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2. Ergosterol Peroxide from the Medicinal Mushroom Ganoderma lucidum Inhibits Differentiation and Lipid Accumulation of 3T3-L1 Adipocytes.
- Author
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Jeong YU and Park YJ
- Subjects
- 3T3-L1 Cells drug effects, Adipogenesis drug effects, Adipokines, Animals, Anti-Obesity Agents therapeutic use, CCAAT-Enhancer-Binding Protein-alpha metabolism, Cell Survival drug effects, Down-Regulation drug effects, Ergosterol chemistry, Ergosterol pharmacology, Ergosterol therapeutic use, Lipogenesis drug effects, Mice, PPAR gamma metabolism, Phosphorylation drug effects, Sterol Regulatory Element Binding Protein 1 metabolism, Triglycerides, Adipocytes metabolism, Anti-Obesity Agents pharmacology, Cell Differentiation drug effects, Ergosterol analogs & derivatives, Lipid Metabolism drug effects, Reishi chemistry
- Abstract
Ergosterol peroxide is a natural compound of the steroid family found in many fungi, and it possesses antioxidant, anti-inflammatory, anticancer and antiviral activities. The anti-obesity activity of several edible and medicinal mushrooms has been reported, but the effect of mushroom-derived ergosterol peroxide on obesity has not been studied. Therefore, we analyzed the effect of ergosterol peroxide on the inhibition of triglyceride synthesis at protein and mRNA levels and differentiation of 3T3-L1 adipocytes. Ergosterol peroxide inhibited lipid droplet synthesis of differentiated 3T3-L1 cells, expression of peroxisome proliferator-activated receptor gamma (PPARγ) and CCAT/enhancer-binding protein alpha (C/EBPα), the major transcription factors of differentiation, and also the expression of sterol regulatory element-binding protein-1c (SREBP-1c), which promotes the activity of PPARγ, resulting in inhibition of differentiation. It further inhibited the expression of fatty acid synthase (FAS), fatty acid translocase (FAT), and acetyl-coenzyme A carboxylase (ACC), which are lipogenic factors. In addition, it inhibited the phosphorylation of mitogen-activated protein kinases (MAPKs) involved in cell proliferation and activation of early differentiation transcription factors in the mitotic clonal expansion (MCE) stage. As a result, ergosterol peroxide significantly inhibited the synthesis of triglycerides and differentiation of 3T3-L1 cells, and is, therefore, a possibile prophylactic and therapeutic agent for obesity and related metabolic diseases., Competing Interests: The authors declare no conflict of interest.
- Published
- 2020
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3. Differentiation and Growth-Arrest-Related lncRNA ( DAGAR ): Initial Characterization in Human Smooth Muscle and Fibroblast Cells.
- Author
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de la Cruz-Thea B, Natali L, Ho-Xuan H, Bruckmann A, Coll-Bonfill N, Strieder N, Peinado VI, Meister G, and Musri MM
- Subjects
- Humans, Pulmonary Artery metabolism, Pulmonary Artery cytology, Muscle, Smooth, Vascular metabolism, Muscle, Smooth, Vascular cytology, Pulmonary Disease, Chronic Obstructive metabolism, Pulmonary Disease, Chronic Obstructive genetics, Pulmonary Disease, Chronic Obstructive pathology, Cells, Cultured, RNA, Long Noncoding genetics, RNA, Long Noncoding metabolism, Fibroblasts metabolism, Cell Differentiation genetics, Myocytes, Smooth Muscle metabolism, Cell Proliferation genetics
- Abstract
Vascular smooth muscle cells (SMCs) can transition between a quiescent contractile or "differentiated" phenotype and a "proliferative-dedifferentiated" phenotype in response to environmental cues, similar to what in occurs in the wound healing process observed in fibroblasts. When dysregulated, these processes contribute to the development of various lung and cardiovascular diseases such as Chronic Obstructive Pulmonary Disease (COPD). Long non-coding RNAs (lncRNAs) have emerged as key modulators of SMC differentiation and phenotypic changes. In this study, we examined the expression of lncRNAs in primary human pulmonary artery SMCs (hPASMCs) during cell-to-cell contact-induced SMC differentiation. We discovered a novel lncRNA, which we named Differentiation And Growth Arrest-Related lncRNA ( DAGAR ) that was significantly upregulated in the quiescent phenotype with respect to proliferative SMCs and in cell-cycle-arrested MRC5 lung fibroblasts. We demonstrated that DAGAR expression is essential for SMC quiescence and its knockdown hinders SMC differentiation. The treatment of quiescent SMCs with the pro-inflammatory cytokine Tumor Necrosis Factor (TNF), a known inducer of SMC dedifferentiation and proliferation, elicited DAGAR downregulation. Consistent with this, we observed diminished DAGAR expression in pulmonary arteries from COPD patients compared to non-smoker controls. Through pulldown experiments followed by mass spectrometry analysis, we identified several proteins that interact with DAGAR that are related to cell differentiation, the cell cycle, cytoskeleton organization, iron metabolism, and the N-6-Methyladenosine (m6A) machinery. In conclusion, our findings highlight DAGAR as a novel lncRNA that plays a crucial role in the regulation of cell proliferation and SMC differentiation. This paper underscores the potential significance of DAGAR in SMC and fibroblast physiology in health and disease.
- Published
- 2024
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4. Cholangiocarcinoma Insights: Established Foundations and Cutting-Edge Innovations from Dr. James Cleary's Pioneering Research.
- Author
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Cortiana, Viviana, Chorya, Harshal, Joshi, Muskan, Kannan, Shreevikaa, Mahendru, Diksha, Vallabhaneni, Harshitha, Coloma, Helena S., Leyfman, Yan, and Park, Chandler H.
- Subjects
ASSOCIATIONS, institutions, etc. ,FIBROBLAST growth factors ,CELL differentiation ,BILE duct tumors ,GENETIC mutation ,CHOLANGIOCARCINOMA ,CELL receptors ,INDIVIDUALIZED medicine ,GENOMICS ,MEDICAL research ,DIFFUSION of innovations ,PHENOTYPES - Abstract
Simple Summary: Biliary tract malignancies, including cholangiocarcinoma (CCA) and gallbladder neoplasms, present intricate challenges in diagnosis and treatment. This comprehensive overview highlights the diversity of CCA subtypes, their genetic underpinnings, and the pivotal role of etiological factors. Despite diagnostic complexities, advancements in genomic sequencing reveal promising therapeutic targets, such as FGFR2 alterations and IDH1 mutations. Dr. James Cleary's insights underscore the potential of these targets in reshaping the treatment landscape. This paper provides insights into the conventional understanding of biliary tract malignancies and emphasizes the critical need for ongoing research to optimize outcomes in this challenging cancer subtype. By elucidating diverse FGFR2 alterations and the potential of IDH1 inhibition, the aim is to pave the way for targeted therapeutic interventions. As we delve deeper into understanding the intricate complexities of biliary tract malignancies, this research seeks to drive precision medicine forward, offering hope for improved treatment strategies and outcomes in the face of this formidable cancer. This paper provides insights into the conventional understanding of biliary tract malignancies, with a specific focus on cholangiocarcinoma (CCA). We then delve into the groundbreaking ideas presented by Dr. James Cleary. CCA, originating from biliary tree cells, manifests diverse subtypes contingent upon anatomical localization and differentiation status. These variants exhibit discrete genetic aberrations, yielding disparate clinical phenotypes and therapeutic modalities. Intrahepatic, perihilar, and distal CCAs intricately involve distinct segments of the biliary tree, further categorized as well-differentiated, moderately differentiated, or poorly differentiated adenocarcinomas based on their histological differentiation. Understanding the etiological factors contributing to CCA development assumes paramount importance. Stratifying these factors into two groups, those unrelated to fluke infestations (e.g., viral hepatitis and fatty liver conditions) and those associated with fluke infestations (e.g., chronic liver inflammation), facilitates predictive modeling. The epidemiology of CCA exhibits global variability, with Southeast Asia notably displaying higher incidences attributed primarily to liver fluke infestations. Jaundice resulting from bile duct obstruction constitutes a prevalent clinical manifestation of CCA, alongside symptoms like malaise, weight loss, and abdominal pain. Diagnostic challenges arise due to the symptomatic overlap with other biliary disorders. Employing comprehensive liver function tests and imaging modalities such as computed tomography assumes a pivotal role in ensuring accurate diagnosis and staging. However, the definitive confirmation of CCA necessitates a biopsy. Treatment modalities, predominantly encompassing surgical resection and radiation therapy, hold curative potential, although a considerable subset of patients is deemed unresectable upon exploration. Challenges intensify, particularly in cases classified as cancer of unknown origin, underscoring the imperative for early intervention. Advancements in genomic sequencing have revolutionized precision medicine in CCA. Distinct genomic markers, including fibroblast growth factor receptor 2 (FGFR2) alterations and isocitrate dehydrogenase 1 (IDH1) mutations, have emerged as promising therapeutic targets. FGFR2 alterations, encompassing mutations and rearrangements, play pivotal roles in oncogenesis, with FGFR inhibitors demonstrating promise despite identified resistance mechanisms. Similarly, IDH1 inhibitors face challenges with resistance, despite encouraging early clinical trial results, prompting exploration of novel irreversible inhibitors. Dr. James Cleary's illuminating discourse underscores the significance of diverse FGFR2 alterations and the potential of IDH1 inhibition in reshaping the treatment landscape for CCA. These findings unveil critical avenues for targeted therapeutic interventions, emphasizing the critical need for ongoing research to optimize outcomes in this challenging cancer subtype, incorporating innovative insights from Dr. Cleary. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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5. Effects of the MCF-7 Exhausted Medium on hADSC Behaviour.
- Author
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Garroni G, Cruciani S, Serra D, Pala R, Coradduzza D, Cossu ML, Ginesu GC, Ventura C, and Maioli M
- Subjects
- Humans, MCF-7 Cells, Female, MicroRNAs genetics, MicroRNAs metabolism, Adipogenesis genetics, Stem Cells metabolism, Stem Cells cytology, Stem Cells drug effects, Culture Media pharmacology, Culture Media chemistry, Cell Differentiation drug effects, Cell Proliferation drug effects, Adipose Tissue cytology, Adipose Tissue metabolism, Osteogenesis drug effects, Osteogenesis genetics
- Abstract
Stem cells possess the ability to differentiate into different lineages and the ability to self-renew, thus representing an excellent tool for regenerative medicine. They can be isolated from different tissues, including the adipose tissue. Adipose tissue and human adipose-derived stem cells (hADSCs) are privileged candidates for regenerative medicine procedures or other plastic reconstructive surgeries. The cellular environment is able to influence the fate of stem cells residing in the tissue. In a previous study, we exposed hADSCs to an exhausted medium of a breast cancer cell line (MCF-7) recovered at different days (4, 7, and 10 days). In the same paper, we inferred that the medium was able to influence the behaviour of stem cells. Considering these results, in the present study, we evaluated the expression of the major genes related to adipogenic and osteogenic differentiation. To confirm the gene expression data, oil red and alizarin red colorimetric assays were performed. Lastly, we evaluated the expression of miRNAs influencing the differentiation process and the proliferation rate, maintaining a proliferative state. The data obtained confirmed that cells exposed to the medium maintained a stem and proliferative state that could lead to a risky proliferative phenotype.
- Published
- 2024
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6. Self-Organization and Genomic Causality in Models of Morphogenesis.
- Author
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Deichmann, Ute
- Subjects
CELL differentiation ,GENE regulatory networks ,MORPHOGENESIS ,EMBRYOLOGY ,REGULATOR genes ,BIOLOGISTS - Abstract
The debate about what causes the generation of form and structure in embryological development goes back to antiquity. Most recently, it has focused on the divergent views as to whether the generation of patterns and form in development is a largely self-organized process or is mainly determined by the genome, in particular, complex developmental gene regulatory processes. This paper presents and analyzes pertinent models of pattern formation and form generation in a developing organism in the past and the present, with a special emphasis on Alan Turing's 1952 reaction–diffusion model. I first draw attention to the fact that Turing's paper remained, at first, without a noticeable impact on the community of biologists because purely physical–chemical models were unable to explain embryological development and often also simple repetitive patterns. I then show that from the year 2000 and onwards, Turing's 1952 paper was increasingly cited also by biologists. The model was updated to include gene products and now seemed able to account for the generation of biological patterns, though discrepancies between models and biological reality remained. I then point out Eric Davidson's successful theory of early embryogenesis based on gene-regulatory network analysis and its mathematical modeling that not only was able to provide a mechanistic and causal explanation for gene regulatory events controlling developmental cell fate specification but, unlike reaction–diffusion models, also addressed the effects of evolution and organisms' longstanding developmental and species stability. The paper concludes with an outlook on further developments of the gene regulatory network model. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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7. PDZ and LIM Domain-Encoding Genes: Their Role in Cancer Development.
- Author
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Jiang, Xinyuan, Xu, Zhiyong, Jiang, Sujing, Wang, Huan, Xiao, Mingshu, Shi, Yueli, and Wang, Kai
- Subjects
PROTEIN metabolism ,PROTEINS ,CELL differentiation ,PHYLOGENY ,GENETICS ,CARCINOGENESIS ,CELLULAR signal transduction ,CELL motility ,CELL proliferation - Abstract
Simple Summary: There are three subfamilies of human PDZ-LIM family proteins with a total of 10 protein molecules, and PDZ-LIM family proteins serve as a class of scaffolding proteins that assume the function of signal transduction. In this paper, we describe the signature structural domains and major regulatory signals of PDZ-LIM family proteins and provide an overview and discussion of their functions in various tumors and major diseases, aiming to provide directions for future disease (mainly tumor) prevention and drug development. PDZ-LIM family proteins (PDLIMs) are a kind of scaffolding proteins that contain PDZ and LIM interaction domains. As protein–protein interacting molecules, PDZ and LIM domains function as scaffolds to bind to a variety of proteins. The PDLIMs are composed of evolutionarily conserved proteins found throughout different species. They can participate in cell signal transduction by mediating the interaction of signal molecules. They are involved in many important physiological processes, such as cell differentiation, proliferation, migration, and the maintenance of cellular structural integrity. Studies have shown that dysregulation of the PDLIMs leads to tumor formation and development. In this paper, we review and integrate the current knowledge on PDLIMs. The structure and function of the PDZ and LIM structural domains and the role of the PDLIMs in tumor development are described. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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8. Recent Advancements in Bone Tissue Engineering: Integrating Smart Scaffold Technologies and Bio-Responsive Systems for Enhanced Regeneration.
- Author
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Percival, Kelly M., Paul, Vinod, and Husseini, Ghaleb A.
- Subjects
TISSUE engineering ,BIOMATERIALS ,TISSUE scaffolds ,BONE regeneration ,MANUFACTURING cells ,REGENERATION (Biology) ,NANOSTRUCTURED materials ,CELL differentiation - Abstract
In exploring the challenges of bone repair and regeneration, this review evaluates the potential of bone tissue engineering (BTE) as a viable alternative to traditional methods, such as autografts and allografts. Key developments in biomaterials and scaffold fabrication techniques, such as additive manufacturing and cell and bioactive molecule-laden scaffolds, are discussed, along with the integration of bio-responsive scaffolds, which can respond to physical and chemical stimuli. These advancements collectively aim to mimic the natural microenvironment of bone, thereby enhancing osteogenesis and facilitating the formation of new tissue. Through a comprehensive combination of in vitro and in vivo studies, we scrutinize the biocompatibility, osteoinductivity, and osteoconductivity of these engineered scaffolds, as well as their interactions with critical cellular players in bone healing processes. Findings from scaffold fabrication techniques and bio-responsive scaffolds indicate that incorporating nanostructured materials and bioactive compounds is particularly effective in promoting the recruitment and differentiation of osteoprogenitor cells. The therapeutic potential of these advanced biomaterials in clinical settings is widely recognized and the paper advocates continued research into multi-responsive scaffold systems. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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9. The Functional Mechanism of BP9 in Promoting B Cell Differentiation and Inducing Antigen Presentation.
- Author
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Hu, Jianing, Zhang, Ze, Cai, Jiaxi, Hao, Shanshan, Li, Chenfei, and Feng, Xiuli
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B cell differentiation ,ANTIGEN presentation ,PLASMA cells ,B cells ,CELL differentiation - Abstract
The Bursa of Fabricius, an avian unique humoral immune organ, is instrumental to B cell development. Bursal-derived peptide BP9 fosters B-cell development and formation. Yet, the exact mechanism wherein BP9 impacts B cell differentiation and antigenic presentation remains undefined. In this paper, B cell activation and differentiation in the spleen cells from mice immunized with the AIV vaccine and BP9 were detected following flow cytometry (FCM) analysis. Furthermore, the molecular mechanism of BP9 in B cell differentiation in vivo was investigated with RNA sequencing technology. To verify the potential functional mechanism of BP9 in the antigenic presentation process, the transcriptome molecular basis of chicken macrophages stimulated by BP9 was measured via high-throughput sequencing technology. The results proved that when given in experimental dosages, BP9 notably accelerated total B cells, and enhanced B-cell differentiation and plasma cell production. The gene expression profiles of B cells from mice immunized with 0.01 mg/mL BP9 and AIV vaccine disclosed that 0.01 mg/mL BP9 initiated the enrichment of several biological functions and significantly stimulated key B-cell pathways in immunized mice. Crucially, a total of 4093 differentially expressed genes were identified in B cells with BP9 stimulation, including 943 upregulated genes and 3150 downregulated genes. Additionally, BP9 induced various cytokine productions in the chicken macrophage HD11 cells and activated 9 upregulated and 20 downregulated differential miRNAs, which were involved in various signal and biological processes. Furthermore, BP9 stimulated the activation of multiple transcription factors in HD11 cells, which was related to antigen presentation processes. In summary, these results suggested that BP9 might promote B cell differentiation and induce antigen presentation, which might provide the valuable insights into the mechanism of B cell differentiation upon bursal-derived immunomodulating peptide stimulation and provide a solid experimental groundwork for enhancing vaccine-induced immunity. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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10. A Residual N-Terminal Peptide Enhances Signaling of Depalmitoylated Hedgehog to the Patched Receptor.
- Author
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Ehlers, Sophia F., Manikowski, Dominique, Steffes, Georg, Ehring, Kristina, Gude, Fabian, and Grobe, Kay
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PEPTIDES ,CELL membranes ,AMINO acids ,CELL differentiation ,BIOSYNTHESIS - Abstract
During their biosynthesis, Sonic hedgehog (Shh) morphogens are covalently modified by cholesterol at the C-terminus and palmitate at the N-terminus. Although both lipids initially anchor Shh to the plasma membrane of producing cells, it later translocates to the extracellular compartment to direct developmental fates in cells expressing the Patched (Ptch) receptor. Possible release mechanisms for dually lipidated Hh/Shh into the extracellular compartment are currently under intense debate. In this paper, we describe the serum-dependent conversion of the dually lipidated cellular precursor into a soluble cholesteroylated variant (Shh
C ) during its release. Although ShhC is formed in a Dispatched- and Scube2-dependent manner, suggesting the physiological relevance of the protein, the depalmitoylation of ShhC during release is inconsistent with the previously postulated function of N-palmitate in Ptch receptor binding and signaling. Therefore, we analyzed the potency of ShhC to induce Ptch-controlled target cell transcription and differentiation in Hh-sensitive reporter cells and in the Drosophila eye. In both experimental systems, we found that ShhC was highly bioactive despite the absence of the N-palmitate. We also found that the artificial removal of N-terminal peptides longer than eight amino acids inactivated the depalmitoylated soluble proteins in vitro and in the developing Drosophila eye. These results demonstrate that N-depalmitoylated ShhC requires an N-peptide of a defined minimum length for its signaling function to Ptch. [ABSTRACT FROM AUTHOR]- Published
- 2024
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11. Correction: Ran et al. Nomogram for Predicting Recurrence-Free Survival of Primary Localized Gastrointestinal Stromal Tumor. J. Pers. Med. 2023, 13 , 498.
- Author
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Ran, Pan, Tan, Tao, Zhou, Hui, Li, Jinjin, Yang, Hao, Li, Juan, and Zhang, Jun
- Subjects
MULTIVARIATE analysis ,TUMOR proteins ,CELL differentiation ,NOMOGRAPHY (Mathematics) ,KI-67 antigen ,GASTROINTESTINAL stromal tumors - Abstract
This document is a correction notice for an article titled "Nomogram for Predicting Recurrence-Free Survival of Primary Localized Gastrointestinal Stromal Tumor." The correction states that there were mistakes in Table 2 and Figure 3 of the original publication. The corrected versions of Table 2 and Figure 3 are provided in the document. The authors of the article state that these corrections do not significantly impact the overall findings and conclusions of the paper. [Extracted from the article]
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- 2024
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12. ID2 Promotes Lineage Transition of Prostate Cancer through FGFR and JAK-STAT Signaling.
- Author
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Zhang, Jinxiong, Chen, Zhihao, Mao, Yongxin, He, Yijun, Wu, Xin, Wu, Jianhong, and Sheng, Lu
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CELL differentiation ,FIBROBLAST growth factors ,IN vitro studies ,IN vivo studies ,CELL receptors ,CELLULAR signal transduction ,JANUS kinases ,DNA-binding proteins ,RESEARCH funding ,ANDROGEN receptors ,PROSTATE tumors ,DRUG resistance in cancer cells ,PHENOTYPES - Abstract
Simple Summary: Androgen receptor-negative prostate cancer is one of the important mechanisms of castration resistant prostate cancer. The application of next generation androgen receptor signaling pathway inhibitors (ARPIs) has led to a gradual increase of AR-negative prostate cancer in the clinic. In this paper, we demonstrated the potential promotional role of ID2 in androgen receptor-negative prostate cancer through extensive bioinformatics analysis and experimental studies. Through transcriptome sequencing and downstream functional enrichment analysis, we found that ID2 can activate neuroendocrine or stemness-related pathways and inhibit androgen receptor signaling pathways. ID2 can activate JAK/STAT signaling pathway as well as FGFR signaling pathway to promote the acquisition of prostate cancer lineage plasticity, which in turn leads to androgen receptor-negative prostate cancer. Through cell function experiments and mouse experiments, we reveal that ID2 can promote prostate cancer evolution. Using transcriptome sequencing and publicly available clinical data, we generated ID2-related gene signatures to help determine clinical prognosis. The use of androgen receptor pathway inhibitors (ARPIs) has led to an increase in the proportion of AR-null prostate cancer, including neuroendocrine prostate cancer (NEPC) and double-negative prostate cancer (DNPC), but the mechanism underlying this lineage transition has not been elucidated. We found that ID2 expression was increased in AR-null prostate cancer. In vitro and in vivo studies confirmed that ID2 promotes PCa malignancy and can confer resistance to enzalutamide in PCa cells. We generated an ID2 UP50 signature, which is capable of determining resistance to enzalutamide and is valuable for predicting patient prognosis. Functional experiments showed that ID2 could activate stemness-associated JAK/STAT and FGFR signaling while inhibiting the AR signaling pathway. Our study indicates a potentially strong association between ID2 and the acquisition of a stem-like phenotype in adenocarcinoma cells, leading to resistance to androgen deprivation therapy (ADT) and next-generation ARPIs in prostate cancer. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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13. Recent Developments in In Vitro Spermatogenesis and Future Directions.
- Author
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Cho, In Ki and Easley, Charles A.
- Subjects
IN vitro studies ,CELL differentiation ,MEN'S health ,GENETICS ,CELL physiology ,STEM cells ,FERTILITY ,TISSUE engineering ,CELL proliferation ,MICROFLUIDICS ,REPRODUCTIVE health ,BIOTECHNOLOGY - Abstract
Recent developments in stem cell technologies have made significant advancements in the field of in vitro gametogenesis. In vitro gametogenesis (IVG) is a promising technology where functional gametes (sperm or egg cells) can be generated from stem cells. Scientists have made continuous advancements in the field and successfully derived fully functional sperm from stem cells in mice. Two recent papers generated excitement in IVG by generating bi-maternal and bi-paternal mice from embryonic stem cells (ESCs) and pluripotent stem cells (PSCs). IVG is a promising technology with potential applications that include infertility treatment, fertility preservation, same-sex reproduction, bypassing oocyte depletion in women with advanced age, conservation biology, genetic disorder prevention, and research into human germ cell development. In vitro spermatogenesis (IVS) is the attempt to recreate the process of spermatogenesis in a culture system. Spermatogenesis is essential for male fertility and reproductive health, but it can be impaired by various factors such as genetic defects, environmental toxicants, infections, aging, or medical therapies. Spermatogenesis is a complex and highly regulated process involving multiple cell proliferation, differentiation, and maturation stages. The main challenges of IVS are to provide a suitable microenvironment that mimics the testis in vivo, to support the survival and development of all the cell types involved in spermatogenesis, and to achieve complete and functional spermatogenesis. Therefore, there is a great interest in developing methods to study spermatogenesis in vitro, both for basic research and clinical applications. This review covers recent developments in in vitro spermatogenesis in the past two years. Advances in tissue engineering and regenerative medicine have introduced techniques like ex vivo tissue culture and technologies such as bioreactors, microfluidic systems, and organoids. Bioreactors and microfluidic systems replicate physiological conditions for tissue and cell cultivation, while organoids model organ functionality. Meanwhile, scaffolds, made from various materials, provide essential structural support, guiding the growth and organization of cells into functional tissues. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
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14. A Common Molecular Signature Indicates the Pre-Meristematic State of Plant Calli.
- Author
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Fehér, Attila
- Subjects
REGENERATION (Botany) ,PLANT hormones ,CALLUS (Botany) ,SOMATIC embryogenesis ,CELL division ,SOMATIC cells ,CELL differentiation ,PLANT biotechnology - Abstract
In response to different degrees of mechanical injury, certain plant cells re-enter the division cycle to provide cells for tissue replenishment, tissue rejoining, de novo organ formation, and/or wound healing. The intermediate tissue formed by the dividing cells is called a callus. Callus formation can also be induced artificially in vitro by wounding and/or hormone (auxin and cytokinin) treatments. The callus tissue can be maintained in culture, providing starting material for de novo organ or embryo regeneration and thus serving as the basis for many plant biotechnology applications. Due to the biotechnological importance of callus cultures and the scientific interest in the developmental flexibility of somatic plant cells, the initial molecular steps of callus formation have been studied in detail. It was revealed that callus initiation can follow various ways, depending on the organ from which it develops and the inducer, but they converge on a seemingly identical tissue. It is not known, however, if callus is indeed a special tissue with a defined gene expression signature, whether it is a malformed meristem, or a mass of so-called "undifferentiated" cells, as is mostly believed. In this paper, I review the various mechanisms of plant regeneration that may converge on callus initiation. I discuss the role of plant hormones in the detour of callus formation from normal development. Finally, I compare various Arabidopsis gene expression datasets obtained a few days, two weeks, or several years after callus induction and identify 21 genes, including genes of key transcription factors controlling cell division and differentiation in meristematic regions, which were upregulated in all investigated callus samples. I summarize the information available on all 21 genes that point to the pre-meristematic nature of callus tissues underlying their wide regeneration potential. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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15. PI3K Inhibitors for the Treatment of Chronic Lymphocytic Leukemia: Current Status and Future Perspectives.
- Author
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Hus, Iwona, Puła, Bartosz, and Robak, Tadeusz
- Subjects
CHRONIC lymphocytic leukemia ,CELL differentiation ,PHOSPHOTRANSFERASES ,GENE expression ,TREATMENT effectiveness ,PATIENT safety ,CHEMICAL inhibitors - Abstract
Simple Summary: The development of small agents targeting the B-cell receptor (BCR) pathway revolutionized the treatment of chronic lymphocytic leukemia (CLL). BCR-dependent leukemic cell proliferation is governed by phosphoinositide 3-kinase (PI3K) signaling. The selective PI3Kδ inhibitor idelalisib and dual PI3Kδ/γ inhibitor duvelisib are currently approved by the Food and Drug Administration and European Medicine Agency (only idelalisib) for CLL treatment. Umbralisib, a selective PI3Kδ and casein kinase-1ε (CK1ε) inhibitor, has a different chemical structure and a more favorable safety profile than other PI3K inhibitors (PiK3is); this has enabled its use in combination regimens in clinical trials in first-line and relapsed/refractory CLL. This paper summarizes the development of PI3Kis, their current role and future perspectives in the treatment of patients with CLL. Phosphoinositide 3-kinases (PI3Ks) signaling regulates key cellular processes, such as growth, survival and apoptosis. Among the three classes of PI3K, class I is the most important for the development, differentiation and activation of B and T cells. Four isoforms are distinguished within class I (PI3Kα, PI3Kβ, PI3Kδ and PI3Kγ). PI3Kδ expression is limited mainly to the B cells and their precursors, and blocking PI3K has been found to promote apoptosis of chronic lymphocytic leukemia (CLL) cells. Idelalisib, a selective PI3Kδ inhibitor, was the first-in-class PI3Ki introduced into CLL treatment. It showed efficacy in patients with del(17p)/TP53 mutation, unmutated IGHV status and refractory/relapsed disease. However, its side effects, such as autoimmune-mediated pneumonitis and colitis, infections and skin changes, limited its widespread use. The dual PI3Kδ/γ inhibitor duvelisib is approved for use in CLL patients but with similar toxicities to idelalisib. Umbralisib, a highly selective inhibitor of PI3Kδ and casein kinase-1ε (CK1ε), was found to be efficient and safe in monotherapy and in combination regimens in phase 3 trials in patients with CLL. Novel PI3Kis are under evaluation in early phase clinical trials. In this paper we present the mechanism of action, efficacy and toxicities of PI3Ki approved in the treatment of CLL and developed in clinical trials. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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16. Non-Coding RNAs in Airway Diseases: A Brief Overview of Recent Data.
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Albano, Giusy Daniela, Gagliardo, Rosalia, Montalbano, Angela Marina, and Profita, Mirella
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TREATMENT of respiratory diseases ,GENETICS of asthma ,RESPIRATORY diseases ,CELL differentiation ,AIR pollution ,LUNGS ,INFLAMMATION ,MICRORNA ,APOPTOSIS ,NEOPLASTIC cell transformation ,LUNG tumors ,GENE expression ,CELL proliferation ,OBSTRUCTIVE lung diseases ,EXTRACELLULAR vesicles - Abstract
Simple Summary: Nc-RNA are microRNA, long-coding RNA, and circulating-RNA. In this review we report most recent data regarding the role of nc-RNA in airway diseases, with a particular attention to microRNA. They are short, endogenously initiated non-coding RNAs involved in post-transcriptionally control gene expression via either translational repression or mRNA degradation. MiRNAs play significant roles in control of cell mechanisms involved in developmental timing and host-pathogen interactions as well as cell differentiation, proliferation, apoptosis, and tumorigenesis. Today the knowledge of the functions of the micro-RNA are of fundamental importance to define the subtypes of inflammatory diseases of the lung and to understand the effectiveness of the treatment. Inflammation of the human lung is mediated in response to different stimuli (e.g., physical, radioactive, infective, pro-allergenic, or toxic) such as cigarette smoke and environmental pollutants. These stimuli often promote an increase in different inflammatory activities in the airways, manifesting themselves as chronic diseases (e.g., allergic airway diseases, asthma chronic bronchitis/chronic obstructive pulmonary disease, or even lung cancer). Non-coding RNA (ncRNAs) are single-stranded RNA molecules of few nucleotides that regulate the gene expression involved in many cellular processes. ncRNA are molecules typically involved in the reduction of translation and stability of the genes of mRNAs s. They regulate many biological aspects such as cellular growth, proliferation, differentiation, regulation of cell cycle, aging, apoptosis, metabolism, and neuronal patterning, and influence a wide range of biologic processes essential for the maintenance of cellular homeostasis. The relevance of ncRNAs in the pathogenetic mechanisms of respiratory diseases has been widely established and in the last decade many papers were published. However, once their importance is established in pathogenetic mechanisms, it becomes important to further deepen the research in this direction. In this review we describe several of most recent knowledge concerning ncRNA (overall miRNAs) expression and activities in the lung. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
17. Biodegradable and Non-Biodegradable Biomaterials and Their Effect on Cell Differentiation.
- Author
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Geevarghese, Rency, Sajjadi, Seyedeh Sara, Hudecki, Andrzej, Sajjadi, Samad, Jalal, Nahid Rezvani, Madrakian, Tayyebeh, Ahmadi, Mazaher, Włodarczyk-Biegun, Małgorzata K., Ghavami, Saeid, Likus, Wirginia, Siemianowicz, Krzysztof, and Łos, Marek J.
- Subjects
CELL differentiation ,POLYETHYLENE terephthalate ,REGENERATIVE medicine ,POLYLACTIC acid ,POLYVINYL alcohol ,TISSUE scaffolds ,SOMATIC cells ,BIOMATERIALS - Abstract
Biomaterials for tissue scaffolds are key components in modern tissue engineering and regenerative medicine. Targeted reconstructive therapies require a proper choice of biomaterial and an adequate choice of cells to be seeded on it. The introduction of stem cells, and the transdifferentiation procedures, into regenerative medicine opened a new era and created new challenges for modern biomaterials. They must not only fulfill the mechanical functions of a scaffold for implanted cells and represent the expected mechanical strength of the artificial tissue, but furthermore, they should also assure their survival and, if possible, affect their desired way of differentiation. This paper aims to review how modern biomaterials, including synthetic (i.e., polylactic acid, polyurethane, polyvinyl alcohol, polyethylene terephthalate, ceramics) and natural (i.e., silk fibroin, decellularized scaffolds), both non-biodegradable and biodegradable, could influence (tissue) stem cells fate, regulate and direct their differentiation into desired target somatic cells. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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18. The Microbiota Is Not an Organ: Introducing the Muco-Microbiotic Layer as a Novel Morphofunctional Structure.
- Author
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Fucarino, Alberto, Burgio, Stefano, Paladino, Letizia, Caruso Bavisotto, Celeste, Pitruzzella, Alessandro, Bucchieri, Fabio, and Cappello, Francesco
- Subjects
EMBRYOLOGY ,CELL differentiation ,ANTIBIOTICS ,PATHOLOGICAL physiology ,SCIENTISTS - Abstract
In this paper, we want to refute the notion that the microbiota should be considered an organ, given that an organ comprises tissue of similar or different embryological origin, while the microbiota is a pool of different microbial species originating individually from single replications and not from a common ancestral cellular element. Hence, we would like to propose a new morphological interpretation of its nature, based on the comprehensive context in which these microbes live: a muco-microbiotic layer of hollow organs, such as the airways and the bowel. The above concept should represent not only a new terminological annotation but also a more accurate portrayal of the physiology and pathophysiology of these organs. Indeed, a better understanding of the biological nature of this part of the human body can help scientists develop more specific experimental protocols, potentially leading to the establishment of better therapeutic strategies. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
19. A Sweet Warning: Mucin-Type O-Glycans in Cancer.
- Author
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Zhang, Yuhan, Sun, Lingbo, Lei, Changda, Li, Wenyan, Han, Jiaqi, Zhang, Jing, and Zhang, Yuecheng
- Subjects
POST-translational modification ,TISSUE differentiation ,CELL differentiation ,STOMACH cancer ,GLYCOSYLTRANSFERASES - Abstract
Glycosylation is a common post-translational modification process of proteins. Mucin-type O-glycosylation is an O-glycosylation that starts from protein serine/threonine residues. Normally, it is involved in the normal development and differentiation of cells and tissues, abnormal glycosylation can lead to a variety of diseases, especially cancer. This paper reviews the normal biosynthesis of mucin-type O-glycans and their role in the maintenance of body health, followed by the mechanisms of abnormal mucin-type O-glycosylation in the development of diseases, especially tumors, including the effects of Tn, STn, T antigen, and different glycosyltransferases, with special emphasis on their role in the development of gastric cancer. Finally, tumor immunotherapy targeting mucin-type O-glycans was discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
20. Silicon-Gold Nanoparticles Affect Wharton's Jelly Phenotype and Secretome during Tri-Lineage Differentiation.
- Author
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Svirshchevskaya EV, Sharonova NV, Poltavtseva RA, Konovalova MV, Efimov AE, Popov AA, Sizova SV, Solovyeva DO, Bogdanov IV, and Oleinikov VA
- Subjects
- Adipogenesis drug effects, Animals, CD13 Antigens metabolism, Chondrogenesis drug effects, Female, Humans, Mesenchymal Stem Cells drug effects, Mesenchymal Stem Cells metabolism, Phenotype, Secretome metabolism, Thy-1 Antigens metabolism, Vascular Endothelial Growth Factor A metabolism, Wharton Jelly metabolism, Cell Differentiation drug effects, Gold pharmacology, Metal Nanoparticles administration & dosage, Secretome drug effects, Silicon pharmacology, Wharton Jelly drug effects
- Abstract
Multiple studies have demonstrated that various nanoparticles (NPs) stimulate osteogenic differentiation of mesenchymal stem cells (MSCs) and inhibit adipogenic ones. The mechanisms of these effects are not determined. The aim of this paper was to estimate Wharton's Jelly MSCs phenotype and humoral factor production during tri-lineage differentiation per se and in the presence of silicon-gold NPs. Silicon (SiNPs), gold (AuNPs), and 10% Au-doped Si nanoparticles (SiAuNPs) were synthesized by laser ablation, characterized, and studied in MSC cultures before and during differentiation. Humoral factor production ( n = 41) was analyzed by Luminex technology. NPs were nontoxic, did not induce ROS production, and stimulated G-CSF, GM-CSF, VEGF, CXCL1 (GRO) production in four day MSC cultures. During MSC differentiation, all NPs stimulated CD13 and CD90 expression in osteogenic cultures. MSC differentiation resulted in a decrease in multiple humoral factor production to day 14 of incubation. NPs did not significantly affect the production in chondrogenic cultures and stimulated it in both osteogenic and adipogenic ones. The major difference in the protein production between osteogenic and adipogenic MSC cultures in the presence of NPs was VEGF level, which was unaffected in osteogenic cells and 4-9 times increased in adipogenic ones. The effects of NPs decreased in a row AuNPs > SiAuNPs > SiNPs. Taken collectively, high expression of CD13 and CD90 by MSCs and critical level of VEGF production can, at least, partially explain the stimulatory effect of NPs on MSC osteogenic differentiation.
- Published
- 2022
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21. Melatonin Promotes Antler Growth by Accelerating MT1-Mediated Mesenchymal Cell Differentiation and Inhibiting VEGF-Induced Degeneration of Chondrocytes.
- Author
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Sun X, Gu X, Li K, Li M, Peng J, Zhang X, Yang L, and Xiong J
- Subjects
- Animals, Antlers, Biomarkers, Cells, Cultured, Chondrocytes pathology, Chondrogenesis drug effects, Chondrogenesis genetics, Gene Expression Regulation, Melatonin administration & dosage, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells drug effects, Mesenchymal Stem Cells metabolism, Signal Transduction, Vascular Endothelial Growth Factor A metabolism, Cell Differentiation drug effects, Chondrocytes drug effects, Chondrocytes metabolism, Melatonin pharmacology, Receptor, Melatonin, MT1 metabolism, Vascular Endothelial Growth Factor A pharmacology
- Abstract
The sika deer is one type of seasonal breeding animal, and the growth of its antler is affected by light signals. Melatonin (MLT) is a neuroendocrine hormone synthesized by the pineal gland and plays an important role in controlling the circadian rhythm. Although the MLT/MT1 (melatonin 1A receptor) signal has been identified during antler development, its physiological function remains almost unknown. The role of MLT on antler growth in vivo and in vitro is discussed in this paper. In vivo, MLT implantation was found to significantly increase the weight of antlers. The relative growth rate of antlers showed a remarkable increased trend as well. In vitro, the experiment showed MLT accelerated antler mesenchymal cell differentiation. Further, results revealed that MLT regulated the expression of Collage type II (Col2a) through the MT1 binding mediated transcription of Yes-associated protein 1 (YAP1) in antler mesenchymal cells. In addition, treatment with vascular endothelial growth factor (VEGF) promoted chondrocytes degeneration by downregulating the expression of Col2a and Sox9 (SRY-Box Transcription Factor 9). MLT effectively inhibited VEGF-induced degeneration of antler chondrocytes by inhibiting the Signal transducers and activators of transcription 5/Interleukin-6 (STAT5/IL-6) pathway and activating the AKT/CREB (Cyclin AMP response-element binding protein) pathway dependent on Sox9 expression. Together, our results indicate that MLT plays a vital role in the development of antler cartilage.
- Published
- 2022
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22. Synthesis of C2-Alkoxy-Substituted 19-Nor Vitamin D 3 Derivatives: Stereoselectivity and Biological Activity.
- Author
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Mizumoto Y, Sakamoto R, Nagata A, Sakane S, Kittaka A, Odagi M, Tera M, and Nagasawa K
- Subjects
- HL-60 Cells, Humans, Structure-Activity Relationship, Cell Differentiation drug effects, Cholecalciferol analogs & derivatives, Cholecalciferol chemical synthesis, Cholecalciferol chemistry, Cholecalciferol pharmacology
- Abstract
The active form of vitamin D
3 (D3 ), 1a,25-dihydroxyvitamn D3 (1,25D3 ), plays a central role in calcium and bone metabolism. Many structure-activity relationship (SAR) studies of D3 have been conducted, with the aim of separating the biological activities of 1,25D3 or reducing its side effects, such as hypercalcemia, and SAR studies have shown that the hypercalcemic activity of C2-substituted derivatives and 19-nor type derivatives is significantly suppressed. In the present paper, we describe the synthesis of 19-nor type 1,25D3 derivatives with alkoxy groups at C2, by means of the Julia-Kocienski type coupling reaction between a C2 symmetrical A ring ketone and a CD ring synthon. The effect of C2 substituents on the stereoselectivity of the coupling reaction was evaluated. The biological activities of the synthesized derivatives were evaluated in an HL-60 cell-based assay. The a-methoxy-substituted C2α-7a was found to show potent cell-differentiating activity, with an ED50 value of 0.38 nM, being 26-fold more potent than 1,25D3 .- Published
- 2022
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23. Long-Term Examination of Degradation and In Vivo Biocompatibility of Some Mg-0.5Ca-xY Alloys in Sprague Dawley Rats.
- Author
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Lupescu, Ștefan, Munteanu, Corneliu, Sindilar, Eusebiu Viorel, Istrate, Bogdan, Mihai, Iuliana, Oprisan, Bogdan, and Pasca, Aurelian-Sorin
- Subjects
SPRAGUE Dawley rats ,RATS ,ALLOYS ,LABORATORY rats ,ALLOY testing ,CELL differentiation ,TISSUE remodeling - Abstract
The medical field has undergone constant development in recent years, and a segment of this development is occupied by biodegradable alloys. The most common alloys in this field are those based on Mg, their main advantage being the ability to degrade gradually, without affecting the patient, and also their ability to be fully absorbed by the human body. One of their most important conditions is the regeneration and replacement of human tissue. Tissue can be engineered in different ways, one being tissue regeneration in vivo, which can serve as a template. In vivo remodeling aims to restore tissue or organs. The key processes of tissue formation and maturation are: proliferation (sorting and differentiation of cells), proliferation and organization of the extracellular matrix, biodegradation of the scaffold-remodeling, and potential tissue growth. In the present paper, the design of the alloys in the Mg-Ca-Y system is formed from the beginning using high-purity components, Mg-98.5%, master-alloys: Mg-Y (70 wt.%–30 wt.%) and Mg-Ca (85 wt.%–15 wt.%). After 8 weeks of implantation, the degradation of the implanted material is observed, and only small remaining fragments are found. At the site of implantation, no inflammatory reaction is observed, but it is observed that the process of integration and reabsorption, over time, accentuates the prosaic surface of the material. The aim of the work is to test the biocompatibility of magnesium-based alloys on laboratory rats in order to use these alloys in medical applications. The innovative parts of these analyses are the chemical composition of the alloys used and the tests performed on laboratory animals. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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- View/download PDF
24. Polymer-Based Materials Built with Additive Manufacturing Methods for Orthopedic Applications: A Review.
- Author
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Gide, Kunal Manoj, Islam, Sabrina, and Bagheri, Z. Shaghayegh
- Subjects
BIOPRINTING ,ARTIFICIAL organs ,CONSTRUCTION materials ,CELL differentiation ,CELL growth ,BIOMATERIALS ,TISSUE scaffolds - Abstract
Over the last few decades, polymers and their composites have shown a lot of promises in providing more viable alternatives to surgical procedures that require scaffolds and implants. With the advancement in biomaterial technologies, it is possible to overcome the limitations of current methods, including auto-transplantation, xeno-transplantation, and the implantation of artificial mechanical organs used to treat musculoskeletal conditions. The risks associated with these methods include complications, secondary injuries, and limited sources of donors. Three-dimensional (3D) printing technology has the potential to resolve some of these limitations. It can be used for the fabrication of tailored tissue-engineering scaffolds, and implants, repairing tissue defects in situ with cells, or even printing tissues and organs directly. In addition to perfectly matching the patient's damaged tissue, printed biomaterials can have engineered microstructures and cellular arrangements to promote cell growth and differentiation. As a result, such biomaterials allow the desired tissue repair to be achieved, and could eventually alleviate the shortage of organ donors. As such, this paper provides an overview of different 3D-printed polymers and their composites for orthopedic applications reported in the literature since 2010. For the benefit of the readers, general information regarding the material, the type of manufacturing method, and the biomechanical tests are also reported. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
25. Looking at Thyroid Cancer from the Tumor-Suppressor Genes Point of View.
- Author
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Rajabi, Sadegh, Alix-Panabières, Catherine, Alaei, Arshia Sharbatdar, Abooshahab, Raziyeh, Shakib, Heewa, and Ashrafi, Mohammad Reza
- Subjects
CELL differentiation ,GENETIC mutation ,THYROID gland tumors ,APOPTOSIS ,TUMOR suppressor genes ,GENE therapy ,CELL proliferation - Abstract
Simple Summary: Thyroid cancer is the most common endocrine cancer. As tumor-suppressor genes (TSGs) are implicated in many different functions in the organism, their loss in cells in a normal tissue may drive their transformation into cancer cells. TSGs are generally classified into three subclasses: (i) gatekeepers that encode proteins involved in the control of cell cycle and apoptosis; (ii) caretakers that produce proteins implicated in maintaining genomic stability; and (iii) landscapers that, when mutated, create a suitable environment for neoplastic growth. Different inactivation mechanisms may suppress TSG function. Understanding these mechanisms and TSG alterations in thyroid tumors is of great importance for thyroid cancer prognosis, diagnosis, and therapy. The present review paper discusses TSG inactivation mechanisms and alterations in order to help to identify more efficient therapeutic modalities for thyroid cancer management. Thyroid cancer is the most frequent endocrine malignancy and accounts for approximately 1% of all diagnosed cancers. A variety of mechanisms are involved in the transformation of a normal tissue into a malignant one. Loss of tumor-suppressor gene (TSG) function is one of these mechanisms. The normal functions of TSGs include cell proliferation and differentiation control, genomic integrity maintenance, DNA damage repair, and signaling pathway regulation. TSGs are generally classified into three subclasses: (i) gatekeepers that encode proteins involved in cell cycle and apoptosis control; (ii) caretakers that produce proteins implicated in the genomic stability maintenance; and (iii) landscapers that, when mutated, create a suitable environment for malignant cell growth. Several possible mechanisms have been implicated in TSG inactivation. Reviewing the various TSG alteration types detected in thyroid cancers may help researchers to better understand the TSG defects implicated in the development/progression of this cancer type and to find potential targets for prognostic, predictive, diagnostic, and therapeutic purposes. Hence, the main purposes of this review article are to describe the various TSG inactivation mechanisms and alterations in human thyroid cancer, and the current therapeutic options for targeting TSGs in thyroid cancer. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
26. Label-Free Differentiation of Cancer and Non-Cancer Cells Based on Machine-Learning-Algorithm-Assisted Fast Raman Imaging.
- Author
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He, Qing, Yang, Wen, Luo, Weiquan, Wilhelm, Stefan, and Weng, Binbin
- Subjects
CANCER cell differentiation ,CANCER cells ,SPECTROSCOPIC imaging ,CELL anatomy ,MUSCLE cells ,CELL differentiation - Abstract
This paper proposes a rapid, label-free, and non-invasive approach for identifying murine cancer cells (B16F10 melanoma cancer cells) from non-cancer cells (C2C12 muscle cells) using machine-learning-assisted Raman spectroscopic imaging. Through quick Raman spectroscopic imaging, a hyperspectral data processing approach based on machine learning methods proved capable of presenting the cell structure and distinguishing cancer cells from non-cancer muscle cells without compromising full-spectrum information. This study discovered that biomolecular information–nucleic acids, proteins, and lipids—from cells could be retrieved efficiently from low-quality hyperspectral Raman datasets and then employed for cell line differentiation. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
27. Does Intestine Morphology Still Have Secrets to Reveal? A Proposal about the "Ghost" Layer of the Bowel.
- Author
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Cappello, Francesco, Saguto, Dario, Burgio, Stefano, Paladino, Letizia, and Bucchieri, Fabio
- Subjects
INTESTINES ,STATISTICAL hypothesis testing ,HOMEOSTASIS ,EXOSOMES ,CELL differentiation - Abstract
In this brief Opinion paper, the term "muco-microbiotic layer" is introduced to describe the innermost layer of the intestinal wall. This layer may contribute not only to the overall health of the bowel, but also to that of extraintestinal organs. Its constituents, in terms of soluble molecules and nanovesicles, need to be studied further. Moreover, one can hypothesize the existence of an analogous layer in other organs, such as the airways or some parts of the genital tracts. Further studies on it are needed. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
28. New Sintered Porous Scaffolds of Mg,Sr Co-Substituted Hydroxyapatite Support Growth and Differentiation of Primary Human Osteoblasts In Vitro.
- Author
-
Galli, Carlo, Landi, Elena, Belletti, Silvana, Colangelo, Maria Teresa, and Guizzardi, Stefano
- Subjects
HYDROXYAPATITE ,OSTEOBLASTS ,THERMAL instability ,BONE substitutes ,ALKALINE phosphatase ,CELL differentiation - Abstract
Strontium (Sr) and Magnesium (Mg) are bioactive ions that have been proven to exert a beneficial effect on bone; therefore, their incorporation into bone substitutes has long been viewed as a possible approach to improve tissue integration. However, the thermal instability of Mg-substituted hydroxyapatites has hitherto limited development. We previously described the creation of thermally consolidated porous constructs of Mg,Sr co-substituted apatites with adequate mechanical properties for their clinical use. The present paper describes the biocompatibility of Mg,Sr co-substituted granules using an alveolar-bone-derived primary model of human osteoblasts. Cells were cultured in the presence of different amounts of hydroxyapatite (HA), Sr-substituted HA, or MgSrHA porous macrogranules (with a size of 400–600 microns, obtained by grinding and sieving the sintered scaffolds) for three and seven days, and their viability was measured by a 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. Protein content was measured using the Lowry assay at the same time points. Cell viability was not impaired by any of the tested compounds. Indirect and direct biocompatibility of these macrogranules was assessed by culturing cells in a previously conditioned medium with HA, SrHA, or MgSrHA, or in the presence of material granules. Osteoblasts formed larger and more numerous nodules around SrHA or MgSrHA granules. Furthermore, cell differentiation was evaluated by alkaline phosphatase staining of primary cells cultured in the presence of HA, SrHA, or MgSrHA granules, confirming the increased osteoconductivity of the doped materials. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
29. Synthetic Scaffold/Dental Pulp Stem Cell (DPSC) Tissue Engineering Constructs for Bone Defect Treatment: An Animal Studies Literature Review.
- Author
-
Lorusso F, Inchingolo F, Dipalma G, Postiglione F, Fulle S, and Scarano A
- Subjects
- Animals, Humans, Bone Diseases therapy, Bone Regeneration, Cell Differentiation, Dental Pulp cytology, Stem Cells cytology, Tissue Engineering methods, Tissue Scaffolds chemistry
- Abstract
Background: Recently a greater interest in tissue engineering for the treatment of large bone defect has been reported. The aim of the present systematic review and meta-analysis was to investigate the effectiveness of dental pulp stem cells and synthetic block complexes for bone defect treatment in preclinical in vivo articles., Methods: The electronic database and manual search was conducted on Pubmed, Scopus, and EMBASE. The papers identified were submitted for risk-of-bias assessment and classified according to new bone formation, bone graft characteristics, dental pulp stem cells (DPSCs) culture passages and amount of experimental data. The meta-analysis assessment was conducted to assess new bone formation in test sites with DPSCs/synthetic blocks vs. synthetic block alone., Results: The database search identified a total of 348 papers. After the initial screening, 30 studies were included, according to the different animal models: 19 papers on rats, 3 articles on rabbits, 2 manuscripts on sheep and 4 papers on swine. The meta-analysis evaluation showed a significantly increase in new bone formation in favor of DPSCs/synthetic scaffold complexes, if compared to the control at 4 weeks (Mean Diff: 17.09%, 95% CI: 15.16-18.91%, p < 0.01) and at 8 weeks (Mean Diff: 14.86%, 95% CI: 1.82-27.91%, p < 0.01) in rats calvaria bone defects., Conclusion: The synthetic scaffolds in association of DPSCs used for the treatment of bone defects showed encouraging results of early new bone formation in preclinical animal studies and could represent a useful resource for regenerative bone augmentation procedures.
- Published
- 2020
- Full Text
- View/download PDF
30. Effects of Lipids and Lipoproteins on Mesenchymal Stem Cells Used in Cardiac Tissue Regeneration.
- Author
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Lin YH, Kang L, Feng WH, Cheng TL, Tsai WC, Huang HT, Lee HC, and Chen CH
- Subjects
- Animals, Humans, Hypolipidemic Agents, Regenerative Medicine, Cell Differentiation, Guided Tissue Regeneration, Heart physiology, Lipids physiology, Mesenchymal Stem Cells physiology
- Abstract
Mesenchymal stem cells (MSCs) have two characteristics of interest for this paper: the ability to self-renew, and the potential for multiple-lineage differentiation into various cells. MSCs have been used in cardiac tissue regeneration for over a decade. Adult cardiac tissue regeneration ability is quite low; it cannot repair itself after injury, as the heart cells are replaced by fibroblasts and lose function. It is therefore important to search for a feasible way to repair and restore heart function through stem cell therapy. Stem cells can differentiate and provide a source of progenitor cells for cardiomyocytes, endothelial cells, and supporting cells. Studies have shown that the concentrations of blood lipids and lipoproteins affect cardiovascular diseases, such as atherosclerosis, hypertension, and obesity. Furthermore, the MSC lipid profiles, such as the triglyceride and cholesterol content, have been revealed by lipidomics, as well as their correlation with MSC differentiation. Abnormal blood lipids can cause serious damage to internal organs, especially heart tissue. In the past decade, the accumulated literature has indicated that lipids/lipoproteins affect stem cell behavior and biological functions, including their multiple lineage capability, and in turn affect the outcome of regenerative medicine. This review will focus on the effect of lipids/lipoproteins on MSC cardiac regenerative medicine, as well as the effect of lipid-lowering drugs in promoting cardiomyogenesis-associated MSC differentiation.
- Published
- 2020
- Full Text
- View/download PDF
31. Cell-Fate Determination from Embryo to Cancer Development: Genomic Mechanism Elucidated.
- Author
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Tsuchiya M, Giuliani A, and Yoshikawa K
- Subjects
- Biomarkers, Tumor metabolism, Cell Lineage, Embryo, Mammalian metabolism, Humans, Neoplasms genetics, Neoplasms metabolism, Single-Cell Analysis, Biomarkers, Tumor genetics, Cell Differentiation, Embryo, Mammalian cytology, Gene Expression Regulation, Developmental, Gene Expression Regulation, Neoplastic, Genomics methods, Neoplasms pathology
- Abstract
Elucidation of the genomic mechanism that guides the cell-fate change is one of the fundamental issues of biology. We previously demonstrated that whole genome expression is coordinated by the emergence of a critical point at both the cell-population and single-cell levels through the physical principle of self-organized criticality. In this paper, we further examine the genomic mechanism that determines the cell-fate changes from embryo to cancer development. The state of the critical point, acting as the organizing center of the cell fate, determines whether the genome resides in a super- or sub-critical state. In the super-critical state, a specific stochastic perturbation can spread over the entire system through the "genome engine", an autonomous critical-control genomic system, whereas in the sub-critical state, the perturbation remains at a local level. The cell-fate changes when the genome becomes super-critical. We provide a consistent framework to develop a time-evolutional transition theory for the biological regulation of the cell-fate change.
- Published
- 2020
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- View/download PDF
32. Editorial on the Special Issue: Regulation by Non-Coding RNAs.
- Author
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Delihas, Nicholas
- Subjects
NON-coding RNA ,GENETIC regulation ,MICRORNA ,DISEASE progression ,CELL differentiation ,GENE expression - Abstract
This Special Issue of IJMS is devoted to regulation by non-coding RNAs and contains both original research and review articles. An attempt is made to provide an up-to-date analysis of this very fast moving field and cover regulatory roles of both microRNAs and long non-coding RNAs. Multifaceted functions of these RNAs in normal cellular processes, as well as in disease progression, are highlighted. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
33. Investigation of the Effects of Charging Processes on Lithium-Ion Cells with SiC Anodes at Low Temperatures.
- Author
-
Bednorz, Ralph and Gewald, Tanja
- Subjects
ANODES ,CELLULAR aging ,DETERIORATION of materials ,CELL differentiation ,MICROBIAL cells ,ENERGY density ,LOW temperatures - Abstract
Lithium-ion cells with a silicon-graphite (SiC) anode and a nickel-rich cathode are potential candidates for use in electric vehicles (EVs) as this material combination offers high energy densities and low costs. Another desired cell specification that results from an intended short charging time for EVs is the robustness against high charge rates. However, high charge rates can lead to the critical aging mechanism of lithium plating, especially at low temperatures. Investigating this issue, this paper presents a test series on cyclic aging with varying charge rates from 0.2C to 1.5C at ambient temperatures of 0 °C and 10 °C applied to a nickel-rich SiC cell candidate. The resulting effects on cell aging are analyzed with a stripping method, whereby reversible lithium plating can be detected, and a differential voltage analysis (DVA), whereby the overall loss of capacity can be attributed to changes in individual characteristic capacities. The results indicate a degradation sensitivity of SiC anodes at elevated charge rates, evidenced by the loss in the silicon-related characteristic capacity, and question the aging robustness of this material combination. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
34. Crucial Development: Criticality Is Important to Cell-to-Cell Communication and Information Transfer in Living Systems.
- Author
-
Hunt von Herbing, Ione, Tonello, Lucio, Benfatto, Maurizio, Pease, April, and Grigolini, Paolo
- Subjects
KNOWLEDGE transfer ,CELL differentiation ,GERMINATION ,COMPLEX organizations ,SYSTEMS development ,LENTILS ,SOMATIC embryogenesis - Abstract
In the fourth paper of this Special Issue, we bridge the theoretical debate on the role of memory and criticality discussed in the three earlier manuscripts, with a review of key concepts in biology and focus on cell-to-cell communication in organismal development. While all living organisms are dynamic complex networks of organization and disorder, most studies in biology have used energy and biochemical exchange to explain cell differentiation without considering the importance of information (entropy) transfer. While all complex networks are mixtures of patterns of complexity (non-crucial and crucial events), it is the crucial events that determine the efficiency of information transfer, especially during key transitions, such as in embryogenesis. With increasing multicellularity, emergent relationships from cell-to-cell communication create reaction–diffusion exchanges of different concentrations of biochemicals or morphogenetic gradients resulting in differential gene expression. We suggest that in conjunction with morphogenetic gradients, there exist gradients of information transfer creating cybernetic loops of stability and disorder, setting the stage for adaptive capability. We specifically reference results from the second paper in this Special Issue, which correlated biophotons with lentil seed germination to show that phase transitions accompany changes in complexity patterns during development. Criticality, therefore, appears to be an important factor in the transmission, transfer and coding of information for complex adaptive system development. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
35. Methionine Synthase 2 Represses Stem Cell Maintenance of Arabidopsis thaliana in Response to Salt Stress.
- Author
-
Qiu, Jiaqi, Chen, Minghuang, Lu, Feng, Chen, Xiaofen, Cai, Zheqi, and Huang, Tao
- Subjects
STEM cells ,PLANT development ,ARABIDOPSIS thaliana ,PLANT stems ,CELL differentiation - Abstract
Salt stress represses the growth and development of plants that mainly depend on the continual propagation and differentiation of stem cells. WUSCHEL (WUS)/WUSCHEL-RELATED HOMEOBOX (WOX) family proteins determine stem cell fate in plants under ever-changing environments. It is not yet known how plant stem cell homeostasis is regulated under salt stress. Methionine synthase catalyzes the formation of methionine by methylating homocysteine in the one-carbon metabolism pathway. In this work, we investigated the role of Arabidopsis METHIONINE SYNTHASE 2 (AtMS2) in stem cell homeostasis under salt stress. The results showed that AtMS2 represses the stem cell maintenance of Arabidopsis in response to salt stress. Under normal growth conditions, AtMS2 is mainly localized in the cytoplasm. However, under salt stress, it exhibits significant accumulation in the nucleus. AtMS2 interacts with the WUS/WOX protein, and, together, they repress WUS/WOX expression by binding to its promoter. The mutation in AtMS2 resulted in enhanced salt tolerance. Therefore, AtMS2 might act as a key negative regulator to repress the stem cell maintenance and growth of Arabidopsis under salt stress. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
36. The "Forgotten" Subtypes of Breast Carcinoma: A Systematic Review of Selected Histological Variants Not Included or Not Recognized as Distinct Entities in the Current World Health Organization Classification of Breast Tumors.
- Author
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Koufopoulos, Nektarios I., Boutas, Ioannis, Pouliakis, Abraham, Samaras, Menelaos G., Kotanidis, Christakis, Kontogeorgi, Adamantia, Dimas, Dionysios T., Ieronimaki, Argyro-Ioanna, Leventakou, Danai, Spathis, Aris, Zanelli, Magda, Palicelli, Andrea, Zizzo, Maurizio, Goutas, Dimitrios, Pateras, Ioannis S., and Panayiotides, Ioannis G.
- Subjects
CELL differentiation ,CANCER patients ,BREAST tumors ,TUMOR classification ,CARCINOMA ,BREAST - Abstract
Breast carcinoma is the most common cancer in women. Nineteen different subtypes of breast carcinomas are recognized in the current WHO classification of breast tumors. Except for these subtypes, there are a number of carcinomas with special morphologic and immunohistochemical features that are not included in the 5th WHO classification, while others are considered special morphologic patterns of invasive breast carcinoma of no special type. In this manuscript, we systematically review the literature on four different subtypes of invasive breast carcinoma, namely lymphoepithelioma-like breast carcinoma, breast carcinoma with osteoclast-like giant cells, signet-ring breast carcinoma, and metaplastic breast carcinoma with melanocytic differentiation. We describe their clinicopathological characteristics, focusing on the differential diagnosis, treatment, and prognosis. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
37. Unraveling Cancer's Wnt Signaling: Dynamic Control through Protein Kinase Regulation.
- Author
-
Tümen, Deniz, Heumann, Philipp, Huber, Julia, Hahn, Nele, Macek, Celina, Ernst, Martha, Kandulski, Arne, Kunst, Claudia, and Gülow, Karsten
- Subjects
PROTEIN kinases ,CELLULAR aging ,CELLULAR signal transduction ,CELL lines ,METASTASIS ,CELL death ,MOLECULAR structure ,TUMORS ,CELL differentiation ,WNT proteins - Abstract
Simple Summary: The Wnt signaling pathway plays a pivotal role in governing developmental processes and maintaining stem cell characteristics, while also exhibiting significant implications in cancer pathogenesis. While initially characterized in colorectal cancer, aberrations in Wnt signaling are pervasive across various cancer types. Both intrinsic and extrinsic factors modulate Wnt signaling, mainly influencing the strictly coordinated kinase cascade within Wnt signaling. Understanding the complex interplay of canonical and non-canonical Wnt pathways and their potential dysregulation in disorders holds promise for the development of innovative therapeutic strategies in cancer treatment. Since the initial identification of oncogenic Wnt in mice and Drosophila, the Wnt signaling pathway has been subjected to thorough and extensive investigation. Persistent activation of Wnt signaling exerts diverse cancer characteristics, encompassing tumor initiation, tumor growth, cell senescence, cell death, differentiation, and metastasis. Here we review the principal signaling mechanisms and the regulatory influence of pathway-intrinsic and extrinsic kinases on cancer progression. Additionally, we underscore the divergences and intricate interplays of the canonical and non-canonical Wnt signaling pathways and their critical influence in cancer pathophysiology, exhibiting both growth-promoting and growth-suppressing roles across diverse cancer types. [ABSTRACT FROM AUTHOR]
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- 2024
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38. MicroRNA Analysis of In Vitro Differentiation of Spermatogonial Stem Cells Using a 3D Human Testis Organoid System.
- Author
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Cohen, Adam B., Nikmehr, Banafsheh, Abdelaal, Omar A., Escott, Megan, Walker, Stephen J., Atala, Anthony, and Sadri-Ardekani, Hooman
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GENE expression ,SPERMATOZOA ,SPERMATOGENESIS ,TISSUE culture ,CELL differentiation - Abstract
Spermatogenesis produces male gametes from spermatogonial stem cells (SSC), beginning at puberty. Modern-day laboratory techniques allow for the long-term culture of SSC and in vitro spermatogenesis. The specific biochemical processes that occur during spermatogenesis remain poorly understood. One particular element of spermatogenesis that has yet to be characterized is the role of microRNAs (miRNA), short, non-transcribed RNAs that act as post-translational regulators of gene activity. In this study, we seek to describe the presence of miRNA in a two-dimensional (2D) SSC culture and a 3D human testis organoid (HTO) system. Testicular cells were isolated from the frozen tissue of three brain-dead subjects, propagated in cultures for four to five weeks, and used to form 3D HTOs. Following organoid formation, differentiation of testicular cells was induced. RNA was isolated from the whole testis tissue (WT) showing in vivo conditions, HTO Day Zero (2D SSC culture), Day 2 HTOs, and Day 23 differentiated HTOs, then analyzed for changes in miRNA expression using the Nanostring nCounter miRNA panel. One hundred ninety-five miRNAs met the criteria for expression in WT, 186 in 2D culture, 190 in Day 2 HTOs, and 187 in differentiated HTOs. One hundred thirty-three miRNAs were common across all conditions, and 41, 17, 6, and 11 miRNAs were unique for WT, 2D culture, Day 2 HTOs, and differentiated HTOs, respectively. Twenty-two miRNAs were similar between WT and differentiated HTOS. We evaluated the miRNA expression profiles of progressively complex stages of testicular cell culture, culminating in a 3D organoid model capable of meiotic differentiation, and compared these to WT. We identified a great variance between the native tissue and the culture system; however, some miRNAs are preserved. These data may provide avenues for deeper understanding of spermatogenesis and the ability to improve this process in the laboratory. Research on miRNA continues to be an essential avenue for understanding human spermatogenesis. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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- View/download PDF
39. A Transcriptomics Analysis of the Regulation of Lens Fiber Cell Differentiation in the Absence of FGFRs and PTEN.
- Author
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Upreti, Anil, Padula, Stephanie L., Weaver, Jacob M., Wagner, Brad D., Kneller, Allison M., Petulla, Anthony L., Lachke, Salil A., and Robinson, Michael L.
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VITREOUS humor ,CELL differentiation ,RNA sequencing ,TRANSCRIPTOMES ,INFLAMMATION - Abstract
Adding 50% vitreous humor to the media surrounding lens explants induces fiber cell differentiation and a significant immune/inflammatory response. While Fgfr loss blocks differentiation in lens epithelial explants, this blockage is partially reversed by deleting Pten. To investigate the functions of the Fgfrs and Pten during lens fiber cell differentiation, we utilized a lens epithelial explant system and conducted RNA sequencing on vitreous humor-exposed explants lacking Fgfrs, or Pten or both Fgfrs and Pten. We found that Fgfr loss impairs both vitreous-induced differentiation and inflammation while the additional loss of Pten restores these responses. Furthermore, transcriptomic analysis suggested that PDGFR-signaling in FGFR-deficient explants is required to mediate the rescue of vitreous-induced fiber differentiation in explants lacking both Fgfrs and Pten. The blockage of β-crystallin induction in explants lacking both Fgfrs and Pten in the presence of a PDGFR inhibitor supports this hypothesis. Our findings demonstrate that a wide array of genes associated with fiber cell differentiation are downstream of FGFR-signaling and that the vitreous-induced immune responses also depend on FGFR-signaling. Our data also demonstrate that many of the vitreous-induced gene-expression changes in Fgfr-deficient explants are rescued in explants lacking both Fgfrs and Pten. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
- View/download PDF
40. Male Germ Cell Specification in Plants.
- Author
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Chen, Wenqian, Wang, Pan, Liu, Chan, Han, Yuting, and Zhao, Feng
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CELL differentiation ,GERM cells ,GENE regulatory networks ,REGULATOR genes ,MERISTEMS - Abstract
Germ cells (GCs) serve as indispensable carriers in both animals and plants, ensuring genetic continuity across generations. While it is generally acknowledged that the timing of germline segregation differs significantly between animals and plants, ongoing debates persist as new evidence continues to emerge. In this review, we delve into studies focusing on male germ cell specifications in plants, and we summarize the core gene regulatory circuits in germ cell specification, which show remarkable parallels to those governing meristem homeostasis. The similarity in germline establishment between animals and plants is also discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
41. ScRNA-Seq Analyses Define the Role of GATA3 in iNKT Cell Effector Lineage Differentiation.
- Author
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Tai, Tzong-Shyuan, Yang, Huang-Yu, Chuang, Wan-Chu, Huang, Yu-Wen, Ho, I-Cheng, Tsai, Ching-Chung, and Chuang, Ya-Ting
- Subjects
TRANSCRIPTION factors ,T cells ,CELL differentiation ,CELL physiology ,CELLULAR control mechanisms - Abstract
While the transcription factor GATA-3 is well-established for its crucial role in T cell development, its specific influence on invariant natural killer T (iNKT) cells remains relatively unexplored. Using flow cytometry and single-cell transcriptomic analysis, we demonstrated that GATA-3 deficiency in mice leads to the absence of iNKT2 and iNKT17 cell subsets, as well as an altered distribution of iNKT1 cells. Thymic iNKT cells lacking GATA-3 exhibited diminished expression of PLZF and T-bet, key transcription factors involved in iNKT cell differentiation, and reduced production of Th2, Th17, and cytotoxic effector molecules. Single-cell transcriptomics revealed a comprehensive absence of iNKT17 cells, a substantial reduction in iNKT2 cells, and an increase in iNKT1 cells in GATA-3-deficient thymi. Differential expression analysis highlighted the regulatory role of GATA-3 in T cell activation signaling and altered expression of genes critical for iNKT cell differentiation, such as Icos, Cd127, Eomes, and Zbtb16. Notably, restoration of Icos, but not Cd127, expression could rescue iNKT cell development in GATA-3-deficient mice. In conclusion, our study demonstrates the pivotal role of GATA-3 in orchestrating iNKT cell effector lineage differentiation through the regulation of T cell activation pathways and Icos expression, providing insights into the molecular mechanisms governing iNKT cell development and function. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
42. Prognostic Factors Associated with Breast Cancer-Specific Survival from 1995 to 2022: A Systematic Review and Meta-Analysis of 1,386,663 Cases from 30 Countries.
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Abdul Rahman, Hanif, Zaim, Siti Nurzaimah Nazhirah, Suhaimei, Ummi Salwa, and Jamain, Al Amin
- Subjects
BREAST ,PROGNOSIS ,RANDOM effects model ,RACE ,ESTROGEN receptors ,BREAST cancer ,CELL differentiation - Abstract
Breast cancer is the fifth-ranked cancer globally. Despite early diagnosis and advances in treatment, breast cancer mortality is increasing. This meta-analysis aims to examine all possible prognostic factors that improve/deteriorate breast cancer-specific survival. MEDLINE, PubMed, ScienceDirect, Ovid, and Google Scholar were systematically searched until September 16, 2023. The retrieved studies from 1995 to 2022 accumulated 1,386,663 cases from 30 countries. A total of 13 out of 22 prognostic factors were significantly associated with breast cancer-specific survival. A random-effects model provided a pooled estimate of the top five poorest prognostic factors, including Stage 4 (HR = 12.12; 95% CI: 5.70, 25.76), followed by Stage 3 (HR = 3.42, 95% CI: 2.51, 4.67), a comorbidity index ≥ 3 (HR = 3.29; 95% CI: 4.52, 7.35), the poor differentiation of cancer cell histology (HR = 2.43; 95% CI: 1.79, 3.30), and undifferentiated cancer cell histology (HR = 2.24; 95% CI: 1.66, 3.01). Other survival-reducing factors include positive nodes, age, race, HER2-receptor positivity, and overweight/obesity. The top five best prognostic factors include different types of mastectomies and breast-conserving therapies (HR = 0.56; 95% CI: 0.44, 0.70), medullary histology (HR = 0.62; 95% CI: 0.53, 0.72), higher education (HR = 0.72; 95% CI: 0.68, 0.77), and a positive estrogen receptor status (HR = 0.78; 95% CI: 0.65, 0.94). Heterogeneity was observed in most studies. Data from developing countries are still scarce. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
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43. ATP Hydrolases Superfamily Protein 1 (ASP1) Maintains Root Stem Cell Niche Identity through Regulating Reactive Oxygen Species Signaling in Arabidopsis.
- Author
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Yu, Qianqian, Li, Hongyu, Zhang, Bing, Song, Yun, Sun, Yueying, and Ding, Zhaojun
- Subjects
STEM cell niches ,REACTIVE oxygen species ,HYDROLASES ,ARABIDOPSIS ,CELL differentiation ,PURINERGIC receptors ,POLYKETIDE synthases - Abstract
The maintenance of the root stem cell niche identity in Arabidopsis relies on the delicate balance of reactive oxygen species (ROS) levels in root tips; however, the intricate molecular mechanisms governing ROS homeostasis within the root stem cell niche remain unclear. In this study, we unveil the role of ATP hydrolase superfamily protein 1 (ASP1) in orchestrating root stem cell niche maintenance through its interaction with the redox regulator cystathionine β-synthase domain-containing protein 3 (CBSX3). ASP1 is exclusively expressed in the quiescent center (QC) cells and governs the integrity of the root stem cell niche. Loss of ASP1 function leads to enhanced QC cell division and distal stem cell differentiation, attributable to reduced ROS levels and diminished expression of SCARECROW and SHORT ROOT in root tips. Our findings illuminate the pivotal role of ASP1 in regulating ROS signaling to maintain root stem cell niche homeostasis, achieved through direct interaction with CBSX3. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
44. Cartilage-Specific Gene Expression and Extracellular Matrix Deposition in the Course of Mesenchymal Stromal Cell Chondrogenic Differentiation in 3D Spheroid Culture.
- Author
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Vakhrushev, Igor V., Basok, Yulia B., Baskaev, Konstantin K., Novikova, Victoria D., Leonov, Georgy E., Grigoriev, Alexey M., Belova, Aleksandra D., Kirsanova, Ludmila A., Lupatov, Alexey Y., Burunova, Veronika V., Kovalev, Alexey V., Makarevich, Pavel I., Sevastianov, Victor I., and Yarygin, Konstantin N.
- Subjects
EXTRACELLULAR matrix ,STROMAL cells ,CARTILAGE regeneration ,ENDOCHONDRAL ossification ,GENE expression ,CELL differentiation ,TISSUE engineering ,DECIDUOUS teeth - Abstract
Articular cartilage damage still remains a major problem in orthopedical surgery. The development of tissue engineering techniques such as autologous chondrocyte implantation is a promising way to improve clinical outcomes. On the other hand, the clinical application of autologous chondrocytes has considerable limitations. Mesenchymal stromal cells (MSCs) from various tissues have been shown to possess chondrogenic differentiation potential, although to different degrees. In the present study, we assessed the alterations in chondrogenesis-related gene transcription rates and extracellular matrix deposition levels before and after the chondrogenic differentiation of MSCs in a 3D spheroid culture. MSCs were obtained from three different tissues: umbilical cord Wharton's jelly (WJMSC—Wharton's jelly mesenchymal stromal cells), adipose tissue (ATMSC—adipose tissue mesenchymal stromal cells), and the dental pulp of deciduous teeth (SHEDs—stem cells from human exfoliated deciduous teeth). Monolayer MSC cultures served as baseline controls. Newly formed 3D spheroids composed of MSCs previously grown in 2D cultures were precultured for 2 days in growth medium, and then, chondrogenic differentiation was induced by maintaining them in the TGF-β1-containing medium for 21 days. Among the MSC types studied, WJMSCs showed the most similarities with primary chondrocytes in terms of the upregulation of cartilage-specific gene expression. Interestingly, such upregulation occurred to some extent in all 3D spheroids, even prior to the addition of TGF-β1. These results confirm that the potential of Wharton's jelly is on par with adipose tissue as a valuable cell source for cartilage engineering applications as well as for the treatment of osteoarthritis. The 3D spheroid environment on its own acts as a trigger for the chondrogenic differentiation of MSCs. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
45. A Minimally Invasive Surgical Procedure to Harvest Palate Periosteum as a Source of Mesenchymal Stromal/Stem Cells for Bone Tissue Engineering.
- Author
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Pelegrine, André Antonio, López, David Gonzalo Montero, Aloise, Antonio Carlos, Zeferino, João Pedro Grandini, Mannina, Carolina Guassi, Canal, Raul, da Rocha, Daniel Navarro, de Castro, Tamara Cristina Lopes, Martinez, Elizabeth Ferreira, Holliday, Lexie Shannon, Fanganiello, Roberto Dalto, and Ferreira, José Ricardo Muniz
- Subjects
MINIMALLY invasive procedures ,STEM cells ,BONE cells ,STEM cell culture ,PERIOSTEUM ,BONE grafting ,COLONY-forming units assay - Abstract
The aim of this study is to validate a minimally invasive surgical procedure to harvest palate periosteum as a source of tissue for mesenchymal stromal/stem cells. We performed a standardized procedure to harvest the palate periosteum in ten subjects, which consisted of a 3 mm disposable punch and a Molt periosteal elevator to harvest a small full-thickness fragment of soft tissue at the hard palate area, between the upper bicuspids, 3 to 4 mm apical to the cement enamel junction. The one-third inner portion was fragmented, and following standard cell culture procedures, the adherent cells were cultured for three passages, after obtaining 70–90% confluence. Cell morphology analysis, flow cytometry analysis, and viability and osteogenic differentiation assays were performed. In all 10 cases, uneventful healing was observed, with no need for analgesic intake. The evaluation of cell morphology showed elongated spindle-shaped cells distributed in woven patterns. A high viability range was verified as well as an immunophenotype compatible with mesenchymal stem cell lineage. The differentiation assay showed the potential of the cells to differentiate into the osteogenic lineage. These results demonstrate that the minimally invasive proposed surgical technique is capable of supplying enough periosteum source tissue for stem cell culture and bone tissue engineering. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
46. Hierarchical Symmetry-Breaking Model for Stem Cell Differentiation.
- Author
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Voulgarakis, Nikolaos K.
- Subjects
CELL differentiation ,STEM cells ,GENE regulatory networks ,DYNAMICAL systems - Abstract
Waddington envisioned stem cell differentiation as a marble rolling down a hill, passing through hierarchically branched valleys representing the cell's temporal state. The terminal valleys at the bottom of the hill indicate the possible committed cells of the multicellular organism. Although originally proposed as a metaphor, Waddington's hypothesis establishes the fundamental principles for characterizing the differentiation process as a dynamic system: the generated equilibrium points must exhibit hierarchical branching, robustness to perturbations (homeorhesis), and produce the appropriate number of cells for each cell type. This article aims to capture these characteristics using a mathematical model based on two fundamental hypotheses. First, it is assumed that the gene regulatory network consists of hierarchically coupled subnetworks of genes (modules), each modeled as a dynamical system exhibiting supercritical pitchfork or cusp bifurcation. Second, the gene modules are spatiotemporally regulated by feedback mechanisms originating from epigenetic factors. Analytical and numerical results show that the proposed model exhibits self-organized multistability with hierarchical branching. Moreover, these branches of equilibrium points are robust to perturbations, and the number of different cells produced can be determined by the system parameters. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
47. In Vitro Evaluation of Optimized PEEK Surfaces for Enhanced Osseointegration.
- Author
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Nobles, Kadie, Janorkar, Amol V., Roach, Michael D., Walker, Lawrence, and Williamson, Randall Scott
- Subjects
OSSEOINTEGRATION ,CELL proliferation ,CELL survival ,CELL differentiation ,SULFONATION ,TITANIUM alloys - Abstract
The materials traditionally used for implant applications, such as titanium alloys, cobalt chromium, and zirconium, often require surface modifications to achieve the desired osseointegration. These materials still have the problematic stress-shielding effect. To limit stress shielding, PEEK is the superior alternative to fulfill implant needs. However, the traditional methods of modifying and functionalizing the surface of PEEK are often expensive, time consuming, and are not easily translated into commercialization. Sulfonation is a process, which is dependent on controllable factors. Thus far, no research has been performed to optimize the sulfonation process. Our data suggest that the process factors can be controlled and optimized. Cellular activity was examined on the optimized PEEK surfaces through testing with pre-osteoblast MC3T3-E1 cells through cell viability (MTT assay), cell proliferation (DNA assay), cell differentiation (ALP assay), and cell mineralization (Alizarin red assay). Overall, sulfonated and heat-treated PEEK exhibited a statistically significant increase in DNA content over the course of 21 days, indicating more cell proliferation and viability for that surface. In vitro testing results showed that the optimized sulfonated and heat-treated PEEK exhibited superior cell proliferation and mineralization performance over smooth PEEK and sulfonated-only PEEK. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
48. Effects of Anionic Liposome Delivery of All– Trans –Retinoic Acid on Neuroblastoma Cell Differentiation.
- Author
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Minò, Antonio, Lopez, Francesco, Barbaro, Roberto, Barile, Maria, Ambrosone, Luigi, and Colella, Matilde
- Subjects
LIPOSOMES ,CELL differentiation ,NEUROBLASTOMA ,CELL growth ,LIGHT scattering ,MITOCHONDRIA - Abstract
All–trans–retinoic acid (ATRA) has long been known to affect cell growth and differentiation. To improve ATRA's therapeutic efficacy and pharmacodynamics, several delivery systems have been used. In this study, free ATRA and anionic–liposome–encapsulated ATRA were compared for their effects on SK–N–SH human neuroblastoma cell growth and differentiation. Anionic liposomes made of L– α –phosphatidylcholine (PC) and L– α –phosphatidic acid (PA), empty (PC–PA) and loaded with ATRA (PC–PA–ATRA), were characterized by dynamic light scattering (DLS) and electrophoretic mobility measurements, and drug entrapment efficiency (EE%) was measured to evaluate the applicability of the new colloidal formulation. The results of brightfield microscopy and cell growth curves indicated that ATRA, whether free or encapsulated, reduced growth and induced differentiation, resulting in SK–N–SH cells changing from epithelioid to neuronal–like morphologies, and producing a significant increase in neurite growth. To further characterize the neuro-differentiation of SK–N–SH cells, the expression of βIII–Tubulin and synaptophysin and mitochondria localization were analyzed via immunofluorescence. Increased expression of neuronal markers and a peculiar localization of mitochondria in the neuritic extensions were apparent both in ATRA– and PC–PA–ATRA–differentiated cells. As a whole, our results strongly indicate that ATRA treatment, by any means, can induce the differentiation of parent SK–N–SH, and they highlight that its encapsulation in anionic liposomes increases its differentiation ability in terms of the percentage of neurite–bearing cells. Interestingly, our data also suggest an unexpected differentiation capability of anionic liposomes per se. This work highlights the importance of developing and carefully testing novel delivery nanocarriers, which are a necessary first "step" in the development of new therapeutic settings. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
49. Comparative Analysis of Olive-Derived Phenolic Compounds' Pro-Melanogenesis Effects on B16F10 Cells and Epidermal Human Melanocytes.
- Author
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Cho, Juhee, Bejaoui, Meriem, Tominaga, Kenichi, and Isoda, Hiroko
- Subjects
OLIVE leaves ,PHENOLS ,MELANOCYTES ,MELANINS ,GLUTARALDEHYDE ,GENE expression profiling ,CELL differentiation ,COMPARATIVE studies - Abstract
Olive leaf contains plenty of phenolic compounds, among which oleuropein (OP) is the main component and belongs to the group of secoiridoids. Additionally, phenolic compounds such as oleocanthal (OL) and oleacein (OC), which share a structural similarity with OP and two aldehyde groups, are also present in olive leaves. These compounds have been studied for several health benefits, such as anti-cancer and antioxidant effects. However, their impact on the skin remains unknown. Therefore, this study aims to compare the effects of these three compounds on melanogenesis using B16F10 cells and human epidermal cells. Thousands of gene expressions were measured by global gene expression profiling with B16F10 cells. We found that glutaraldehyde compounds derived from olive leaves have a potential effect on the activation of the melanogenesis pathway and inducing differentiation in B16F10 cells. Accordingly, the pro-melanogenesis effect was investigated by means of melanin quantification, mRNA, and protein expression using human epidermal melanocytes (HEM). This study suggests that secoiridoid and its derivates have an impact on skin protection by promoting melanin production in both human and mouse cell lines. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
50. A Simple and Rapid Protocol for the Isolation of Murine Bone Marrow Suitable for the Differentiation of Dendritic Cells.
- Author
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Song, Runqiu, Bafit, Mariam, Tullett, Kirsteen M., Tan, Peck Szee, Lahoud, Mireille H., O'Keeffe, Meredith, Purcell, Anthony W., and Braun, Asolina
- Subjects
DENDRITIC cells ,CELL differentiation ,BONE marrow cells ,T cells ,ANTIGEN presentation ,PRIMARY cell culture ,BONE marrow ,EPHRIN receptors - Abstract
The generation of bone-marrow-derived dendritic cells is a widely used approach in immunological research to study antigen processing and presentation, as well as T-cell activation responses. However, the initial step of isolating the bone marrow can be time-consuming, especially when larger numbers of precursor cells are required. Here, we assessed whether an accelerated bone marrow isolation method using centrifugation is suitable for the differentiation of FMS-like tyrosine kinase 3 ligand-driven dendritic cells. Compared to the conventional flushing method, the centrifugation-based isolation method resulted in a similar bone marrow cell yield on Day 0, increased cell numbers by Day 8, similar proportions of dendritic cell subsets, and consequently a higher number of type 1 conventional dendritic cells (cDC1) from the culture. Although the primary purpose of this method of optimization was to improve experimental efficiency and increase the output of cDC1s, the protocol is also compatible with the differentiation of other dendritic cell subsets such as cDC2 and plasmacytoid dendritic cells, with an improved output cell count and a consistent phenotype. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
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