cells. [ABSTRACT FROM AUTHOR]

Published

2024

34. In Vitro Investigation of HIF-1α as a Therapeutic Target for Thyroid-Associated Ophthalmopathy.

Author

Jeongmin Lee, Jinsoo Lee, Hansang Baek, Dong-Jun Lim, Seong-Beom Lee, Jung-Min Lee, Sang-Ah Jang, Moo Il Kang, Suk-Woo Yang, and Min-Hee Kim

Subjects

*HYPOXIA-inducible factor 1, *STAINS & staining (Microscopy), *HYPOXIA-inducible factors, *PEROXISOME proliferator-activated receptors, *TISSUE remodeling

Abstract

Background: Thyroid-associated ophthalmopathy (TAO) involves tissue expansion and inflammation, potentially causing a hypoxic microenvironment. Hypoxia-inducible factor (HIF)-1α is crucial in fibrosis and adipogenesis, which are observed in TAO progression. We investigated the effects of hypoxia on orbital fibroblasts (OFs) in TAO, focusing on the role of HIF-1α in TAO progression. Methods: OFs were isolated from TAO and non-TAO patients (as controls). In addition to HIF-1α, adipogenic differentiation markers including peroxisome proliferator-activated receptor γ (PPARγ) and CCAAT/enhancer binding protein (CEBP) were measured by Western blot, and phenotype changes were evaluated by Oil Red O staining under both normoxia and hypoxia. To elucidate the effect of HIF-1α inhibition, protein expression changes after HIF-1α inhibitor treatment were evaluated under normoxia and hypoxia. Results: TAO OFs exhibited significantly higher HIF-1α expression than non-TAO OFs, and the difference was more distinct under hypoxia than under normoxia. Oil Red O staining showed that adipogenic differentiation of TAO OFs was prominent under hypoxia. Hypoxic conditions increased the expression of adipogenic markers, namely PPARγ and CEBP, as well as HIF-1α in TAO OFs. Interleukin 6 levels also increased in response to hypoxia. The effect of hypoxia on adipogenesis was reduced at the protein level after HIF-1α inhibitor treatment, and this inhibitory effect was sustained even with IGF-1 stimulation in addition to hypoxia. Conclusion: Hypoxia induces tissue remodeling in TAO by stimulating adipogenesis through HIF-1α activation. These data could provide insights into new treatment strategies and the mechanisms of adipose tissue remodeling in TAO. [ABSTRACT FROM AUTHOR]

Published

2024

35. ATAD3 is a limiting factor in mitochondrial biogenesis and adipogenesis of white adipocyte‐like 3T3‐L1 cells.

Author

Li, Shuijie, Xu, Rui, Yao, Yao, and Rousseau, Denis

Subjects

*MITOCHONDRIAL proteins, *ADIPOGENESIS, *MITOCHONDRIAL membranes, *AMP-activated protein kinases, *CAENORHABDITIS elegans, *LIPID synthesis

Abstract

ATAD3 is a vital ATPase of the inner mitochondrial membrane of pluri‐cellular eukaryotes, with largely unknown functions but early required for organism development as necessary for mitochondrial biogenesis. ATAD3 knock‐down in C. elegans inhibits at first the development of adipocyte‐like intestinal tissue so we used mouse adipocyte model 3T3‐L1 cells to analyze ATAD3 functions during adipogenesis and lipogenesis in a mammalian model. ATAD3 function was studied by stable and transient modulation of ATAD3 expression in adipogenesis‐ induced 3T3‐L1 cells using Knock‐Down and overexpression strategies, exploring different steps of adipocyte differentiation and lipogenesis. We show that (i) an increase in ATAD3 is preceding differentiation‐induced mitochondrial biogenesis; (ii) downregulation of ATAD3 inhibits adipogenesis, lipogenesis, and impedes overexpression of many mitochondrial proteins; (iii) ATAD3 re‐expression rescues the phenotype of ATAD3 KD, and (iv) differentiation and lipogenesis are accelerated by ATAD3 overexpression, but inhibited by expression of a dominant‐negative mutant. We further show that the ATAD3 KD phenotype is not due to altered insulin signal but involves a limitation of mitochondrial biogenesis linked to Drp1. These results demonstrate that ATAD3 is limiting for in vitro mitochondrial biogenesis and adipogenesis/lipogenesis and therefore that ATAD3 mutation/over‐ or under‐expression could be involved in adipogenic and lipogenic pathologies. [ABSTRACT FROM AUTHOR]

Published

2024

36. Neddylation and Its Target Cullin 3 Are Essential for Adipocyte Differentiation.

Author

Zhou, Hongyi, Patel, Vijay, Rice, Robert, Lee, Richard, Kim, Ha Won, Weintraub, Neal L., Su, Huabo, and Chen, Weiqin

Subjects

*ADIPOSE tissue physiology, *CONSCIOUSNESS raising, *POST-translational modification, *METABOLIC disorders, *INSULIN resistance, *ADIPOGENESIS

Abstract

The ongoing obesity epidemic has raised awareness of the complex physiology of adipose tissue. Abnormal adipocyte differentiation results in the development of systemic metabolic disorders such as insulin resistance and diabetes. The conjugation of NEDD8 (neural precursor cell expressed, developmentally downregulated 8) to target protein, termed neddylation, has been shown to mediate adipogenesis. However, much remains unknown about its role in adipogenesis. Here, we demonstrated that neddylation and its targets, the cullin (CUL) family members, are differentially regulated during mouse and human adipogenesis. Inhibition of neddylation by MLN4924 significantly reduced adipogenesis of 3T3-L1 and human stromal vascular cells. Deletion of NAE1, a subunit of the only NEDD8 E1 enzyme, suppressed neddylation and impaired adipogenesis. Neddylation deficiency did not affect mitotic cell expansion. Instead, it disrupted CREB/CEBPβ/PPARγ signaling, essential for adipogenesis. Interestingly, among the neddylation-targeted CUL family members, deletion of CUL3, but not CUL1, CUL2, or CUL4A, largely replicated the adipogenic defects observed with neddylation deficiency. A PPARγ agonist minimally rescued the adipogenic defects caused by the deletion of NAE1 and CUL3. In conclusion, our study demonstrates that neddylation and its targeted CUL3 are crucial for adipogenesis. These findings provide potential targets for therapeutic intervention in obesity and metabolic disorders. [ABSTRACT FROM AUTHOR]

Published

2024

37. Epigenetic Reprogramming and Inheritance of the Cellular Differentiation Status Following Transient Expression of a Nonfunctional Dominant-Negative Retinoblastoma Mutant in Murine Mesenchymal Stem Cells.

Author

Baryshev, Mikhail, Maksimova, Irina, and Sasoveca, Ilona

Subjects

*HEREDITY, *MESENCHYMAL stem cells, *CELL differentiation, *CELL cycle, *EPIGENETICS, *ADIPOGENESIS

Abstract

The retinoblastoma gene product (Rb1), a master regulator of the cell cycle, plays a prominent role in cell differentiation. Previously, by analyzing the differentiation of cells transiently overexpressing the ΔS/N DN Rb1 mutant, we demonstrated that these cells fail to differentiate into mature adipocytes and that they constitutively silence Pparγ2 through CpG methylation. Here, we demonstrate that the consequences of the transient expression of ΔS/N DN Rb1 are accompanied by the retention of Cebpa promoter methylation near the TSS under adipogenic differentiation, thereby preventing its expression. The CGIs of the promoters of the Rb1, Ezh2, Mll4, Utx, and Tet2 genes, which are essential for adipogenic differentiation, have an unmethylated status regardless of the cell differentiation state. Moreover, Dnmt3a, a de novo DNA methyltransferase, is overexpressed in undifferentiated ΔS/N cells compared with wild-type cells and, in addition to Dnmt1, Dnmt3a is significantly upregulated by adipogenic stimuli in both wild-type and ΔS/N cells. Notably, the chromatin modifier Ezh2, which is also involved in epigenetic reprogramming, is highly induced in ΔS/N cells. Overall, we demonstrate that two major genes, Pparγ2 and Cebpa, which are responsible for terminal adipocyte differentiation, are selectively epigenetically reprogrammed to constitutively silent states. We hypothesize that the activation of Dnmt3a, Rb1, and Ezh2 observed in ΔS/N cells may be a consequence of a stress response caused by the accumulation and malfunctioning of Rb1-interacting complexes for the epigenetic reprogramming of Pparγ2/Cebpa and prevention of adipogenesis in an inappropriate cellular context. The failure of ΔS/N cells to differentiate and express Pparγ2 and Cebpa in culture following the expression of the DN Rb1 mutant may indicate the creation of epigenetic memory for new reprogrammed epigenetic states of genes. [ABSTRACT FROM AUTHOR]

Published

2024

38. Black Ginger Extract Suppresses Fat Accumulation by Regulating Lipid Metabolism in High-Fat Diet-Fed Mice.

Author

Kim, Sun Pyo, Jeong, Inae, Kang, Namgil, Kim, Minkyung, and Kim, Ok-Kyung

Subjects

*LIPID metabolism, *PREVENTION of obesity, *METFORMIN, *MITOGEN-activated protein kinases, *PROTEINS, *ADIPOSE tissues, *LIPID metabolism disorders, *PHOSPHORYLATION, *PROTEIN kinases, *CARRIER proteins, *BODY temperature regulation, *CELL physiology, *CARNITINE, *ADENOSINE triphosphate, *DIETARY fats, *ENZYMES, *ACYLTRANSFERASES, *MICE, *STEROLS, *GENE expression, *GINGER, *ANTIOBESITY agents, *ANIMAL experimentation, *MOLECULAR structure, *GENETIC disorders, *LIPASES, *PEROXISOME proliferator-activated receptors, *FATTY acid-binding proteins, *TRANSFERASES, *WEIGHT gain

Abstract

This study investigated the antiobesity effects of black ginger extract (BGE) in high-fat diet (HFD)-induced obese mice. Mice were divided into six groups: normal diet control (NC, AIN-93G normal diet), 60% HFD control (HFD), HFD containing metformin at 250 mg/kg b.w. (Met, positive control), and HFD containing BGE at 5, 10, or 20 mg/kg b.w. for 15 weeks. BGE administration significantly prevented HFD-induced increases in weight gain, organ weight, and adipose tissue mass. Furthermore, it resulted in decreased adipogenesis and lipogenesis-related factors, including phosphorylated mitogen-activated protein kinase, peroxisome proliferator-activated receptor gamma, CCAAT/enhancer-binding proteins, sterol regulatory element-binding protein 1, phosphorylated cAMP response element-binding protein, glucose-6-phosphate dehydrogenase, fatty acid synthase, dephosphorylated ATP-citrate lyase, dephosphorylated acetyl-CoA carboxylase, and lipoprotein lipase, in white adipose tissues. Moreover, BGE administration enhanced lipolysis in white adipose tissue, as evidenced by elevated levels of adipose triglyceride lipase, phosphorylated hormone-sensitive lipase, and protein kinase A, along with reduced levels of perilipin and phosphodiesterase 3B. BGE induced thermogenesis in brown adipose tissues, as reflected by the increased expression of AMP-activated protein kinase, uncoupling protein 1, and carnitine palmitoyltransferase 1 and decreased levels of fatty acid-binding protein 4. In conclusion, this study provides comprehensive evidence supporting the antiobesity effects of BGE, elucidating the underlying molecular mechanisms involved in preventing weight gain, suppressing adipogenesis, promoting lipolysis, and stimulating thermogenesis. These findings suggest the potential therapeutic utility of BGE in combating obesity and associated metabolic disorders (KHGASP-2023-034). [ABSTRACT FROM AUTHOR]

Published

2024

39. A combined transcriptomics and proteomics approach reveals S100A4 as a potential biomarker for Graves' orbitopathy.

Author

Chiaw-Ling Chng, Oi Fah Lai, Lay-Leng Seah, Kai-Ling Yong, Yvonne Hsi-Wei Chung, Rochelle Goh, and Che Kang Lim

Subjects

THYROID eye disease, GENE expression, CALCIUM-binding proteins, GENE expression profiling, RNA sequencing, ADIPOGENESIS

Abstract

Background: There are no reliable biomarkers to identify Graves' disease patients who will develop severe Graves' orbitopathy (GO). We hypothesize that integrating various omics platforms can enhance our understanding of disease mechanisms and uncover potential biomarkers. This study aimed to (1) elucidate the differential gene expression profile of orbital fibroblasts in GO during early adipogenesis to better understand disease mechanisms and (2) compare tear protein profiles from our earlier study and the transcriptome profiles of orbital fibroblasts (OFs) to identify possible biomarkers of the disease. Methods: OFs were grown from orbital adipose tissue obtained from nine GO patients (three for discovery and six for validation experiments). Total RNA was extracted from OFs on day 0 as the baseline for each sample and from differentiated OFs on days 4 and 8. Protein-protein interaction (PPI) analysis and functional enrichment analysis were also carried out. The differentially expressed genes (DEGs) from the RNA sequencing experiments were then compared to the full tear proteome profile from the author's previous study, which examined the tear protein changes of GO patients based on fold change > 1.6 or < -1.6. FDR < 0.05 was applied within all datasets. Further validation of S100 calcium-binding protein A4 (S100A4) downregulation in GO was performed via quantitative real-time PCR (qPCR). Results: The whole transcriptomic analysis revealed 9 upregulated genes and 15 downregulated genes in common between the discovery and validation experiments. From the PPI network analysis, an interaction network containing six identified DEGs (ALDH2, MAP2K6, MT2A, SOCS3, S100A4, and THBD) was observed. The functional enrichment network analysis identified a set of genes related to oxysterol production. S100A4 was found to be consistently downregulated in both our transcriptome studies and the full-tear proteome profile from the author's previous study. Conclusion: Our study identified several DEGs and potential gene pathways in GO patients, which concurred with the results of other studies. Tear S100A4 may serve as a biomarker for the propensity to develop thyroid eye disease (TED) in patients with autoimmune thyroid disease (AITD) before clinical manifestation and should be confirmed in future studies. [ABSTRACT FROM AUTHOR]

Published

2024

40. SUN1 inhibits osteogenesis and promotes adipogenesis of human adipose‐derived stem cells by regulating α‐tubulin and CD36 expression.

Author

Fan, Tingyu, Zhu, Jinhui, Liu, Wenqing, Qu, Rongmei, Khan, Asmat Ullah, Shi, Yulian, Liu, Jiaxuan, Zhou, Zhitao, Xu, Chujiang, Dai, Jingxing, and Ouyang, Jun

Subjects

STAINS & staining (Microscopy), HUMAN stem cells, NUCLEAR membranes, ALKALINE phosphatase, NUCLEAR proteins

Abstract

Sad and UNC84 domain 1 (SUN1) is a kind of nuclear envelope protein with established involvement in cellular processes, including nuclear motility and meiosis. SUN1 plays an intriguing role in human adipose‐derived stem cells (hASCs) differentiation; however, this role remains largely undefined. This study was undertaken to investigate the role of SUN1 in hASCs differentiation, as well as its underlying mechanisms. Employing siRNAs, we selectively downregulated SUN1 and CD36 expression. Microtubules were depolymerized using nocodazole, and PPARγ was activated using rosiglitazone. Western blotting was performed to quantify SUN1, PPARγ, α‐tubulin, CD36, OPN, and adiponectin protein expression levels. Alkaline phosphatase and Oil red O staining were used to assess osteogenesis and adipogenesis, respectively. Downregulated SUN1 expression increased osteogenesis and decreased adipogenesis in hASCs, concomitant with upregulated α‐tubulin expression and downregulated CD36 expression, alongside reduced nuclear localization of PPARγ. Microtubule depolymerization increased CD36 expression. Rescue experiments indicated that microtubule depolymerization counteracted the downregulated SUN1‐induced phenotypic changes. This study demonstrates that SUN1 influences the differentiation of hASCs towards osteogenic and adipogenic lineages, indicating its essential role in cell fate. [ABSTRACT FROM AUTHOR]

Published

2024

41. Metabolic Side Effects from Antipsychotic Treatment with Clozapine Linked to Aryl Hydrocarbon Receptor (AhR) Activation.

Author

Fehsel, Karin

Subjects

TRANSCRIPTION factors, DRUG side effects, ARYL hydrocarbon receptors, IRON ores, TREATMENT effectiveness

Abstract

Metabolic syndrome (MetS) is the most common adverse drug reaction from psychiatric pharmacotherapy. Neuroreceptor blockade by the antipsychotic drug clozapine induces MetS in about 30% of patients. Similar to insulin resistance, clozapine impedes Akt kinase activation, leading to intracellular glucose and glutathione depletion. Additional cystine shortage triggers tryptophan degradation to kynurenine, which is a well-known AhR ligand. Ligand-bound AhR downregulates the intracellular iron pool, thereby increasing the risk of mitochondrial dysfunction. Scavenging iron stabilizes the transcription factor HIF-1, which shifts the metabolism toward transient glycolysis. Furthermore, the AhR inhibits AMPK activation, leading to obesity and liver steatosis. Increasing glucose uptake by AMPK activation prevents dyslipidemia and liver damage and, therefore, reduces the risk of MetS. In line with the in vitro results, feeding experiments with rats revealed a disturbed glucose-/lipid-/iron-metabolism from clozapine treatment with hyperglycemia and hepatic iron deposits in female rats and steatosis and anemia in male animals. Decreased energy expenditure from clozapine treatment seems to be the cause of the fast weight gain in the first weeks of treatment. In patients, this weight gain due to neuroleptic treatment correlates with an improvement in psychotic syndromes and can even be used to anticipate the therapeutic effect of the treatment. [ABSTRACT FROM AUTHOR]

Published

2024

42. Bioinformatics Analysis of miR-181a and Its Role in Adipogenesis, Obesity, and Lipid Metabolism Through Review of Literature.

Author

Hongfang, Guo, Khan, Rajwali, and El-Mansi, Ahmed A.

Abstract

The miRNAs regulate various biological processes in the mammalian body system. The role of miR-181a in the development, progression, and expansion of cancers is well-documented. However, the role of miR-181a in adipogenesis; lipid metabolism; obesity; and obesity-related issues such as diabetes mellitus needs to be explored. Therefore, in the present study, the literature was searched and bioinformatics tools were applied to explore the role of miR-181a in adipogenesis. The list of adipogenic and lipogenic target genes validated through different publications were extracted and compiled. The network and functional analysis of these target genes was performed through in-silico analysis. The mature sequence of miR-181a of different species were extracted from and were found highly conserved among the curated species. Additionally, we also used various bioinformatics tools such as target gene extraction from Targetscan, miRWalk, and miRDB, and the list of the target genes from these different databases was compared, and common target genes were predicted. These common target genes were further subjected to the enrichment score and KEGG pathways analysis. The enrichment score of the vital KEGG pathways of the target genes is the key regulator of adipogenesis, lipogenesis, obesity, and obesity-related syndromes in adipose tissues. Therefore, the information presented in the current review will explore the regulatory roles of miR-181a in fat tissues and its associated functions and manifestations. [ABSTRACT FROM AUTHOR]

Published

2024

43. Prognostic implications of the immunohistochemical expression of perilipin 1 and adipophilin in high-grade liposarcoma.

Author

Kengo Kawaguchi, Kenichi Kohashi, Taro Mori, Hidetaka Yamamoto, Takeshi Iwasaki, Izumi Kinoshita, Yosuke Susuki, Hiroshi Furukawa, Makoto Endo, Yoshihiro Matsumoto, Yasuharu Nakashima, and Yoshinao Oda

Subjects

FATTY acid synthases, CUTANEOUS malignant melanoma, GENE expression, BRCA genes, SARCOMA, ADIPOGENESIS

Published

2024

44. Adipogenesis biomarkers as the independent predictive factors for breast cancer recurrence: a systematic review and meta-analysis.

Author

Hu, Shihang, Tey, Sze Keong, and Kwong, Ava

Subjects

*BREAST cancer prognosis, *ADIPOGENESIS, *BREAST cancer, *FATTY acids, *BIOMARKERS

Abstract

Background: Comprehensive analysis of clinical evidence for breast cancer adipogenesis with prognosis is lacking. This study aims to consolidate the latest evidence on the relationship between adipogenesis and breast cancer outcomes. Data sources: : Medline, Web of Science, Embase, Scopus, Clinicaltrials.gov, Cochrane library. Methods: A systematic review was conducted according to the PRISMA guidelines. Studies that reported the correlation between tumor adipogenesis and cancer recurrence or empirical pathological markers were included for meta-analysis. The standard reference for pathological markers determination was set as histopathological examination. The PROSPERO ID was CRD489135. Results: Eleven studies were included in this systematic review and meta-analysis. Several adipogenesis biomarkers involved in the synthesis, elongation, and catabolism of fatty acids, such as FASN, Spot 14, pS6K1, lipin-1, PLIN2, Elovl6, and PPARγ, were identified as the potential biomarkers for predicting outcomes. Through meta-analysis, the predictive value of adipogenesis biomarkers for 5-year recurrence rate was calculated, with a pooled predictive risk ratio of 2.19 (95% CI: 1.11–4.34). In terms of empirical pathological markers, a negative correlation between adipogenesis biomarkers and ki-67 was observed (RR: 0.69, 95% CI: 0.61–0.79). However, no significant correlation was found between the adipogenesis and ER, PR, HER2, or p53 positivity. Conclusions: Biomarker of adipogenesis in breast cancer is a significant predictor of long-term recurrence, and this prediction is independent of HR, HER2, and ki-67. The diverse roles of adipogenesis in different breast cancer subtypes highlight the need for further research to uncover specific biomarkers that can used for diagnosis and prediction. Protocol registration: PROSPERO ID: CRD489135. [ABSTRACT FROM AUTHOR]

Published

2024

45. Ascochlorin Attenuates the Early Stage of Adipogenesis via the Wnt/β-Catenin Pathway and Inhibits High-Fat-Diet-Induced Obesity in Mice.

Author

Yu, Mi-Hee, Jeong, Yun-Jeong, Son, Sung Wook, Kwon, So Yoon, Song, Kwon-Ho, Son, Ho-Sang, Jeon, Eon-Ju, and Chang, Young-Chae

Subjects

*HIGH-fat diet, *WEIGHT loss, *WEIGHT gain, *LABORATORY mice, *ANTIOBESITY agents

Abstract

This study investigated the effects of ascochlorin (ASC), a natural compound derived from the fungus Ascochyta viciae, on adipogenesis and obesity. We determined the effects of ASC on 3T3-L1 preadipocytes and whether it ameliorated to mitigate high-fat diet (HFD)-induced obesity in C57BL/6J mice. We found that ASC significantly inhibited the differentiation of preadipocytes by modulating the Wnt/β-catenin signaling pathway, a key regulator of adipogenic processes. Treatment with ASC not only reduced the mRNA and protein expression of key adipogenic transcription factors such as C/EBPα and PPARγ, but also reduced lipid accumulation both in vitro and in vivo. In addition, treatment HFD-fed mice with ASC significantly reduced their weight gain and adiposity vs. control mice. These results suggest that ASC has considerable potential as a therapeutic agent for obesity, owing to its dual action of inhibiting adipocyte differentiation and reducing lipid accumulation. Thus, ASC represents a promising candidate as a natural anti-obesity agent. [ABSTRACT FROM AUTHOR]

Published

2024

46. Interplay between bone marrow adiposity and bone resorption in RANKL‐mediated modelled osteoporosis.

Author

Rinotas, Vagelis, Gkikopoulou, Evi, Tzortzis, Efthymiοs, Kritikos, Konstantinos, Siatra, Panagiota, Papadopoulos, Apostolos, Perivolidi, Vasiliki‐Iris, and Douni, Eleni

Subjects

*MESENCHYMAL stem cells, *BONE resorption, *BONE remodeling, *BONE marrow, *ADIPOGENESIS, *TRANSGENIC mice

Abstract

Bone marrow adipose tissue (BMAT) accrues in osteoporosis, whereas its contribution to the progression of bone resorption remains insufficiently understood. To understand the mechanisms that promote BMAT expansion in osteoporosis, in the present study, we performed extensive analysis of the spatiotemporal pattern of BMAT expansion during the progression of bone resorption in TgRANKL transgenic mouse models of osteoporosis expressing human RANKL (receptor activator of nuclear factor‐κB ligand). Our results showed that TgRANKL mice of both sexes developed dramatically increased BMAT expansion compared to wild‐type (WT) littermates, that was analogous to the levels of RANKL expression and the severity of the bone loss phenotype. BMAT was formed at close proximity to areas undergoing active bone remodelling and bone resorption, whereas bone resorption preceded BMAT development. Expression analysis in bone fractions demonstrated that BMAT constitutes a major source for RANKL production. Ex vivo analysis of isolated bone marrow stromal cells from TgRANKL mice showed an increased adipogenic differentiation capacity compared to WT, while osteoclast supernatants further exaggerated adipogenesis, supporting a critical role of the osteoclast‐derived secretome in the differentiation of bone marrow adipocytes. Furthermore, the effectiveness of an antiosteoporosis treatment in BMAT development was investigated upon treatment of TgRANKL models with the bisphosphonate alendronate. Notably, alendronate effectively improved bone mass and attenuated BMAT expansion, indicating a possible involvement of osteoclasts and bone resorption in BMAT development. On the contrary, inhibition of BMAT with PPARγ antagonists (GW9662 or BADGE) effectively ameliorated BMAT expansion but failed to reverse the osteoporotic phenotype of TgRANKL mice. Overall, our data demonstrate that TgRANKL mice constitute unique genetic mouse models for investigating the pathogenic mechanisms that regulate the development and expansion of BMAT in osteolytic diseases. [ABSTRACT FROM AUTHOR]

Published

2024

47. A PRDM16-driven signal regulates body composition in testosterone-treated hypogonadal men.

Author

Bathina, Siresha, Colleluori, Georgia, Villareal, Dennis T., Aguirre, Lina, Rui Chen, and Armamento-Villareal, Reina

Subjects

ADIPOSE tissues, MONONUCLEAR leukocytes, BODY composition, BLOOD proteins, TRANSCRIPTION factors, FAT

Abstract

Background: Testosterone (T) therapy increases lean mass and reduces total body and truncal fat mass in hypogonadal men. However, the underlying molecular mechanisms for the reciprocal changes in fat and lean mass in humans are not entirely clear. Methods: Secondary analysis of specimens obtained from a single-arm, open-label clinical trial on pharmacogenetics of response to T therapy in men with late-onset hypogonadism, conducted between 2011 and 2016 involving 105 men (40-74 years old), who were given intramuscular T cypionate 200 mg every 2 weeks for 18 months. Subcutaneous fat (SCF), peripheral blood mononuclear cells (PBMC) and serum were obtained from the participants at different time points of the study. We measured transcription factors for adipogenesis and myogenesis in the SCF, and PBMC, respectively, by real-time quantitative PCR at baseline and 6 months. Serum levels of FOLLISTATIN, PAX7, MYOSTATIN, ADIPSIN, and PRDM16 were measured by ELISA. Results: As expected, there was a significant increase in T and estradiol levels after 6 months of T therapy. There was also a reduction in fat mass and an increase in lean mass after 6 months of T therapy. Gene-protein studies showed a significant reduction in the expression of the adipogenic markers PPARg in SCF and ADIPSIN levels in the serum, together with a concomitant significant increase in the expression of myogenic markers, MYOD in PBMC and PAX7 and FOLLISTATIN levels in the serum after 6 months of T therapy compared to baseline. Interestingly, there was a significant increase in the adipo-myogenic switch, PRDM16, expression in SCF and PBMC, and in circulating protein levels in the serum after 6 months of T therapy, which is likely from increased estradiol. Conclusion: Our study supports that molecular shift from the adipogenic to the myogenic pathway in men with hypogonadism treated with T could be mediated directly or indirectly by enhanced PRDM16 activity, in turn a result from increased estradiol level. This might have led to the reduction in body fat and increase in lean mass commonly seen in hypogonadal men treated with T. [ABSTRACT FROM AUTHOR]

Published

2024

48. Royal Jelly Exerts a Potent Anti-Obesity Effect in Rats by Activating Lipolysis and Suppressing Adipogenesis.

Author

Felemban, Alaa Hasanain, Alshammari, Ghedeir M., Yagoub, Abu ElGasim Ahmed, Saleh, Ali, and Yahya, Mohammed Abdo

Abstract

Background/Objective: This study examined the anti-obesity effect of royal jelly (RJ) in rats fed with a high-fat diet by targeting the major pathways involved in adipogenesis and lipolysis. In addition, it examined whether this effect is AMPK-dependent. Methods: Five groups of adult male albino rats were used (n = 6 each as 1); the control rats were fed with a normal diet (2.9 kcal), and the other groups were as follows: control + RJ (300 mg/kg), HFD (4.75 kcal), HFD + RJ (300 mg/kg), and HFD + RJ (300 mg/kg) + dorsomorphin (an AMPK inhibitor) (0.2 mg/kg). Results: RJ was administered orally to all rats. With no changes in food and energy intake, RJ significantly reduced gains in body weight, fat weight, body mass index (BMI), the Lee index, abdominal circumference (AC), and the adiposity index (AI). It also reduced fasting glucose and insulin levels, HOMA-IR, and the circulatory levels of free fatty acids (FFAs), triglycerides, cholesterol, and LDL-c in the HFD-fed rats. RJ also increased serum glycerol levels and adiponectin levels, but reduced the serum levels of leptin, IL-6, and TNF-α. Moreover, RJ reduced the secretion of IL-6 and TNF-α from isolated WAT. At the tissue level, the HFD + RJ rats exhibited a smaller adipocyte size compared to the HFD rats. At the molecular level, RJ increased the phosphorylation of AMPK, SREBP1, and ACC-1 and increased the mRNA and protein levels of HSL and ATG in the WAT of the HFD rats. In concomitance, RJ increased the mRNA levels of PGC-α1, reduced the protein levels of PPARγ, and repressed the transcriptional activities of PPARγ, SREBP1, and C/EBPαβ in the WAT of these rats. All the aforementioned effects of RJ were prevented by co-treatment with dorsomorphin. Conclusions: RJ exerts a potent anti-obesity effect in rats that is mediated by the AMPk-dependent suppression of WAT adipogenesis and the stimulation of lipolysis. [ABSTRACT FROM AUTHOR]

Published

2024

49. 丁香酚通过激活 cAMP 抑制 3T3‐L1 前脂肪细胞分化.

Author

李梦杰, 黄昆仑, and 仝涛

Subjects

CYCLIC adenylic acid, ADENYLATE cyclase, POLYMERASE chain reaction, EUGENOL, CELL differentiation, ADIPOGENESIS

Abstract

Copyright of Food Research & Development is the property of Food Research & Development Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

50. Early Adipogenesis and Upregulation of UCP1 in Mesenchymal Stromal Cells Stimulated by Devitalized Microfragmented Fat (MiFAT).

Author

Coccè, Valentina, Missaglia, Sara, Martegani, Eleonora, Tavian, Daniela, Doneda, Luisa, Manfredi, Barbara, Alessandri, Giulio, Corradini, Costantino, Giannì, Aldo, Ciusani, Emilio, Paino, Francesca, Pessina, Augusto, and Wertz, Philip W.

Subjects

*PEROXISOME proliferator-activated receptors, *PROTEIN overexpression, *UNCOUPLING proteins, *EXTRACELLULAR matrix, *STROMAL cells

Abstract

Adipose tissue is mainly composed by adipocytes. Moreover, mesenchymal stromal/stem cells (MSCs), macrophages, endothelial cells, and extracellular matrix components are present. The variety of molecules as cytokines and growth factors of its structure very rich in blood vessel makes it also similar to a true endocrine organ that however needs still to be fully investigated. In our study, we used human lipoaspirate to obtain mechanically microfragmented fat (MiFAT) which was washed and then devitalized by freezing–thawing cycles. In our experiments, thawed MiFAT was used to stimulate cultures of MSCs from two different sources (adipose tissue and gingiva papilla) in comparison with a traditional stimulation in vitro obtained by culturing MSCs with adipogenic medium. MSCs stimulated with MiFAT showed a very early production of lipid droplets, after only 3 days, that correlated with an increased expression of adipokines. Furthermore, a significant upregulation of PPAR gamma 1 alpha coactivator (PPARGC1A) was observed with an overexpression of uncoupling protein 1 (UCP1) that suggest a pattern of differentiation compatible with the beige–brown fat. [ABSTRACT FROM AUTHOR]

Published

2024