Your search keyword '"Cell migration"' showing total 99,992 results

1. Metabolic Profiling, in vitro Cytotoxicity and in silico Investigation of Lycium shawii Roem. Extract

Author

Alghamdi, R., Abutaha, N., Almekhlafi, F.A., and Wadaan, M.A.

Published

2024

2. Investigation into the effect of small molecule inhibitors on glioma cell migration

Author

Ahmed, Zara

Published

2023

3. Neutrophils actively swell to potentiate rapid migration

Author

Nagy, Tamas L, Strickland, Evelyn, and Weiner, Orion D

Subjects

Biochemistry and Cell Biology, Biological Sciences, Biodefense, Emerging Infectious Diseases, Infectious Diseases, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Humans, Neutrophils, Cell Movement, Cell Size, Sodium-Hydrogen Exchanger 1, Chemotactic Factors, cell migration, neutrophil, cell size, cell volume, physical forces, Human, cell biology, human, physics of living systems, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

While the involvement of actin polymerization in cell migration is well-established, much less is known about the role of transmembrane water flow in cell motility. Here, we investigate the role of water influx in a prototypical migrating cell, the neutrophil, which undergoes rapid, directed movement to sites of injury, and infection. Chemoattractant exposure both increases cell volume and potentiates migration, but the causal link between these processes are not known. We combine single-cell volume measurements and a genome-wide CRISPR screen to identify the regulators of chemoattractant-induced neutrophil swelling, including NHE1, AE2, PI3K-gamma, and CA2. Through NHE1 inhibition in primary human neutrophils, we show that cell swelling is both necessary and sufficient for the potentiation of migration following chemoattractant stimulation. Our data demonstrate that chemoattractant-driven cell swelling complements cytoskeletal rearrangements to enhance migration speed.

Published

2024

4. A motion compensation method for the single transmitter and multiple receivers mobile radar system.

Author

Lian, Qijun, Da, Kai, Song, Zhiyong, and Wang, Ping

Subjects

*RADAR in aeronautics, *RADON transforms, *SEPARATION of variables, *FOURIER transforms, *CELL migration

Abstract

The single transmitter and multiple receivers (STMR) mobile radar system is a special distributed radar system, which has stronger detection and survival capabilities. However, the high‐speed movement of the radar platforms easily produce the across‐range cell migration (RCM) of radar echo signal, which cause envelope shift effects within the coherent processing interval. Here, a motion compensation method for the STMR mobile radar system in the sea environment, to solve the problem of RCM is proposed. First, the target points and clutter points with the same Doppler velocity are obtained by the radon Fourier transform method. Second, using the range/Doppler difference between clutter and target under multi‐radar views, the target and clutter points are separated by the spatial range mapping. The simulation results show that the method can effectively improve the coherent accumulation effect of the target in the sea environment with low signal‐to‐clutter ratio (SCR). [ABSTRACT FROM AUTHOR]

Published

2024

5. Inflation-induced motility for long-distance vertical migration.

Author

Larson, Adam G., Chajwa, Rahul, Li, Hongquan, and Prakash, Manu

Abstract

The vertical migrations of pelagic organisms play a crucial role in shaping marine ecosystems and influencing global biogeochemical cycles. They also form the foundation of what might be the largest daily biomass movement on Earth. Surprisingly, among this diverse group of organisms, some single-cell protists can transit depths exceeding 50 m without employing flagella or cilia. How these non-motile cells perform large migrations remains unknown. It has been previously proposed that this capability might rely on the cell's ability to regulate its internal density relative to seawater. Here, using the dinoflagellate algae Pyrocystis noctiluca as a model system, we discover a rapid cell inflation event post cell division, during which a single plankton cell expands its volume 6-fold in less than 10 min. We demonstrate this rapid cellular inflation is the primary mechanism of density control. This self-regulated cellular inflation selectively imports fluid less dense than surrounding seawater and can thus effectively sling-shot a cell and reverse sedimentation within minutes. To accommodate its dramatic cellular expansion, Pyrocystis noctiluca possesses a unique reticulated cytoplasmic architecture that enables a rapid increase in overall cell volume without diluting its cytoplasmic content. We further present a generalized mathematical framework that unifies cell-cycle-driven density regulation, stratified ecology, and associated cell behavior in the open ocean. Our study unveils an ingenious strategy employed by a non-motile plankton to evade the gravitational sedimentation trap, highlighting how precise control of cell size and cell density can enable long-distance migration in the open ocean. • Pyrocystis noctiluca uses cellular inflation for vertical migration in the ocean • Calcium-triggered inflation rapidly alters cell density relative to seawater • A reticulated cytoplasmic network enables 6-fold volume increase without dilution • Mathematical model shows how inflation helps cells escape "gravitational traps" Larson et al. use field work, lab experiments, and theory to demonstrate that the non-motile dinoflagellate Pyrocystis noctiluca uses rapid cellular inflation to travel tens of meters in the ocean. This mechanism, enabled by a complex cytoplasmic organization, allows the cell to alter its density relative to seawater and reverse sedimentation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Glucose Upregulates ChREBP via Phosphorylation of AKT and AMPK to Modulate MALT1 and WISP1 Expression.

Author

Chen, Syue‐Ting, Chang, Kang‐Shuo, Lin, Yu‐Hsiang, Hou, Chen‐Pang, Lin, Wei‐Yin, Hsu, Shu‐Yuan, Sung, Hsin‐Ching, Feng, Tsui‐Hsia, Tsui, Ke‐Hung, and Juang, Horng‐Heng

Subjects

*TRANSCRIPTION factors, *GENE expression, *LYMPHOID tissue, *CELL migration, *AMP-activated protein kinases

Abstract

ABSTRACT Glucose can activate the carbohydrate response element binding protein (ChREBP) transcription factor to control gene expressions in the metabolic pathways. The way of ChREBP involvement in human prostate cancer development remains undetermined. This study examined the interactions between prostate fibroblasts and cancer cells under the influences of ChREBP. Results showed that high glucose (30 mM) increased the phosphorylation of AKT at S473 and AMP‐activated protein kinase (AMPK) at S485 in human prostate fibroblast (HPrF) cells and prostate cancer PC‐3 cells. High glucose enhanced the expression of ChREBP, which increased the expressions of fibronectin, alpha‐smooth muscle actin (α‐SMA), and WNT1 inducible signaling pathway protein 1 (WISP1), magnifying the cell growth and contraction in HPrF cells in vitro. The cell proliferation, invasion, and tumor growth in prostate cancer PC‐3 cells were enhanced by inducing the expressions of ChREBP, mucosa‐associated lymphoid tissue 1 (MALT1), and epithelial‐mesenchymal transition markers with high glucose treatment. Moreover, ectopic ChREBP overexpression induced NF‐κB signaling activities via upregulating MALT1 expression in PC‐3 cells. Our findings illustrated that ChREBP is an oncogene in the human prostate. High glucose condition induces a glucose/ChREBP/MALT1/NF‐κB axis which links the glucose metabolism to the NF‐κB activation in prostate cancer cells, and a glucose/ChREBP/WISP1 axis mediating autocrine and paracrine signaling between fibroblasts and cancer cells to promote cell migration, contraction, growth, and invasion of the human prostate. [ABSTRACT FROM AUTHOR]

Published

2024

7. Whey proteins from camel's milk have higher in vitro wound‐healing effect than whey proteins from cow's milk.

Author

Şevin Ece, Gündeş, Seda, Örenay Boyacioğlu, Mürüvvet, Abbak, Selda, Bulca, and Olcay, Boyacioğlu

Subjects

*CAMEL milk, *CANCER cell migration, *WOUND healing, *POLYACRYLAMIDE gel electrophoresis, *GEL electrophoresis, *WHEY

Abstract

BACKGROUND RESULTS CONCLUSION The effectiveness of whey obtained by either enzyme (sweet) or acid treatment on wound healing remains unclear. This study investigated the effectiveness of camel and bovine whey prepared enzymatically (CSW and BSW) or by pH reduction (CAW and BAW). After removing the cream from milk, HCl or rennet was used to remove casein, resulting in acid or sweet whey, respectively, followed by lactose removal using dialysis. Casein removal was verified by sodium dodecyl sulfate–polyacrylamide gel electrophoresis. Wound‐healing activity was measured in vitro on HT‐29 cells by scratch assay. All four whey samples (0–1000 mg L−1) were applied on the cells, and the closure of the cell‐free scratched areas was monitored for 48 h.All whey samples increased the cell migration significantly (P < 0.05) to help close the cell‐free areas as an indication of wound healing compared to the negative control. However, the closure amounts between the highest dose (1000 mg L−1) and the control were not significantly different (P > 0.05). Acid whey samples significantly (P < 0.05) elevated the closure speed compared to the sweet whey samples. The highest closure percentage (64.69%) was achieved after treatment with 10 mg L−1 CAW for 48 h. Between the sweet whey samples, BSW was significantly (P < 0.05) more effective in closing the cell‐free zone compared to CSW.This study investigated the wound‐healing potential of camel and bovine whey in vitro by comparing their effects on HT‐29 cell migration. CAW showed the greatest activity and may find uses as a treatment agent in wound healing. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

8. Microchip construction for migration assays: investigating the impact of physical confinement on cell morphology and motility during vaccinia virus infection.

Author

Wang, Cheng, Huangfu, Yueyue, Wang, Ji, Lu, Xiaofeng, Liu, Dong, and Zhang, Zhi-Ling

Subjects

*VACCINIA, *GOLGI apparatus, *VIRAL transmission, *CELL motility, *CELL morphology, *CELL migration

Abstract

Vaccinia virus (VACV)–induced cell migration is thought to be closely related to the rapid transmission of viral infection in the body. The limited studies are mainly based on scratch assay using traditional cell culture techniques, which inevitably ignores the influences of extracellular microenvironment. Physical confinement, inherently presenting in vivo, has proven to be a critical extern cue in modulating migration behaviors of multiple cells, while its impacts on VACV-induced cell motility remain unclear. Herein, we developed a migration assay microchip featuring confined microchannel array to investigate the effect of physical confinement on infected cell morphology and motility during VACV infection. Results showed that different from the random cell migration observed in traditional scratch assay on planar substrate, VACV-infected cells exhibited accelerated directionally persistent migration under confinement microenvironment. Moreover, single-directed elongated dominant lamella appeared to contrast distinctly with multiple protrusions stretched in random directions under unconfined condition. Additionally, the Golgi complex tended to relocate behind the nucleus confined within the microchannel axis compared to the classical reorientation pattern. These differences in characteristic subcellular architecture and organelle reorientation of migrating cells revealed cell biological mechanisms underlying altered migration behavior. Collectively, our study demonstrates that physical confinement acting as a guidance cue has profound impacts on VACV-induced migration behaviors, which provides new insight into cell migration behavior and viral rapid spread during VACV infection. [ABSTRACT FROM AUTHOR]

Published

2024

9. Mevalonate pathway inhibition reduces bladder cancer metastasis by modulating RhoB protein stability and integrin β1 localization.

Author

Wang, Gang, Peng, Tianchen, Chen, Liang, Xiong, Kangping, Ju, Lingao, Qian, Kaiyu, Zhang, Yi, Xiao, Yu, and Wang, Xinghuan

Subjects

*PROTEIN stability, *CELL migration, *POST-translational modification, *BLADDER cancer, *CELL motility

Abstract

The progression and outcome of bladder cancer (BLCA) are critically affected by the propensity of tumor metastasis. Our previous study revealed that activation of the mevalonate (MVA) pathway promoted migration of BLCA cells; however, the exact mechanism is unclear. Here we show that elevated expression of MVA pathway enzymes in BLCA cells, correlating with poorer patient prognosis by analyzing single-cell and bulk-transcriptomic datasets. Inhibition of the MVA pathway, either through knockdown of farnesyl diphosphate synthase (FDPS) or using inhibitors such as zoledronic acid or simvastatin, led to a marked reduction in BLCA cell migration. Notably, this effect was reversed by administering geranylgeranyl pyrophosphate (GGPP), not farnesyl pyrophosphate (FPP) or cholesterol, indicating the specificity of geranylgeranylation for cell motility. Moreover, we found that RhoB, a Rho GTPase family member, was identified as a key effector of the impact of the MVA pathway on BLCA metastasis. The post-translational modification of RhoB by GGPP-mediated geranylgeranylation influenced its protein stability through the ubiquitin-proteasome pathway. Additionally, overexpression of RhoB was found to block the membrane translocation of integrin β1 in BLCA cells. In summary, our findings underscore the role of the MVA pathway in BLCA metastasis, providing insights into potential therapeutic targets of this malignancy. RhoB plays an important role in the effect of MVA pathway inhibition on the migratory capacity of bladder cancer cells and its protein stability is closely related to GGPP-mediated geranylgeranyl modification. [ABSTRACT FROM AUTHOR]

Published

2024

10. Involvement of PDGFR‐integrin interactions in the regulation of anoikis resistance in glioblastoma progression.

Author

Pain, Pampa, Tripathi, Ashutosh, and Pillai, Prakash P.

Subjects

*EXTRACELLULAR matrix, *CELL migration, *LIPID rafts, *CELL communication, *NON-coding RNA, *INTEGRINS

Abstract

The interactions between platelet‐derived growth factor/PDGF receptor and integrin signaling are crucial for cells to respond to extracellular stimuli. Integrin interactions with PDGFR within the lipid rafts activate downstream cellular signaling pathways that regulate cell proliferation, cell migration, cell differentiation, and cell death processes. The mechanisms underlying PDGFR activation mediated receptor internalization, interactions with other cell‐surface receptors, particularly extracellular matrix receptors, integrins, and how these cellular mechanisms switch on anchorage‐independent cell survival, leading to anoikis resistance are discussed. The role of regulatory molecules such as noncoding RNAs, that can modulate several molecular and cellular processes, including autophagy, in the acquisition of anoikis resistance is also discussed. Overall, the review provides a new perspective on a complex interplay of regulatory cellular machineries involving autophagy, noncoding RNAs and cellular mechanisms of PDGFR activation, PDGFR‐integrin interactions, and involvement of lipids rafts in the acquisition of anoikis resistance that regulates glioblastoma progression along with potential future strategies to develop novel therapeutics for glioblastoma multiforme. [ABSTRACT FROM AUTHOR]

Published

2024

11. N-acetylglucosaminyltransferase V drives colorectal cancer metastasis by facilitating ZO-1 ubiquitination and degradation.

Author

Zhan, Yueping, Huang, Chenjun, Wang, Rong, Xiao, Xiao, Xu, Xuewen, and Gao, Chunfang

Subjects

*COLORECTAL cancer, *EPITHELIAL-mesenchymal transition, *METASTASIS, *UBIQUITINATION, *CELL migration

Abstract

Increasing evidence supports the crucial role of Epithelial-Mesenchymal Transition (EMT) in cancer invasion and metastasis. N-acetylglucosaminyltransferase V (MGAT5), which is associated with multiantenna glycosylation, can contribute to tumorigenesis, yet its specific role in promoting colorectal cancer (CRC) metastasis remains unclear. Bioinformatics analysis of CRC datasets revealed that elevated MGAT5 expression was associated with EMT and a poor prognosis. In vitro experiments confirmed the pivotal role of MGAT5 as an EMT regulator in CRC cells. MGAT5 overexpression stimulated cell proliferation and migration, while MGAT5 knockdown had the opposite effect. Mechanistically, MGAT5 promoted EMT through multiantenna glycosylation of ZO-1, promoting its ubiquitination and reducing its expression. Clinically, MGAT5 upregulation in the CRC TMA correlated negatively with ZO-1 expression, which is indicative of malignancy and a poor prognosis. This study revealed that MGAT5 promotes EMT in CRC via interactions between multiple antenna glycosylation products and ZO-1 ubiquitination/degradation, indicating that MGAT5 could serve as a promising therapeutic target for CRC. [ABSTRACT FROM AUTHOR]

Published

2024

12. Bone marrow mesenchymal stem cells overexpressing stromal cell- derived factor 1 aid in bone formation in osteoporotic mice.

Author

Wang, Yanghao, Xiao, Ya, Yang, XinYu, He, Fei, Hu, Jun, Yang, Guang, and Wang, Weizhou

Subjects

*STROMAL cell-derived factor 1, *MESENCHYMAL stem cells, *BONE density, *BONE growth, *CELL migration

Abstract

Background: Osteoporosis is characterized by low systemic bone mineral content and destruction of bone microarchitecture. Promoting bone regeneration and reversing its loss by infusion of exogenous bone marrow mesenchymal stem cells (BMSCs) is a potentially effective treatment for osteoporosis. However, their limited migration to target organs reduces the therapeutic effect of the cells. Stromal cell-derived factor 1 (SDF1) is a chemokine that induces targeted cell migration through the SDF1/CXCR4 (C-X-C chemokine receptor 4) axis and can induce migration of exogenous mesenchymal stem cells to sites of high SDF1 concentration. There are no studies on BMSCs overexpressing SDF1 (SDF1-BMSCs) in osteoporotic mice in vivo. We aimed to investigate if the increased SDF1 concentration facilitated cell migration to the bone. Methods: We used lentivirus to construct BMSCs overexpressing SDF1 or knocking down CXCR4. We verified the proliferation ability of the cells in vitro using Cell Counting Kit-8 (CCK8) and 5-Bromodeoxyuridinc (BrdU), the migration ability of the cells using Transwell, and the osteogenic and lipogenic ability of the cells using osteogenic and lipogenic induction solutions. In in vivo experiments, we induced osteoporosis in 72 female mice by ovariectomy and injected different groups of cells via the tail vein. Femoral tissue samples were collected for a fixed time, and the osteogenic and homing abilities of the cells were verified by MicroCT and tissue section staining. Results: We successfully demonstrated that high expression of SDF1 promoted cell proliferation and migration in vitro, without affecting their cell differentiation ability. In an ovariectomized mouse model, SDF1-BMSCs were more likely to be home to the femur than the BMSCs, had a better pro-osteogenic ability, and had higher expression of Wnt-1. Blocking the SDF1/CXCR4 axis reduced the homing of exogenous mesenchymal stem cells (MSCs) to the femur and their osteogenic capacity. Conclusions: SDF1-BMSCs can further promote bone formation by increasing the number of cells homing to the femur in osteoporotic mice. Our study shows that stem cells can promote their proliferation and home to the femur via the SDF1/CXCR4 axis and further help bone formation via Wnt-1 signaling. [ABSTRACT FROM AUTHOR]

Published

2024

13. FKBP4 promotes glycolysis and hepatocellular carcinoma progression via p53/HK2 axis.

Author

Zeng, Zhenzhen, Xu, Shasha, Wang, Ruihua, and Han, Xingmin

Subjects

*CELL migration, *LACTIC acid, *HEPATOCELLULAR carcinoma, *GENETIC transcription, *PROTEIN stability

Abstract

FKBP4, a member of the FK506-binding protein (FKBP) family, is a promising target for a variety of disorders, including cancer. However, its underlying molecular mechanism and potential function in hepatocellular carcinoma (HCC) are largely elusive. Therefore, we aimed to investigate the expression status, functional implications and underlying mechanisms of FKBP4 in HCC. Our bioinformatics analysis of TCGA LIHC datasets, ICGC LIRI-JP datasets and GEO datasets results showed FKBP4 was upregulated in HCC tissues. We also confirmed the elevated FKBP4 in clinical HCC samples. Additionally, quantitative RT-PCR results revealed FKBP4 was highly expressed in all five tested HCC cell lines. We also observed a correlation between elevated FKBP4 expression and poor prognosis in HCC patients. Loss of FKBP4 can inhibit the proliferation and migration in HCC cells. Furthermore, we found that silencing FKBP4 suppressed glucose uptake, lactic acid production and 18F-FDG uptake compared with the control group. Mechanistically, our funding indicated that FKBP4 participates in glycolysis through p53 mediated HK2 signaling pathway, specially, FKBP4 knockdown promotes the expression and stability of p53 protein rather than affecting the transcription level. Finally, rescue experiments revealed that simultaneous knockdown of both FKBP4 and p53 partially reversed the inhibitory effects on HK2 protein levels and 18F-FDG uptake. Our study elucidates a novel role of FKBP4 in promoting HCC development and glycolysis by modulating the p53/HK2 signaling pathway. Given the critical role of aerobic glycolysis in the progression of HCC, targeting FKBP4 may offer a new therapeutic strategy for treating this malignancy. [ABSTRACT FROM AUTHOR]

Published

2024

14. Interpretable Fine‐Grained Phenotypes of Subcellular Dynamics via Unsupervised Deep Learning.

Author

Wang, Chuangqi, Choi, Hee June, Woodbury, Lucy, and Lee, Kwonmoo

Subjects

*ARTIFICIAL neural networks, *CELL imaging, *MACHINE learning, *FEATURE extraction, *CELL migration

Abstract

Uncovering fine‐grained phenotypes of live cell dynamics is pivotal for a comprehensive understanding of the heterogeneity in healthy and diseased biological processes. However, this endeavor poses significant technical challenges for unsupervised machine learning, requiring the extraction of features that not only faithfully preserve this heterogeneity but also effectively discriminate between established biological states, all while remaining interpretable. To tackle these challenges, a self‐training deep learning framework designed for fine‐grained and interpretable phenotyping is presented. This framework incorporates an unsupervised teacher model with interpretable features to facilitate feature learning in a student deep neural network (DNN). Significantly, an autoencoder‐based regularizer is designed to encourage the student DNN to maximize the heterogeneity associated with molecular perturbations. This method enables the acquisition of features with enhanced discriminatory power, while simultaneously preserving the heterogeneity associated with molecular perturbations. This study successfully delineated fine‐grained phenotypes within the heterogeneous protrusion dynamics of migrating epithelial cells, revealing specific responses to pharmacological perturbations. Remarkably, this framework adeptly captured a concise set of highly interpretable features uniquely linked to these fine‐grained phenotypes, each corresponding to specific temporal intervals crucial for their manifestation. This unique capability establishes it as a valuable tool for investigating diverse cellular dynamics and their heterogeneity. [ABSTRACT FROM AUTHOR]

Published

2024

15. Human Tendon‐on‐Chip: Unveiling the Effect of Core Compartment‐T Cell Spatiotemporal Crosstalk at the Onset of Tendon Inflammation.

Author

Bakht, Syeda M., Pardo, Alberto, Gomez‐Florit, Manuel, Caballero, David, Kundu, Subhas C., Reis, Rui L., Domingues, Rui M. A., and Gomes, Manuela E.

Subjects

*TENDINITIS, *CELL migration, *CELL aggregation, *TISSUE engineering, *ENDOTHELIAL cells

Abstract

The lack of representative in vitro models recapitulating human tendon (patho)physiology is among the major factors hindering consistent progress in the knowledge‐based development of adequate therapies for tendinopathy.Here, an organotypic 3D tendon‐on‐chip model is designed that allows studying the spatiotemporal dynamics of its cellular and molecular mechanisms.Combining the synergistic effects of a bioactive hydrogel matrix with the biophysical cues of magnetic microfibers directly aligned on the microfluidic chip, it is possible to recreate the anisotropic architecture, cell patterns, and phenotype of tendon intrinsic (core) compartment. When incorporated with vascular‐like vessels emulating the interface between its intrinsic‐extrinsic compartments, crosstalk with endothelial cells are found to drive stromal tenocytes toward a reparative profile. This platform is further used to study adaptive immune cell responses at the onset of tissue inflammation, focusing on interactions between tendon compartment tenocytes and circulating T cells.The proinflammatory signature resulting from this intra/inter‐cellular communication induces the recruitment of T cells into the inflamed core compartment and confirms the involvement of this cellular crosstalk in positive feedback loops leading to the amplification of tendon inflammation.Overall, the developed 3D tendon‐on‐chip provides a powerful new tool enabling mechanistic studies on the pathogenesis of tendinopathy as well as for assessing new therapies. [ABSTRACT FROM AUTHOR]

Published

2024

16. The Therapeutic Effects of Bioactive Compounds on Colorectal Cancer via PI3K/Akt/mTOR Signaling Pathway: A Critical Review.

Author

Demir, Kübra, Turgut, Rana, Şentürk, Selcen, Işıklar, Handan, and Günalan, Elif

Subjects

*CONSCIOUSNESS raising, *TREATMENT effectiveness, *CELL migration, *DRUG delivery systems, *CELL cycle, *CELL culture

Abstract

ABSTRACT Understanding the molecular signaling pathways of colorectal cancer (CRC) can be accepted as the first step in treatment strategy. Permanent mTOR signaling activation stimulates the CRC process via various biological processes. It supplies the survival of CRC stem cells, tumorigenesis, morbidity, and decreased response to drugs in CRC pathogenesis. Therefore, inhibition of the mTOR signaling by numerous bioactive components may be effective against CRC. The study aims to discuss the therapeutic capacity of various polyphenols, terpenoids, and alkaloids on CRC via the PI3K/Akt/mTOR pathway. The potential molecular effects of bioactive compounds on the mTOR pathway's upstream and downstream targets are examined. Each bioactive component causes various physiological processes, such as triggering free radical production, disruption of mitochondrial membrane potential, cell cycle arrest, inhibition of CRC stem cell migration, and suppression of glycolysis through mTOR signaling inhibition. As a result, carcinogenesis is inhibited by inducing apoptosis and autophagy. However, it should be noted that studies are primarily in vitro dose‐dependent treatment researchers. This study raises awareness about the role of phenolic compounds in treating CRC, contributing to their future use as anticancer agents. These bioactive compounds have the potential to be developed into food supplementation to prevent and treat various cancer types including CRC. This review has the potential to lead to further development of clinical studies. In the future, mTOR inhibition by applying several bioactive agents using advanced drug delivery systems may contribute to CRC treatment with 3D cell culture and in vivo clinical studies. [ABSTRACT FROM AUTHOR]

Published

2024

17. miR‐155 promotes m6A modification of SOX2 mRNA through targeted regulation of HIF‐1α and delays wound healing in diabetic foot ulcer in vitro models.

Author

Peng, Jiarui, Zhu, Hong, Ruan, Bin, Duan, Zhisheng, and Cao, Mei

Subjects

*DIABETIC foot, *GENE expression, *CELL migration, *DIABETES complications, *WOUND healing, *RECEPTOR for advanced glycation end products (RAGE), *ADVANCED glycation end-products

Abstract

ABSTRACT Objective Methods Results Conclusions Diabetic foot ulcers (DFU) are one of the most destructive complications of diabetes mellitus. The aim of this study was to link miR‐155 and SOX2 with DFU to explore the regulation of wound healing by DFU and its potential mechanism.Human keratinocytes (HaCaT) were induced with advanced glycation end products (AGEs) to construct DFU models in vitro. AGE‐induced HaCaT cells were subjected to CCK‐8 assays, flow cytometry, and wound healing assays to evaluate cell proliferation, apoptosis, and migration capacity, respectively. RT–qPCR and Western blotting were used to determine gene and protein expression levels, respectively. N6‐methyladenosine (M6A) levels in total RNA were assessed using an M6A methylation quantification kit.Our results suggested that the inhibition of miR‐155 promoted wound healing in an in vitro DFU model, while the knockdown of HIF‐1α reversed this process, and that HIF‐1α was a target protein of miR‐155. In addition, knockdown of HIF‐1α promoted the m6A level of SOX2 mRNA, inhibited the expression of SOX2, and inhibited the activation of the EGFR/MEK/ERK signaling pathway, thus inhibiting the proliferation and migration of HaCaT cells and promoting the apoptosis of HaCaT cells, while overexpression of SOX2 reversed this effect. We also found that METTL3 knockdown had the opposite effect of HIF‐1α knockdown.Inhibition of miR‐155 promoted the expression of HIF‐1α and attenuated the m6A modification of SOX2 mRNA, thereby promoting the expression of SOX2 and activating the downstream EGFR/MEK/ERK signaling pathway to promote wound healing in an in vitro DFU model. [ABSTRACT FROM AUTHOR]

Published

2024

18. CDR1as/miR-7-5p/<italic>IGF1R</italic> axis contributes to the suppression of cell viability in prostate cancer.

Author

Kaya, Murat, Suer, Ilknur, Aytatli, Abdulmelik, Karatas, Omer Faruk, Palanduz, Sukru, Cefle, Kivanc, and Ozturk, Sukru

Subjects

*CANCER cell migration, *CANCER cell proliferation, *GENE expression, *CELL migration, *PROSTATE cancer

Abstract

Prostate cancer is the most frequently diagnosed male cancer and the fifth highest cause of cancer mortality in men. CDR1as has played an essential role in the growth of several malignancies. However, its significance in the progression of prostate cancer has not been investigated. We aimed to investigate the role and mechanism of CDR1as in the development of prostate cancer and identify a new target for diagnostics and treatment.CDR1as siRNA and miR-7-5p mimic were transfected into PC3 and DU145 PCa cell lines and their effects on cellular processes were investigated. Cell viability was measured by WST-8 assay. The role of CDR1as and/or miR-7-5p on PCa cell migration was detected using the scratch-wound assay. The apoptotic capacity of the cells was evaluated using the Caspase-3 kit. The potential targets of miR-7-5p were defined via in silico tools. mRNA and protein expression levels of IGF1R and EIF4E were detected by qRT-PCR and western blot assays, respectively. The matching between miR-7-5p and IGF1R was defined via luciferase reporter assay.Inhibiting CDR1as or restoring miR-7-5p reduced prostate cancer cell proliferation and migration while increasing apoptosis. Silencing CDR1as elevated the expression of miR-7-5p while decreasing IGF1R.CDR1as functions as a miR-7-5p sponge, increasing IGF1R expression and promoting tumor development. [ABSTRACT FROM AUTHOR]

Published

2024

19. HPRT1: a preliminary investigation on its involvement in nasopharyngeal carcinoma.

Author

Chen, An, Wang, Guifang, Wang, Deli, and Liu, Ruyang

Subjects

P-glycoprotein, GENE expression, NASOPHARYNX cancer, MATRIX metalloproteinases, CELL migration

Abstract

Background: Accumulating evidences have stressed the association between hypoxanthine phosphoribosyl transferase 1 (HPRT1) overexpression and the poor prognosis of various cancers. Our study, herein, preliminarily investigates the involvement of HPRT1 in nasopharyngeal carcinoma (NPC). Methods: Data from TCGA were applied to read HPRT1 expression in diverse cancers including NPC and to predict the prognosis of NPC patients. The total RNA and protein from NPC cells and nasopharyngeal epithelial cells NP460 were extracted to quantify HPRT1 expression. Following the completion of transfection, the proliferation and migration of NPC cells were determined employing MTT, colony formation and western blot assay (the quantification on expressions of protein related to proliferation and migration). Results: HPRT1 was differentially expressed in diverse cancers yet particularly highly expressed in NPC, and high HPRT1 expression was related to the poor prognosis of NPC patients. Also, HPRT1 expression was higher in NPC cells and its silencing diminished the viability and proliferation of NPC cells and reduced the expressions of CyclinD1, CyclinE, Multidrug Resistance Protein 1 (MDR1), matrix metalloproteinase (MMP)-2, and MMP-9. Conclusion: This study preliminarily explored the involvement of HPRT1 in NPC based on some cellular assays in vitro, which may provide evidence for investigating the specific mechanism underlying the effects of HPRT1 in cancers. [ABSTRACT FROM AUTHOR]

Published

2024

20. PTPN20 promotes metastasis through activating NF-κB signaling in triple-negative breast cancer.

Author

Zuo, Xiaoxiao, Zhao, Xiaohan, Zhang, Xiaofei, Li, Qingyuan, Jiang, Xingyu, Huang, Shumei, Chen, Xuwei, Chen, Xiangfu, Jia, Weihua, Zou, Hequn, Shi, Dongni, and Qian, Xueke

Subjects

TRIPLE-negative breast cancer, PROGNOSIS, CELL migration, HAIRPIN (Genetics), WOUND healing

Abstract

Background: Cancer metastasis remains a major challenge in the clinical management of triple-negative breast cancer (TNBC). The NF-κB signaling pathway has been implicated as a crucial factor in the development of metastases, but the underlying molecular mechanisms remain largely unclear. Methods: PTPN20 expression was evaluated using data from the Sweden Cancerome Analysis Network-Breast and The Cancer Genome Atlas database, as well as by western blotting and immunohistochemistry in 88 TNBC patients. The ability of PTPN20 to activate NF-κB was assessed by luciferase reporter assays. The effects of PTPN20 overexpression and knockdown via short hairpin RNA were examined in TNBC cell lines by wound healing and transwell matrix penetration assays. Additionally, we analyzed the growth and metastasis abilitiy of 4T1 xenograft tumors in nude mice. Results: PTPN20 levels were elevated in TNBC cell lines and patient samples compared to controls, and higher protein levels correlated with metastasis-free survival. Overexpression of PTPN20 enhanced migration and invasion in vitro, and promoted lung metastasis in vivo. Our finding revealed that PTPN20 activates NF-κB signaling by dephosphorylating p65 at Ser468, preventing its binding to COMMD1, thereby protecting p65 from degradation. Downregulation of PTPN20 effectively inhibit, while p65 S468A mutant restored the migratory and invasive abilities of TNBC cells. Conclusions: Collectively, our results demonstrate that PTPN20 plays a critical role in TNBC metastasis through the activation of NF-κB signaling. We propose that PTPN20 may serve as a novel prognostic marker and potential therapeutic target for the treatment of TNBC. Highlights: The expression of PTPN20 was upregulated specially in triple-negative breast cancer. PTPN20 induces metastasis by promoting cell migration and invasion. PTPN20 dephosphorylates p65 and activates NF-κB signaling. PTPN20 may be a novel prognostic marker and a potential therapeutic target in the treatment of TNBC. [ABSTRACT FROM AUTHOR]

Published

2024

21. Alisol A inhibits and stabilizes atherosclerotic plaques by protecting vascular endothelial cells.

Author

Ma, Yang, Song, Dingzhong, Yuan, Jie, Hao, Wusi, Xi, Jianqiang, Yuan, Chunping, and Cheng, Zhihong

Subjects

VASCULAR endothelial cells, ATHEROSCLEROTIC plaque, CELL migration, ENDOTHELIUM diseases, ENDOTHELIAL cells

Abstract

Background and aims: Dysfunction of endothelial cells represents a crucial aspect in the pathogenesis of atherosclerosis. The aim of this study was to explore the protective effects of alisol A on vascular endothelial cells and its possible mechanisms. Methods: An atherosclerosis model was established by feeding ApoE-/- mice with high-fat chow. Alisol A (150 mg/kg/d) or atorvastatin (15 mg/kg/d) was administered, and the levels of blood lipids were evaluated. The effect of the drugs on atherosclerotic plaques was observed by staining the aorta with Sudan IV. In vitro experiments were conducted using human aortic endothelial cells (HAECs) to assess the effects of alisol A on cell proliferation, migration, tubulation, secretion, and cellular integrity by CCK-8 assay, wound healing assay, angiogenesis assay, NO secretion, and release of LDH. Transcriptomics and molecular docking were used to explore the mechanism of plaque inhibition and stabilization by alisol A. Results: Alisol A significantly reduced the aortic plaque area in ApoE−/− mice fed with high-fat chow. In vitro , alisol A had a protective effect on HAECs, which was reflected in the inhibition of vascular endothelial cell proliferation, promotion of NO secretion by vascular endothelial cells, inhibition of vascular endothelial cell migration and angiogenesis, and the maintenance of cell membrane integrity. Therefore, alisol A inhibited and stabilized atherosclerotic plaques and slowed down the process of atherosclerosis. Transcriptomics studies showed 4,086 differentially expressed genes (DEGs) in vascular endothelial cells after alisol A treatment. Enrichment analysis indicated that many genes involved in TNF signaling pathway were differentially expressed, and inflammatory genes were suppressed. The molecular docking results verified the hypothesis that alisol A has a low binding energy after docking with TNF target, and TNF could be a potential target of alisol A. Conclusion: Alisol A produced protection on vascular endothelial cells, achieving inhibition and stabilization of atherosclerotic plaques. [ABSTRACT FROM AUTHOR]

Published

2024

22. High-resolution subtyping of fibroblasts in gastric cancer reveals diversity among fibroblast subsets and an association between the MFAP5-fibroblast subset and immunotherapy.

Author

Wang, Hong, Yang, Linjun, Chen, Wei, Li, Kainan, Xu, Meng, Peng, Xiaobo, Li, Jie, Zhao, Feng, and Wang, Bin

Subjects

CELL migration, TREATMENT effectiveness, CELL communication, STOMACH cancer, RNA sequencing

Abstract

Backgrounds: Gastric cancer (GC) remains a global health threat due to frequent treatment failures caused by primary or acquired resistance. Although cancer-associated fibroblasts (CAFs) have been implicated in this process, it is still unclear which specific subtype(s) of CAFs hinder T-cell infiltration and promote resistance to immunotherapy. Methods: We analyzed the GC fibroblast atlas in detail by combining 63,955 single cells from 14 scRNA-seq datasets. We also performed RNA-seq data in a local GC cohort and examined 13 bulk RNA-seq datasets to understand the biological and clinical roles of different CAF subsets. Additionally, we conducted in vitro experiments to study the role of specific proteins in GC development. Results: We identified a total of 17 fibroblast subsets in gastric cancer, nine of which did not fit into the existing CAFs classification. These subsets exhibited significant heterogeneity in distribution and biological characteristics (metabolism, cell-cell interactions, differentiation state), as well as clinical functions such as prognosis and response to immunotherapy. In particular, cluster 6 stood out for its high expression of MFAP5, CFD, and PI16; it was found to be negatively associated with both overall survival and response to immunotherapy in GC. This association was linked to an immunosuppressive microenvironment characterized by an increase in M2 macrophages but higher levels of T cell dysfunction and exclusion—a feature shared by tumors expressing MFAP5. Furthermore, the addition of human recombinant MFAP5 promoted proliferation and migration of HGC-27 cells by inducing the MFAP5/NOTCH1/HEY1 signaling pathway. Conclusion: We introduce a high-resolution GC fibroblast atlas. The 17 identified fibroblast clusters provide valuable opportunities for gaining deeper biological insights into the relationship between fibroblasts and GC development. Particularly, cluster 6 and its specific marker MFAP5 could serve as prognostic factors in GC and form a foundation for personalized therapeutic combinations to address primary resistance to ICIs. [ABSTRACT FROM AUTHOR]

Published

2024

23. Unraveling the pathogenic mechanism of a novel filamin a frameshift variant in periventricular nodular heterotopia.

Author

Xue, Chunran, Wang, Yishu, Peng, Jing, Feng, Sisi, Guan, Yangtai, and Hao, Yong

Subjects

INDUCED pluripotent stem cells, MONONUCLEAR leukocytes, WESTERN immunoblotting, MICROFILAMENT proteins, CELL migration

Abstract

Background: Periventricular nodular heterotopia (PVNH) is a neuronal migration disorder caused by the inability of neurons to move to the cortex. Patients with PVNH often experience epilepsy due to ectopic neuronal discharges. Most cases of PVNH are associated with variations in filamin A (FLNA), which encodes an actin-binding protein. However, the underlying pathological mechanisms remain unclear. Methods: Next-generation sequencing was performed to detect variants in the patient with PVNH, and the findings were confirmed using Sanger sequencing. Iterative threading assembly refinement was used to predict the structures of the variant proteins, and the search tool for the retrieval of interacting genes/proteins database was used to determine the interactions between FLNA and motility-related proteins. An induced pluripotent stem cell (iPSC) line was generated as a disease model by reprogramming human peripheral blood mononuclear cells. The FLNA expression in iPSCs was assessed using western blot and quantitative real-time polymerase chain reaction (qRT-PCR). Immunofluorescence analysis was performed to determine the arrangement of F-actin. Results: A novel FLNA frameshift variant (NM_001456.3: c.1466delG, p. G489Afs*9) was identified in a patient with PVNH and epilepsy. Bioinformatic analysis indicated that this variation was likely to impair FLNA function. Western blot and qRT-PCR analysis of iPSCs derived from the patient's peripheral blood mononuclear cells revealed the absence of FLNA protein and mRNA. Immunofluorescence analysis suggested an irregular arrangement and disorganization of F-actin compared to that observed in healthy donors. Conclusion: Our findings indicate that the frameshift variant of FLNA (NM_001456.3: c.1466delG, p. G489Afs*9) impairs the arrangement and organization of F-actin, potentially influencing cell migration and causing PVNH. [ABSTRACT FROM AUTHOR]

Published

2024

24. Integrative analysis based on ATAC-seq and RNA-seq reveals a novel oncogene PRPF3 in hepatocellular carcinoma.

Author

Bai, Yi, Deng, Xiyue, Chen, Dapeng, Han, Shuangqing, Lin, Zijie, Li, Zhongmin, Tong, Wen, Li, Jinming, Wang, Tianze, Liu, Xiangyu, Liu, Zirong, Cui, Zilin, and Zhang, Yamin

Subjects

*TRANSCRIPTION factors, *GENE expression, *CELL motility, *CELL migration, *NUCLEOTIDE sequencing

Abstract

Background: Assay of Transposase Accessible Chromatin Sequencing (ATAC-seq) is a high-throughput sequencing technique that detects open chromatin regions across the genome. These regions are critical in facilitating transcription factor binding and subsequent gene expression. Herein, we utilized ATAC-seq to identify key molecular targets regulating the development and progression of hepatocellular carcinoma (HCC) and elucidate the underlying mechanisms. Methods: We first compared chromatin accessibility profiles between HCC and normal tissues. Subsequently, RNA-seq data was employed to identify differentially expressed genes (DEGs). Integrating ATAC-seq and RNA-seq data allowed the identification of transcription factors and their putative target genes associated with differentially accessible regions (DARs). Finally, functional experiments were conducted to investigate the effects of the identified regulatory factors and corresponding targets on HCC cell proliferation and migration. Results: Enrichment analysis of DARs between HCC and adjacent normal tissues revealed distinct signaling pathways and regulatory factors. Upregulated DARs in HCC were enriched in genes related to the MAPK and FoxO signaling pathways and associated with transcription factor families like ETS and AP-1. Conversely, downregulated DARs were associated with the TGF-β, cAMP, and p53 signaling pathways and the CTCF family. Integration of the datasets revealed a positive correlation between specific DARs and DEGs. Notably, PRPF3 emerged as a gene associated with DARs in HCC, and functional assays demonstrated its ability to promote HCC cell proliferation and migration. To the best of our knowledge, this is the first report highlighting the oncogenic role of PRPF3 in HCC. Furthermore, ZNF93 expression positively correlated with PRPF3, and ChIP-seq data indicated its potential role as a transcription factor regulating PRPF3 by binding to its promoter region. Conclusion: This study provides a comprehensive analysis of the epigenetic landscape in HCC, encompassing both chromatin accessibility and the transcriptome. Our findings reveal that ZNF93 promotes the proliferation and motility of HCC cells through transcriptional regulation of a novel oncogene, PRPF3. [ABSTRACT FROM AUTHOR]

Published

2024

25. Patterning Bacterial Cells on Quasi‐Liquid Surfaces for Biofilm Morphological Control.

Author

Chen, Fangying, Boylan, Dylan, Khan, Fabiha Zaheen, Shan, Li, Monga, Deepak, Zimmern, Philippe E., Zhang, Sulin, Palmer, Kelli, and Dai, Xianming

Subjects

*BACTERIAL cell surfaces, *TREATMENT effectiveness, *BACTERIAL cells, *CELL migration, *EXTRACELLULAR matrix

Abstract

Bacterial cells within biofilms exhibit resistance to antibiotics, presenting persistent health risks. Current approaches to inhibit biofilm formation have limitations due to their poor biofilm morphological control. For instance, bactericidal surfaces suffer from the accumulation of dead cells that compromise their antibacterial efficacy, and existing antifouling surfaces fail to inhibit biofilm formation. In this work, exceptional biofilm suppression is achieved on quasi‐liquid surfaces (QLS) with patterned surface chemistry where live bacterial cells are guided from slippery to sticky patterned destinations. These surfaces consist of 50 µm slippery and 10 µm sticky stripes. Live bacterial cells are directed to congregate on the sticky patterns, resulting in reduced biofilm biomass and surface coverage compared to uniform slippery surfaces. The patterned biofilm produces sparser extracellular matrix, thus reducing the barrier for antibiotic penetration and treatment. The innovative approach to direct cell migration on patterned QLS represents a promising strategy for inhibiting biofilm formation and combating biofilm‐associated infections. [ABSTRACT FROM AUTHOR]

Published

2024

26. TBK1-Zyxin signaling controls tumor-associated macrophage recruitment to mitigate antitumor immunity.

Author

Zhou, Ruyuan, Wang, Mengqiu, Li, Xiao, Liu, Yutong, Yao, Yihan, Wang, Ailian, Chen, Chen, Zhang, Qian, Wu, Qirou, Zhang, Qi, Neculai, Dante, Xia, Bing, Shao, Jian-Zhong, Feng, Xin-Hua, Liang, Tingbo, Zou, Jian, Wang, Xiaojian, and Xu, Pinglong

Subjects

*CELL migration, *FOCAL adhesions, *CELL motility, *MACROPHAGES, *IMMUNITY

Abstract

Mechanical control is fundamental for cellular localization within a tissue, including for tumor-associated macrophages (TAMs). While the innate immune sensing pathways cGAS-STING and RLR-MAVS impact the pathogenesis and therapeutics of malignant diseases, their effects on cell residency and motility remain incompletely understood. Here, we uncovered that TBK1 kinase, activated by cGAS-STING or RLR-MAVS signaling in macrophages, directly phosphorylates and mobilizes Zyxin, a key regulator of actin dynamics. Under pathological conditions and in STING or MAVS signalosomes, TBK1-mediated Zyxin phosphorylation at S143 facilitates rapid recruitment of phospho-Zyxin to focal adhesions, leading to subsequent F-actin reorganization and reduced macrophage migration. Intratumoral STING-TBK1-Zyxin signaling was evident in TAMs and critical in antitumor immunity. Furthermore, myeloid-specific or global disruption of this signaling decreased the population of CD11b+ F4/80+ TAMs and promoted PD-1-mediated antitumor immunotherapy. Thus, our findings identify a new biological function of innate immune sensing pathways by regulating macrophage tissue localization, thus providing insights into context-dependent mitigation of antitumor immunity. Synopsis: Although the role of innate immune sensing pathways is well-studied in the pathogenesis of malignancies, whether they influence immune cell migration is not known. This study shows that innate immune signaling via cGAS-STING or RLR-MAVS regulates tumor-associated macrophage tissue residency through activation of the TBK1-Zyxin axis. STING signalosomes recruit and directly phosphorylate Zyxin, thus promoting its localization to focal adhesions. TBK1-Zyxin-mediated chemo-mechanical signaling enhances macrophage adhesion in response to cGAS-STING or RLR-MAVS signaling. STING-TBK1-Zyxin signaling activation in mouse intratumoral tumor-associated macrophages detains TAMs in the tumor and reduces antitumor immunity responses. Myeloid-specific or global inhibition of cGAS-STING-TBK1-Zyxin signaling facilitates antitumor immunotherapy. Innate immune sensing pathways activate the TBK1 kinase for phosphorylation of the actin dynamics regulator Zyxin to trap macrophages in the tumor. [ABSTRACT FROM AUTHOR]

Published

2024

27. Ezrin, radixin, and moesin are dispensable for macrophage migration and cellular cortex mechanics.

Author

Verdys, Perrine, Rey Barroso, Javier, Girel, Adeline, Vermeil, Joseph, Bergert, Martin, Sanchez, Thibaut, Métais, Arnaud, Mangeat, Thomas, Bellard, Elisabeth, Bigot, Claire, Astarie-Dequeker, Catherine, Labrousse, Arnaud, Girard, Jean-Philippe, Maridonneau-Parini, Isabelle, Vérollet, Christel, Lagarrigue, Frédéric, Diz-Muñoz, Alba, Heuvingh, Julien, Piel, Matthieu, and du Roure, Olivia

Subjects

*CELL migration, *CYTOSKELETAL proteins, *CELL anatomy, *CYTOSKELETON, *EZRIN

Abstract

The cellular cortex provides crucial mechanical support and plays critical roles during cell division and migration. The proteins of the ERM family, comprised of ezrin, radixin, and moesin, are central to these processes by linking the plasma membrane to the actin cytoskeleton. To investigate the contributions of the ERM proteins to leukocyte migration, we generated single and triple ERM knockout macrophages. Surprisingly, we found that even in the absence of ERM proteins, macrophages still form the different actin structures promoting cell migration, such as filopodia, lamellipodia, podosomes, and ruffles. Furthermore, we discovered that, unlike every other cell type previously investigated, the single or triple knockout of ERM proteins does not affect macrophage migration in diverse contexts. Finally, we demonstrated that the loss of ERMs in macrophages does not affect the mechanical properties of their cortex. These findings challenge the notion that ERMs are universally essential for cortex mechanics and cell migration and support the notion that the macrophage cortex may have diverged from that of other cells to allow for their uniquely adaptive cortical plasticity. Synopsis: Ezrin, radixin, and moesin (collectively known as ERM proteins) serve as crucial cytoskeletal linker proteins connecting the actin cytoskeleton to the plasma membrane. This study shows that a complete loss of ERM proteins in macrophages does not affect the mechanics of their actin cortex and their capacity to migrate. Macrophage actin structures are still correctly formed in the absence of ERM proteins. Macrophage migration in vitro, ex vivo and in vivo is not affected by ERM depletion. The mechanical properties of the macrophage cortex are independent of ERM proteins. Macrophages do not require the ERM family proteins for phagocytosis and cell migration, suggesting divergence of macrophage cortical properties. [ABSTRACT FROM AUTHOR]

Published

2024

28. Epac activation reduces trans-endothelial migration of undifferentiated neuroblastoma cells and cellular differentiation with a CDK inhibitor further enhances Epac effect.

Author

Inuwa, Rabiu Fage, Moss, Diana, Quayle, John, and Swadi, Rasha

Subjects

*CELL migration, *CELL differentiation, *CELL imaging, *CELL permeability, *CHILDHOOD cancer, *ENDOTHELIAL cells

Abstract

Neuroblastoma (NB) is the most common solid extracranial neoplasm found in children and is derived from primitive sympathoadrenal neural precursor. The disease accounts for 15% of all cancer deaths in children. The mortality rate is high in patients presenting with a metastatic tumour even with extensive treatments. This signifies the need for further research towards the development of new additional therapies that can combat not only tumour growth but metastasis, especially amongst the high-risk groups. During metastasis, primary tumour cells become migratory and travel towards a capillary within the tumour. They then degrade the matrix surrounding the pericytes and endothelial cells traversing the endothelial barrier twice to establish a secondary. This led to the hypothesis that modulation of the endothelial cell junctional stability could have an influence on tumour metastasis. To test this hypothesis, agents that modulate endothelial permeability on NB cell line migration and invasion were assessed in vitro in a tissue culture model. The cAMP agonist and its antagonists were found to have no obvious effect on both SK-N-BE2C and SK-N-AS migration, invasion and proliferation. Next, NB cells were cocultured with HDMEC cells and live cell imaging was used to assess the effect of an Epac agonist on trans-endothelial cell migration of NB cells. Epac1 agonist remarkably reduced the trans-endothelial migration of both SK-N-BE2C and SK-N-AS cells. These results demonstrate that an Epac1 agonist may perhaps serve as an adjuvant to currently existing therapies for the high-risk NB patients. [ABSTRACT FROM AUTHOR]

Published

2024

29. Poria cocos inhibits the invasion, migration, and epithelial–mesenchymal transition of gastric cancer cells by inducing ferroptosis in cells.

Author

Zheng, Guangtao, Liu, Xiaoyan, Abuduwufuer, Abudukelimu, Yu, Haiye, He, Sirui, and Ji, Wei

Subjects

CANCER invasiveness, STOMACH cancer, METASTASIS, CELL migration, TUMOR growth

Abstract

Objective: Gastric cancer (GC) is one of the most prevalent malignant tumors of the digestive system. The advanced metastasis of gastric cancer severely limits the conventional approaches for its treatment, while certain traditional Chinese medicinal compounds have been reported to possess promising abilities in inhibiting tumor metastasis. Such as Poria (PA), known as Fu Ling in Chinese, is a commonly used traditional Chinese medicinal herb derived from Poria cocos, a fungus belonging to the polyporaceae family. Methods: The proliferation capacity of cells was measured using the MTT assay, while the invasion and migration abilities of cells after treatment with different concentrations of PA were evaluated through wound healing assay and Transwell assay. The differential expression of mRNA was analyzed using qPCR. The in vivo growth of tumors was assessed by subcutaneous tumor formation in mice. Results: Both in vivo and in vitro experiments have demonstrated that PA significantly inhibits the proliferation of GC. Moreover, in vitro experiments have revealed that PA not only suppresses the invasion and migration of GC cells but also reverses TNF-β-induced EMT. Further experiments have revealed that PA inhibits cell invasion, migration and EMT by inducing ferroptosis in GC cells. Conclusion: In brief, the present study shows that PA inhibits tumor metastasis by inducing ferroptosis in GC cells. Our findings suggest that PA may have therapeutic potential in GC. [ABSTRACT FROM AUTHOR]

Published

2024

30. Antioxidant properties of allium turcicum Özhatay & cowley plant extract, its effects on the proliferation and migration of cancer cells.

Author

İPEK, Polat, Baran, Ayse, Cebe, Deniz Barış, Ahmadian, Elham, Eftekhari, Aziz, and Baran, Mehmet Fırat

Subjects

ENDEMIC plants, DIETARY patterns, CANCER cell proliferation, CELL migration, COLORECTAL cancer

Abstract

Cancer is a type of non-communicable disease that is responsible for numerous deaths worldwide. Cancer incidence and mortality rates are on the rise due to a combination of factors, such as a growing population, aging, and poor dietary habits. The Allium turcicum Özhatay & Cowley plant is an endemic plant in the area where it grows and is consumed by the public due to its various benefits. This endemic plant, which generally grows in high-altitude regions, is sold in bunches because it is costly, mixed with rock salt, crushed into powder, and consumed as a spice. The cytotoxic and growth-inhibitory effects of A. turcicum Özhatay & Cowley herb extract on human glioblastoma U373 cells, human colorectal carcinoma cell HCT-116, and healthy HUVEC cell lines were determined by the MTT method. After 24 and 48 h of application, logIC50 values in HUVEC, HCT-116, and U373 cells were defined as 3.737, 3.765; 3.513, 3.696, 4.476, and 4.104 μg/mL, respectively. We conducted a cell migration experiment to study the A. turcicum Özhatay & Cowley Extract (ATÖCE) impact on cancer cells' metastatic behavior. Our findings indicate that ATÖCE has an inhibitory effect on the migration potential of the cells used in the study. We conducted experiments using DPPH, ABTS, CUPRAC, and total phenolic content to assess the antioxidant properties of ATÖCE. The findings from the antioxidant activity experiments revealed an activity level of 0.20 ± 0.046 at IC50. Additionally, the total phenolic content was measured to be 0.26 ± 0.044 mg GAE/g. [ABSTRACT FROM AUTHOR]

Published

2024

31. Blestriarene C exerts an inhibitory effect on triple-negative breast cancer through multiple signaling pathways.

Author

An, Junsha, Han, Mingyu, Tang, Hailin, Peng, Cheng, Huang, Wei, and Peng, Fu

Subjects

TRIPLE-negative breast cancer, CELL migration, BREAST cancer, DRUG efficacy, CELL cycle

Abstract

Introduction: Breast cancer is the most common cancer worldwide, the leading cause of cancer death in women, and the fifth leading cause of cancer death. Triple negative breast cancer (TNBC), with high metastasis and mortality rates, is the most challenging subtype in breast cancer treatment. There is an urgent need to develop anti-TNBC drugs with significant efficacy, low side effects and good availability. In early drug screening, blestriarene C was found to have inhibitory effects on TNBC cells. In this article, we further explore the mechanisms associated with blestriarene C for breast cancer. Methods: In this article, we take the approach of network pharmacology combined with in vivo and in vitro experiments. Network pharmacology analysis was used to predict the active components in Baiji, and to investigate the hub targets and related mechanisms of BC in TNBC treatment. The mechanism of anti-TNBC in vitro was evaluated by CCK-8 assay, cell apoptosis and cell cycle assays, wound healing assay, WB assay, and molecular docking analysis. The inhibition effect in vivo was test in subcutaneous tumor models established in mice. Results: Through network pharmacology analysis and experiments, we screened out BC as the main active ingredient, and found that BC could inhibit the Ras/ERK/c-Fos signaling pathway while downregulating the expression of HSP90AA1 and upregulating the expression of PTGS2, thereby promoting apoptosis, causing S-phase cycle arrest, and inhibiting the proliferation and migration of BT549 cells. The in vivo results illustrated that BC inhibited the growth of TNBC tumors and has a high safety profile. By integrating network pharmacology with in vitro and in vivo experiments, this study demonstrated that BC inhibited the proliferation and migration of TNBC cells by inhibiting the Ras/ERK/c-Fos signaling pathway, promoting apoptosis, and causing S-phase cycle arrest. Discussion: This study provides new evidence for the use of BC as a novel drug for TNBC treatment. [ABSTRACT FROM AUTHOR]

Published

2024

32. HOXC12 promotes the invasion and migration of gastric cancer cells by upregulating SALL4 and activating Wnt/β-catenin signaling pathway.

Author

Zhang, Jun, Hou, Nengbin, Rao, Dewang, Chen, Qian, Ning, Zhongliang, and Lu, Ming

Subjects

CANCER cell migration, TRANSCRIPTION factors, STOMACH cancer, CELL migration, T cells

Abstract

Background: Gastric cancer is one of the most common malignant tumors in the world, with a poor prognosis. HOXC is a family of transcription factors that are up-regulated in gastric cancer tissues. However, the relationship between Homeobox C12 (HOXC12) and gastric cancer is still unclear. Methods: TCGA-STAD and HPA data were analyzed to explore HOXC12 level. Kaplan–Meier Plotter was used to analyze the relationship between HOXC12 level and the prognosis of gastric cancer patients. The HOXC12 was knocked down or overexpressed by shRNA or overexpression vector to explore its functions. Cell migration/invasion assays and wound healing assay were used to assess the invasion/migration ability of gastric cancer cells. Western blot and qPCR were used to detect gene expression and the activation of Wnt/β-catenin signaling pathway. Dual-luciferase reporter assay was used to detect the active region bound by HOXC12 in the promoter of Spalt-like transcription factor 4 (SALL4). Results: HOXC12 was highly expressed in gastric cancer and was positively correlated with the poor prognosis of gastric cancer patients. HOXC12 promotes the invasion and migration of gastric cancer cells via Wnt/β-catenin signaling pathway. HOXC12 upregulated the transcription of SALL4 by binding to its promoter. HOXC12 was negatively correlated with both the levels of CD8+ T cells and T cell cytotoxicity-related genes. Conclusion: HOXC12 promotes the invasion/migration of gastric cancer cells via SALL4/Wnt/β-catenin axis, and is negatively correlated with the infiltration of CD8+ T cells, suggesting HOXC12 as a diagnostic marker and a potential therapeutic target for gastric cancer. [ABSTRACT FROM AUTHOR]

Published

2024

33. Design, Synthesis and Biological Activity Evaluation of β-Carboline Derivatives Containing Nitrogen Heterocycles.

Author

Wu, Guiyun, Wang, Wenhang, Li, Fulian, Xu, Chenlu, Zhou, Yue, Li, Zhurui, Liu, Bingqian, Shao, Lihui, Chen, Danping, Bai, Song, and Wang, Zhenchao

Subjects

*CELL migration, *CELL cycle, *REACTIVE oxygen species, *BIOSYNTHESIS, *CELL lines, *ACETAMIDE derivatives

Abstract

A series of β-carboline derivatives containing nitrogen heterocycles were designed and synthesized. All compounds were screened for their antitumor activity against four human tumor cell lines (A549, K562, PC-3, T47D). Notably, compound N-(4-(morpholinomethyl)phenyl)-2-((5-(1-(3,4,5-trimethoxyphenyl)-9H-pyrido[3,4-b]indol-3-yl)-1,3,4-oxadiazol-2-yl)thio)acetamide (8q) exhibited significant inhibitory activity against PC-3 cells with an IC50 value of 9.86 µM. Importantly, compound 8q effectively suppressed both the proliferation and migration of PC-3 cells. Mechanistic studies revealed that compound 8q induced cell apoptosis and caused the accumulation of reactive oxygen species (ROS), leading to cell cycle arrest in the G0/G1 phase in PC-3 cells. [ABSTRACT FROM AUTHOR]

Published

2024

34. Preliminary Assessment of the Protective and Antitumor Effects of Several Phytoene-Containing Bacterial and Microalgal Extracts in Colorectal Cancer.

Author

Perazzoli, Gloria, Luque, Cristina, León-Vaz, Antonio, Gómez-Villegas, Patricia, Rengel, Rocío, Molina-Márquez, Ana, Morón-Ortiz, Ángeles, Mapelli-Brahm, Paula, Prados, José, Melguizo, Consolación, Meléndez-Martínez, Antonio, and León, Rosa

Subjects

*ESCHERICHIA coli, *CHLORELLA sorokiniana, *INHIBITION of cellular proliferation, *COLORECTAL cancer, *CELL migration

Abstract

The identification of new functional food constituents is a priority to improve the prognosis and prevention of colorectal cancer (CRC). In this study, several bacterial and algal phytoene-enriched extracts were obtained, and their potential activity against oxidative damage and their ability to inhibit proliferation and cell migration in several human colon-adenocarcinoma-derived cell lines were assessed. The main conclusions indicate that total extracts of Sphingomonas echinoides and Chlorella sorokiniana exhibited the highest protective effect against oxidative damage. All extracts enhanced the activity of detoxifying enzymes, particularly importantly the increase of NAD(P)H:quinone oxidoreductase activity, which reached a value 40% higher than that of untreated control cells upon exposure to Escherichia coli extracts. Staphylococcus haemolyticus and transgenic E. coli extracts significantly arrested the migration capacity of both cell lines, while S. haemolyticus and C. sorokiniana extracts inhibited cell proliferation by 15 to 20% compared to untreated cells. These results point to these extracts as potential antioxidant complements able to protect cells against oxidative damage and with a moderate ability to inhibit the proliferation and migration of CRC tumor cells, paving the way to design functional foods or probiotic formulations with preventive properties against oxidative stress-related diseases, such as cancer, or as starting point for purifying anticancer compounds. [ABSTRACT FROM AUTHOR]

Published

2024

35. LncRNAPVT1 is Associated with Cancer-Associated Fibroblasts Proliferation Through Regulating TGF-βin Oral Squamous Cell Carcinoma.

Author

Meng, Zhen, Li, Tongjuan, Li, Jun, Ding, Shuxin, Liu, Yujiao, Zhao, Guoli, Chen, Cheng, Zhao, Peng, and Zhou, Longxun

Subjects

*TRANSFORMING growth factors, *LINCRNA, *LENTIVIRUS diseases, *SQUAMOUS cell carcinoma, *CELL migration

Abstract

Introduction: Human oral squamous cell carcinoma (OSCC) is the most common type of oral cancer and has a poor survival rate. Cell-cell communication between OSCC cells and cancer-associated fibroblasts (CAFs) plays important roles in OSCC progression. We previously demonstrated that CAFs promote OSCC cell migration and invasion. However, how OSCC cells influence CAFs proliferation is unknown. Methods: Knockdown of PVT1 was confirmed using lentivirus infection technique. CAFs in tissues were identified by staining the cells with α-SMA using immunohistochemical technique. CCK-8 assay was used to evaluate cell proliferation. The mRNA level of a gene was measured by qRT-PCR. Secreted TGF-β were detected using ELISA assay. Results: We found that knockdown of the long non-coding RNA (lncRNA) plasmacytoma variant translocation 1 (PVT1) was associated with a low density of CAFs in xenograft tumors in mice; further analysis revealed that PVT1 in OSCC cells induced CAF proliferation through transforming growth factor (TGF)-β. Discussion: Our results demonstrate that lncRNA PVT1 in tumor cells participates in CAF development in OSCC by regulating TGF-β. This study revealed a new mechanism by which PVT1 regulates OSCC progression and PVT1 is a potential therapeutic target in OSCC [ABSTRACT FROM AUTHOR]

Published

2024

36. NKX3-2 Induces Ovarian Cancer Cell Migration by HDAC6-Mediated Repositioning of Lysosomes and Inhibition of Autophagy.

Author

Ferraresi, Alessandra, Ghezzi, Ian, Salwa, Amreen, Esposito, Andrea, Dhanasekaran, Danny N., and Isidoro, Ciro

Subjects

*CANCER cell migration, *EPITHELIAL-mesenchymal transition, *CELL migration, *CELL motility, *OVARIAN cancer

Abstract

Several soluble factors secreted by the stromal cells and cancer cells within the tumor microenvironment facilitate the progression and invasiveness of ovarian cancer. In ovarian cancer cells, lysophosphatidic acid (LPA) modulates the transcriptome profile and promotes cell invasiveness by the downregulation of autophagy. Here, we further elucidate this mechanism by focusing on the molecular and cellular events regulating autophagy. Transcriptomic and Western blotting analyses revealed NKX3-2, a transcriptional factor, to be among the genes hyperexpressed in LPA-stimulated ovarian cancer cells. Bioinformatic analyses revealed that in ovarian cancer patients, the expression of NKX3-2 positively correlates with genes involved in cell motility and migration, while it negatively correlates with macromolecular catabolic pathways. In various ovarian cancer cell lines, NKX3-2 silencing abrogated LPA-induced cell migration. Mechanistically, this effect is linked to the restoration of the HDAC6-mediated relocation of the lysosomes in the para-golgian area, and this results in an increase in autolysosome formation and the overall upregulation of autophagy. Silencing the expression of ATG7 or BECN1, two autophagy genes, rescued the migratory phenotype of the NKX3-2-silenced ovarian cancer cells. Taken together, these data reveal the mechanism by which the LPA-NKX3-2 axis promotes the invasiveness of ovarian cancer cells and supports the possibility of targeting NKX3-2 to reduce the migratory capacity of cancer cells in response to a permissive microenvironment. [ABSTRACT FROM AUTHOR]

Published

2024

37. Apoptotic and anti-migratory activity of Citrus limon rind essential oil encapsulated in niosome against human breast cancer cells.

Author

Yaghoobi, Mohammad Mehdi, Deylami, Toktam, and Torkzadeh-Mahani, Masoud

Subjects

*LEMON, *FRUIT skins, *CELL migration, *CANCER cells, *MEDICINAL plants

Abstract

Objective: This study aimed to formulate Citrus limon fruit rind's essential oil (EO) and to analyze its impact on breast cancer cells. Materials and Methods: Initially, the cytotoxicity of EO (0.09-9 µg/ml) and doxorubicin (0.5-5 µM) on MCF-7, SK-BR-3, and MDA-MB-231 breast cancer cells was assessed using the MTT assay following 24-72 hr treatment. The cells were then treated with niosomes containing 4.5 µg/ml EO and 0.5 µM doxorubicin for 48 hr. Flow cytometry, migration assay, and RT-qPCR were used to study the cell behavior. Results: MTT results indicated that both EO and doxorubicin alone exhibited severe cytotoxicity (viability ≤ 30%) towards all three cells after 48 hr . When treated with encapsulated EO, the apoptotic death rate in MCF-7, MDA-MB-231, and SK-BR-3 cells was substantially diminished to 14%, 28%, and 9%, respectively. Similarly, encapsulated doxorubicin induced mild apoptotic death in these cells. Encapsulated EO and doxorubicin significantly prevented the migration of all cells. Following treatment with the encapsulated EO, a notable reduction in the expression of VIM, SLUG, SNAIL, and JUN, which are promoters of cancer cell invasion, was seen. Conversely, the expression of the FAS receptor, an active participant in the extrinsic apoptosis pathway, increased (p<0.01). Conclusion: Lemon EO has apoptotic and anti-migratory effects on breast cancer cells, comparable to that of doxorubicin. Utilizing niosome as an efficient delivery modality effectively mitigates the adverse effects of EO and can be used for in vivo delivery of it to cancer cells. [ABSTRACT FROM AUTHOR]

Published

2024

38. Effects of glial-derived neurotrophic factor on remodeling and mitochondrial function in human airway smooth muscle cells.

Author

Drake, Li Y., Roos, Benjamin B., Teske, Jacob J., Borkar, Niyati A., Ayyalasomayajula, Savita, Klapperich, Courtney, Ngassie, Maunick Lefin Koloko, Pabelick, Christina M., and Prakash, Y. S.

Subjects

*HEAT shock proteins, *SMOOTH muscle, *CELL migration, *ENDOPLASMIC reticulum, *PROTEIN expression

Abstract

Airway smooth muscle (ASM) cells play important roles in airway remodeling of asthma. Our previous studies show that in vivo administration of glial-derived neurotrophic factor (GDNF) in mice induces thickening and collagen deposition in bronchial airways, whereas chelation of GDNF by GFRα1-Fc attenuates airway remodeling in the context of allergen exposure. To determine whether GDNF has direct effects on ASM, in this study, we examined GDNF in ASM cells from normal versus asthmatic humans. We found that GDNF treatment of human ASM cells had only minor effects on cell proliferation and migration, intracellular expression or extracellular deposition of collagen I (COL1), collagen III (COL3), and fibronectin. Endoplasmic reticulum (ER) stress response and mitochondrial function have been implicated in asthma. We investigated whether GDNF regulates these aspects in human ASM. We found that GDNF treatment did not affect ER stress protein expression in normal or asthmatic cells. However, GDNF treatment impaired mitochondrial morphology in ASM but without significant effects on mitochondrial respiration. Thus, it is likely that in vivo effects of GDNF on airway remodeling per se involve cell types other than those on ASM, and thus ASM may serve more as a source of GDNF rather than a target. NEW & NOTEWORTHY: Our previous study suggests that glial-derived neurotrophic factor (GDNF) is involved in allergen-induced airway hyperreactivity and remodeling in vivo. Here, we show that GDNF has no direct effects in remodeling of human airway smooth muscle (ASM) but GDNF dysregulates mitochondrial morphology in human ASM in the context of asthma. [ABSTRACT FROM AUTHOR]

Published

2024

39. The water channels aquaporin-1 and aquaporin-3 interact with and affect the cell polarity protein Scribble in 3D in vitro models of breast cancer.

Author

Edamana, Sarannya, Login, Frédéric H., Riishede, Andreas, Dam, Vibeke S., Kirkegaard, Teresa, and Nejsum, Lene N.

Subjects

*CELL polarity, *CELL migration, *CELL junctions, *BREAST cancer, *LYMPHATIC metastasis, *BREAST, *CELL adhesion

Abstract

Cellular changes in carcinomas include alterations in cell proliferation, cell migration, cell-cell adhesion, and cellular polarity. In vitro studies have revealed that the water channels, aquaporin-1 (AQP1) and AQP3, can influence cell migration and cell-cell adhesion. Of note, we previously showed that AQP1 overexpression reduced levels of cell-cell adhesion proteins, whereas AQP3 increased levels when overexpressed in normal epithelial cells. Expression of AQP1 and AQP3 in breast carcinoma is associated with lymph node metastasis, recurrence, and poor survival of patients with breast cancer. In this study, we investigated if AQP1 and AQP3 affected cell polarity in breast cancer by studying the relationship between the major polarity protein Scribble and AQP1 and AQP3. In breast cancer tissue samples, the protein expression of AQP1, AQP3, and Scribble did not show an obvious correlation. However, in a GST pull-down assay, AQP1 and AQP3 interacted with Scribble. AQP1 overexpression reduced the size of 3D spheroids as well as reduced Scribble levels at cell-cell contacts, whereas AQP3 overexpression showed no significant change in spheroid size compared with control, AQP3 overexpression also reduced Scribble levels at cell-cell contacts. Of note, AQP1 overexpression increased cell migration and induced cell detachment and dissemination from migrating breast cancer cell sheets, whereas AQP3 overexpression did not. Thus, AQP1 and AQP3 differentially affect 3D-grown breast cancer spheroids, and especially AQP1 may contribute to cancer development and spread via negatively affecting cellular junctions and cell polarity proteins as well as increasing cell migration and cell detachment. NEW & NOTEWORTHY: Overexpression of the water channels aquaporin-1 and aquaporin-3 reduced levels of the key polarity protein Scribble at cell-cell junctions, suggesting potential implications in breast cancer progression and metastasis. [ABSTRACT FROM AUTHOR]

Published

2024

40. Physical effects of 3-D microenvironments on confined cell behaviors.

Author

Lan, Bao-Qiong, Wang, Ya-Jun, Yu, Sai-Xi, Liu, Wei, and Liu, Yan-Jun

Subjects

*CELL migration, *CELL motility, *MORPHOGENESIS, *EXTRACELLULAR matrix, *METASTASIS

Abstract

Cell migration is a fundamental and functional cellular process, influenced by a complex microenvironment consisting of different cells and extracellular matrix. Recent research has highlighted that, besides biochemical cues from the microenvironment, physical cues can also greatly alter cellular behavior. However, due to the complexity of the microenvironment, little is known about how the physical interactions between migrating cells and surrounding microenvironment instructs cell movement. Here, we explore various examples of three-dimensional microenvironment reconstruction models in vitro and describe how the physical interplay between migrating cells and the neighboring microenvironment controls cell behavior. Understanding this mechanical cooperation will provide key insights into organ development, regeneration, and tumor metastasis. [ABSTRACT FROM AUTHOR]

Published

2024

41. Decisive role of mDia-family formins in cell cortex function of highly adherent cells.

Author

Scholz, Jonas, Stephan, Till, Pérez, Aina Gallemí, Csiszár, Agnes, Hersch, Nils, Fischer, Lisa S., Brühmann, Stefan, Körber, Sarah, Litschko, Christof, Mijanovic, Lucija, Kaufmann, Thomas, Lange, Felix, Springer, Ronald, Pich, Andreas, Jakobs, Stefan, Peckham, Michelle, Tarantola, Marco, Grashoff, Carsten, Merkel, Rudolf, and Faix, Jan

Subjects

*FORMINS, *CELL physiology, *CELL migration, *FOCAL adhesions, *MECHANOTRANSDUCTION (Cytology)

Abstract

Cortical formins, pivotal for the assembly of linear actin filaments beneath the membrane, exert only minor effects on unconfined cell migration of weakly and moderately adherent cells. However, their impact on migration and mechanostability of highly adherent cells remains poorly understood. Here, we demonstrate that loss of cortical actin filaments generated by the formins mDia1 and mDia3 drastically compromises cell migration and mechanics in highly adherent fibroblasts. Biophysical analysis of the mechanical properties of the mutant cells revealed a markedly softened cell cortex in the poorly adherent state. Unexpectedly, in the highly adherent state, associated with a hyperstretched morphology with exaggerated focal adhesions and prominent high-strain stress fibers, they exhibited even higher cortical tension compared to control. Notably, misguidance of intracellular forces, frequently accompanied by stress-fiber rupture, culminated in the formation of tension-and contractility-induced macroapertures, which was instantly followed by excessive lamellipodial protrusion at the periphery, providing critical insights into mechanotransduction of mechanically stressed and highly adherent cells. [ABSTRACT FROM AUTHOR]

Published

2024

42. Egfl6 promotes ovarian cancer progression by enhancing the immunosuppressive functions of tumor-associated myeloid cells.

Author

Sinno, Sarah Hamze, Imperatore, Joshua A., Bai, Shoumei, Gomes-Jourdan, Noémie, Mafarachisi, Nyasha, Coronnello, Claudia, Zhang, Linan, Jašarević, Eldin, Osmanbeyoglu, Hatice U., Buckanovich, Ronald J., and Cascio, Sandra

Subjects

*MYELOID cells, *OVARIAN cancer, *MYELOID-derived suppressor cells, *CANCER invasiveness, *CELL migration, *IMMUNOSUPPRESSION, *MITOGEN-activated protein kinases

Abstract

Tumor-associated macrophages (TAMs) and myeloid-derived suppressor cells (MDSCs) play a critical role in resistance to immunotherapy. In this study, we identified epidermal growth factor-like 6 (Egfl6) as a regulator of myeloid cell functions. Our analyses indicated that Egfl6, via binding with β3 integrins and activation of p38 and SYK signaling, acts as a chemotactic factor for myeloid cell migration and promotes their differentiation toward an immunosuppressive state. In syngeneic mouse models of ovarian cancer (OvCa), tumor expression of Egfl6 increased the intratumoral accumulation of polymorphonuclear (PMN) MDSCs and TAMs and their expression of immunosuppressive factors, including CXCL2, IL-10, and PD-L1. Consistent with this, in an immune 'hot' tumor model, Egfl6 expression eliminated response to anti-PD-L1 therapy, while Egfl6 neutralizing antibody decreased the accumulation of tumor-infiltrating CD206+ TAMs and PMN-MDSCs and restored the efficacy of anti-PD-L1 therapy. Supporting a role in human tumors, in human OvCa tissue samples, areas of high EGFL6 expression colocalized with myeloid cell infiltration. scRNA-Seq analyses revealed a correlation between EGFL6 and immune cell expression of immunosuppressive factors. Our data provide mechanistic insights into the oncoimmunologic functions of EGFL6 in mediating tumor immune suppression and identified EGFL6 as a potential therapeutic target to enhance immunotherapy in patients with OvCa. [ABSTRACT FROM AUTHOR]

Published

2024

43. Constructing polymorphonuclear cells: chromatin folding shapes nuclear morphology.

Author

Murre, Cornelis, Patta, Indumathi, Mishra, Shreya, and Hu, Ming

Subjects

*NUCLEAR shapes, *CELL migration, *NUCLEAR engineering, *ENDOPLASMIC reticulum, *EOSINOPHILS

Abstract

In mammalian polymorphonuclear cells, polymorphonuclear structures are assembled by loop extrusion. Mega-loop anchors and interchromosomal hubs are stabilized by nuclear condensates. Diminished loop extrusion might alter nuclear deformability. Loop extrusion programs may instruct cellular architecture. It might be feasible to engineer artificial nuclear shapes and altered nuclear deformability to manipulate immune effector cell migration. Since the cardinal discovery by Metchnikoff that neutrophils assemble into polymorphonuclear structures, insights into the mechanisms that underpin the formation of such structures have remained rudimentary. Recent studies have demonstrated that in early mammalian hematopoiesis, mononuclear versus polymorphonuclear cell fate decisions are orchestrated by intricate competitive physical forces that involve loop extrusion and phase separation programs. Changing loop extrusion programs might enable the engineering of new nuclear shapes and artificial cytoplasmic architectures in effector immune cells and beyond. Immune cell fate decisions are regulated, at least in part, by nuclear architecture. Here, we outline how nuclear architecture instructs mammalian polymorphonuclear cell differentiation. We discuss how in neutrophils loop extrusion mechanisms regulate the expression of genes involved in phagocytosis and shape nuclear morphology. We propose that diminished loop extrusion programs also orchestrate eosinophil and basophil differentiation. We portray a new model in which competitive physical forces, loop extrusion, and phase separation, instruct mononuclear versus polymorphonuclear cell fate decisions. We posit that loop extrusion programs instruct the spatial organization of cytoplasmic organelles, including neutrophil granules, mitochondria, and endoplasmic reticulum. Finally, we suggest that changing loop extrusion programs might allow the engineering of new nuclear shapes and artificial cytoplasmic architectures. [ABSTRACT FROM AUTHOR]

Published

2024

44. Matrix metalloproteinase‐11 regulates inverted papilloma epithelial cell migration and invasion.

Author

Panara, Kush, Hui, Tan Li, Keshari, Deepa, Tong, Charles C. L., Palmer, James N., Adappa, Nithin D., Douglas, Jennifer E., Cohen, Noam A., and Kohanski, Michael A.

Subjects

*EPITHELIAL cells, *CELL migration, *EXTRACELLULAR matrix, *BENIGN tumors, *TUMOR microenvironment

Abstract

Background: Inverted papilloma (IP) is a benign tumor characterized by epithelial proliferation, which has the potential for malignant transformation. However, the mechanisms driving this transformation are poorly defined. Matrix metalloproteinase‐11 (MMP‐11), a regulator of the tumor microenvironment that degrades extracellular matrix, is upregulated in IP with dysplasia. Here, we aim to investigate the role of MMP‐11 in IP epithelial migration and invasion. Methods: Human IP and contralateral normal sinus mucosa (control) samples were obtained. IP‐derived epithelial cultures and normal mucosa‐derived epithelial cultures were grown in air‒liquid interface, followed by immunostaining to assess MMP‐11 expression in IP. Migration and invasion assays were used to evaluate the role of an anti‐MMP‐11 antibody on IP and control epithelial cultures. Results: IP‐derived cultures demonstrated strong MMP‐11 expression compared to controls. Treatment with anti‐MMP‐11 blocking antibody significantly reduced epithelial migration only in IP‐derived cells compared to non‐treated IP cells, as seen by incomplete wound closure and reduced transepithelial resistance. In addition, inhibition of MMP‐11 reduced IP epithelia's ability to invade through collagen‐coated transwells, suggesting that MMP‐11 plays a role in invasion. Conclusion: We established an in vitro model to study IP‐derived epithelial cells. MMP‐11 is uniquely expressed in IP epithelial cultures compared to control epithelial cultures. Inhibition of MMP‐11 limits IP epithelial migration and invasion to levels similar to that of normal sinus mucosa. MMP‐11 does not appear to have a functional role in normal sinus epithelium, suggesting that MMP‐11 has a role in malignant transformation of IP. [ABSTRACT FROM AUTHOR]

Published

2024

45. Deciphering the oncogenic potential of ADAM9 in hepatocellular carcinoma through bioinformatics and experimental approaches.

Author

Jiang, Liqing, Huang, Weifeng, Cao, Mulan, Jiang, Yingsong, Li, Simin, Li, Mengling, Yang, Rui, Wu, Zhongjun, Wang, Yan, Lv, Cheng, and Huang, Zuotian

Subjects

*GENE expression, *HEPATOCELLULAR carcinoma, *CANCER-related mortality, *CELL migration, *CELL proliferation

Abstract

Hepatocellular carcinoma (HCC) is one of the leading causes of cancer-related mortality worldwide. This study investigates the role and mechanisms of ADAM9 as a biomarker and potential therapeutic target in HCC. Utilizing RNA-sequencing data and clinicopathological characteristics from The Cancer Genome Atlas (TCGA) and Gene Expression Omnibus (GEO) databases, we conducted survival and meta-analyses, functional enrichment, and immune infiltration studies. Additionally, we evaluated the effects of ADAM9 silencing on HCC cell proliferation, migration, and invasion through in vitro experiments. Our results demonstrate that high ADAM9 expression is associated with poor prognosis and increased immune infiltration in HCC patients. Furthermore, ADAM9 knockdown significantly inhibited tumor cell proliferation and migration. These findings indicate that ADAM9 is a promising prognostic biomarker and potential therapeutic target in HCC. In conclusion, ADAM9 could offer avenues for developing strategies to inhibit tumor progression and improve patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

46. Comparison of primordial germ cell differences at different developmental time points in chickens.

Author

Wei Gong, Yichen Zou, Xin Liu, Yingjie Niu, Kai Jin, Bichun Li, and Qisheng Zuo

Subjects

*GENDER differences (Sociology), *GERM cells, *EXTRACELLULAR matrix, *GERMPLASM conservation, *CELL migration

Abstract

Objective: Recently, the application in the field of germplasm resource conservation has become an important application of primordial germ cells (PGCs). However, due to the lack of deep understanding of the biological characteristics of PGCs at different time points, there is no systematic scheme for the selection of PGCs at which time points in practical application, which affects the practical application effect of PGCs. This study aims to clarify the differences in PGCs during development. Methods: Here, migration experiment, EdU proliferation assay and cell apoptosis assay were conducted to compare the differences in the migration ability, the proliferation ability and the recovery efficiency among female and male PGCs at E3.5, E4.5, and E5.5, which were explained by the following transcriptome sequencing analysis. Results: We found that there were larger differences between female and male PGCs at different embryonic ages, while smaller differences between female and male PGCs at the same embryonic age. Further comparison showed that the cell migration ability of female and male PGCs decreased gradually during development, so female and male PGCs at E3.5 are more suitable for in vitro allotransplantation. At the same time, the proliferation ability of PGCs gradually decreased during development, and cell adhesion and extracellular matrix communication were weakened, indicating that female and male PGCs of E3.5 are more suitable for in vitro long-term culture cell line establishment. Interestingly, female and male PGCs at E5.5 showed strong DNA damage repair ability, thus more suitable for in vitro long-term cryopreservation. Conclusion: This study provides a theoretical basis for systematically selecting PGCs at suitable developmental time points as cell materials for efficient utilization by analyzing the characteristics of female and male PGCs at different developmental time points based on transcriptome. [ABSTRACT FROM AUTHOR]

Published

2024

47. Mapping and Analysis of Protein and Gene Profile Identification of the Important Role of Transforming Growth Factor Beta in Synovial Invasion in Patients With Pigmented Villonodular Synovitis.

Author

Li, Tao, Xiong, Yan, Li, Jian, Tang, Xin, Zhong, Yutong, Tang, Zhigang, Zhang, Qiuping, and Luo, Yubin

Subjects

*RNA analysis, *PROTEIN analysis, *EPITHELIAL cells, *SMALL interfering RNA, *IN vitro studies, *CELL migration, *SYNOVIAL membranes, *EPITHELIAL-mesenchymal transition, *RESEARCH funding, *REVERSE transcriptase polymerase chain reaction, *CELL motility, *CELLULAR signal transduction, *SYNOVITIS, *IMMUNOHISTOCHEMISTRY, *FIBROBLASTS, *GENE expression profiling, *OSTEOARTHRITIS, *PROTEOMICS, *MICROARRAY technology, *WESTERN immunoblotting, *MICROBIOLOGICAL assay, *TRANSFORMING growth factors-beta

Abstract

Objective: Pigmented villonodular synovitis (PVNS) is a rare benign proliferative disease affecting the soft‐tissue lining the synovial joints and tendons. Its etiology is poorly understood, largely limiting the availability of current therapeutic options. Here, we mapped the synovial gene and protein profiles of patients with PVNS, revealed a link between synovial inflammation and invasion, and elucidated the potential molecular mechanism involved. Methods: The expression of synovial genes from 6 control individuals, 7 patients with osteoarthritis (OA), and 19 patients with PVNS was analyzed via RNA sequencing. Protein profiles from 5 control individuals, 10 patients with OA, and 32 patients with PVNS were analyzed using label‐free proteomics. Microarray and reverse transcription–polymerase chain reaction analyses and immunohistochemical staining were used to evaluate inflammatory cytokine and target gene expression levels in synovial tissue, epithelial cells, and synovial fibroblasts (FLSs) derived from tissue of patients with PVNS. Various signaling pathway inhibitors, small interfering RNAs, and Western blots were used for molecular mechanism studies. Transwell migration and invasion assays were subsequently performed. Results: In total, 522 differentially expressed proteins were identified in the tissues of patients with PVNS. By integrating RNA sequencing and microarray analyses, significant changes in the expression of epithelial–mesenchymal transition (EMT)‐related genes, including transforming growth factor TGF‐b induced, neural cadherin, epithelial cadherin, SNAIL, and TWIST, were confirmed in the tissue of patients with PVNS compared to the control tissue. In vitro, TGFβ induced EMT and increased epithelial cell migration and invasion. Moreover, TGFβ not only promoted interactions between epithelial cells and FLSs but also directly increased the migration and invasion abilities of FLSs by activating the classical Smad2/3 and nonclassical JNK/AKT signaling pathways. Conclusion: This study provides overall protein and gene profiles of PVNS and identifies the crucial role of TGFβ in synovial invasion pathology. Exploring the related molecular mechanism may also reveal a new strategy or target for PVNS therapy. [ABSTRACT FROM AUTHOR]

Published

2024

48. Fibrillar extracellular matrix produced by pericyte‐like cells facilitates glioma cell dissemination.

Author

Vymola, Petr, Garcia‐Borja, Elena, Cervenka, Jakub, Balaziova, Eva, Vymolova, Barbora, Veprkova, Jana, Vodicka, Petr, Skalnikova, Helena, Tomas, Robert, Netuka, David, Busek, Petr, and Sedo, Aleksi

Subjects

*EXTRACELLULAR matrix proteins, *FOCAL adhesion kinase, *MEMBRANE proteins, *BASAL lamina, *CELL migration, *FIBRONECTINS, *COLLAGEN

Abstract

Gliomagenesis induces profound changes in the composition of the extracellular matrix (ECM) of the brain. In this study, we identified a cellular population responsible for the increased deposition of collagen I and fibronectin in glioblastoma. Elevated levels of the fibrillar proteins collagen I and fibronectin were associated with the expression of fibroblast activation protein (FAP), which is predominantly found in pericyte‐like cells in glioblastoma. FAP+ pericyte‐like cells were present in regions rich in collagen I and fibronectin in biopsy material and produced substantially more collagen I and fibronectin in vitro compared to other cell types found in the GBM microenvironment. Using mass spectrometry, we demonstrated that 3D matrices produced by FAP+ pericyte‐like cells are rich in collagen I and fibronectin and contain several basement membrane proteins. This expression pattern differed markedly from glioma cells. Finally, we have shown that ECM produced by FAP+ pericyte‐like cells enhances the migration of glioma cells including glioma stem‐like cells, promotes their adhesion, and activates focal adhesion kinase (FAK) signaling. Taken together, our findings establish FAP+ pericyte‐like cells as crucial producers of a complex ECM rich in collagen I and fibronectin, facilitating the dissemination of glioma cells through FAK activation. [ABSTRACT FROM AUTHOR]

Published

2024

49. Promising anti-inflammatory activity of a novel designed anti-microbial peptide for wound healing.

Author

Fathi, Fariba, Ghobeh, Maryam, Shirazi, Farshad H., and Tabarzad, Maryam

Subjects

*ANTIMICROBIAL peptides, *TRANSFORMING growth factors-beta, *PEPTIDES, *CELL migration, *WOUND healing, *PEPTIDE antibiotics

Abstract

Chronic wounds can develop as a result of prolonged inflammation during the healing process, which can happen due to bacterial infection. Therefore, preventing infection and controlling inflammation can accelerate wound healing. Antimicrobial peptides have different protective properties in addition to antimicrobial activity. Some of these activities include the stimulation of cytokine or chemokine synthesis, the facilitation of chemotaxis and cell proliferation, the acceleration of cell proliferation, the induction of anti-inflammatory responses, and the promotion of wound repair. This study aimed to assess the wound healing potential of a novel in silico-designed antimicrobial peptide. Then, its anti-inflammatory activity was investigated by measuring the level of tumor necrosis factor-α (TNF-α) and transforming growth factor beta (TGF-β) as indicators of the wound healing process. In addition, the influence of the peptide on cell migration was evaluated by a scratch test on human dermal fibroblasts (HDF) and HaCaT cells as a human epidermal keratinocyte cell line. The results showed that our new peptide could act well in inhibiting TNF-α over-secretion while increasing the expression of TGF-β as an anti-inflammatory factor. This peptide showed a significant potential to stimulate HDF and HaCaT cell migration and proliferation. Therefore, using this peptide as an anti-inflammatory component of wound dressings may be promising. • A novel antimicrobial peptide was designed from Cathelicidine-2, named as mCHTL (131-140). • The mCHTL (131-140) could inhibit TNF-α over-secretion. • The mCHTL (131-140) could increase the TGF-β expression. • The mCHTL (131-140) could stimulate HDF and HaCaT cells migration and proliferation. [ABSTRACT FROM AUTHOR]

Published

2024

50. Ectonucleotidase activity driven by acid ectophosphatase in luminal A MCF‐7 breast cancer cells.

Author

Lacerda‐Abreu, Marco Antonio, Mendonça, Bruna dos Santos, Nestal de Moraes, Gabriela, and Meyer‐Fernandes, José Roberto

Subjects

*ACID phosphatase, *ADENOSINE monophosphate, *ADENINE nucleotides, *BREAST cancer, *CELL migration

Abstract

Ectophosphatases catalyse the hydrolysis of phosphorylated molecules, such as phospho‐amino acids, in the extracellular environment. Nevertheless, the hydrolysis of nucleotides in the extracellular environment is typically catalysed by ectonucleotidases. Studies have shown that acid ectophosphatase, or transmembrane‐prostatic acid phosphatase (TM‐PAP), a membrane‐bound splice variant of prostatic acid phosphatase, has ecto‐5′‐nucleotidase activity. Furthermore, it was demonstrated that ectophosphatase cannot hydrolyse ATP, ADP, or AMP in triple‐negative breast cancer cells. In contrast to previous findings in MDA‐MB‐231 cells, the ectophosphatase studied in the present work displayed a remarkable capacity to hydrolyse AMP in luminal A breast cancer cells (MCF‐7). We showed that AMP dose‐dependently inhibited p‐nitrophenylphosphate (p‐NPP) hydrolysis. The p‐NPP and AMP hydrolysis showed similar biochemical behaviours, such as increased hydrolysis under acidic conditions and comparable inhibition by NiCl2, ammonium molybdate, and sodium orthovanadate. In addition, this ectophosphatase with ectonucleotidase activity was essential for the release of adenosine and inorganic phosphate from phosphorylated molecules available in the extracellular microenvironment. This is the first study to show that prostatic acid phosphatase on the membrane surface of breast cancer cells (MCF‐7) is correlated with cell adhesion and migration. Highlights: A transmembrane prostatic acid phosphatase (TM‐PAP) is expressed in luminal A MCF‐7 breast cancer cells.Ectonucleotidase activity by TM‐PAP was observed in MCF‐7 cells.The presence of prostatic acid phosphatase on the membrane surface is correlated with cell adhesion and migration. [ABSTRACT FROM AUTHOR]

Published

2024