Your search keyword '"FLOTILLINS"' showing total 331 results

1. Structure of the flotillin complex in a native membrane environment.

Author

Ziao Fu and MacKinnon, Roderick

Subjects

*CHARGE-charge interactions, *HYDROPHOBIC interactions, *PROTEIN structure, *CYTOLOGY, *FLOTILLINS

Abstract

In this study, we used cryoelectron microscopy to determine the structures of the Flotillin protein complex, part of the Stomatin, Prohibitin, Flotillin, and HflK/C (SPFH) superfamily, from cell-derived vesicles without detergents. It forms a right-handed helical barrel consisting of 22 pairs of Flotillin1 and Flotillin2 subunits, with a diameter of 32 nm at its wider end and 19 nm at its narrower end. Oligomerization is stabilized by the C terminus, which forms two helical layers linked by a ß-strand, and coiled-coil domains that enable strong charge-charge intersubunit interactions. Flotillin interacts with membranes at both ends; through its SPFH1 domains at the wide end and the C terminus at the narrow end, facilitated by hydrophobic interactions and lipidation. The inward tilting of the SPFH domain, likely triggered by phosphorylation, suggests its role in membrane curvature induction, which could be connected to its proposed role in clathrin-independent endocytosis. The structure suggests a shared architecture across the family of SPFH proteins and will promote further research into Flotillin's roles in cell biology. [ABSTRACT FROM AUTHOR]

Published

2024

2. Phospholipid scramblase 1: an essential component of the nephrocyte slit diaphragm.

Author

Castillo-Mancho, Vicente, Atienza-Manuel, Alexandra, Sarmiento-Jiménez, Jorge, Ruiz-Gómez, Mar, and Culi, Joaquim

Subjects

*CELL junctions, *LIPID rafts, *HOMOLOGY (Biology), *FLOTILLINS, *NEPHRONS, *PHOSPHOLIPIDS

Abstract

Blood ultrafiltration in nephrons critically depends on specialized intercellular junctions between podocytes, named slit diaphragms (SDs). Here, by studying a homologous structure found in Drosophila nephrocytes, we identify the phospholipid scramblase Scramb1 as an essential component of the SD, uncovering a novel link between membrane dynamics and SD formation. In scramb1 mutants, SDs fail to form. Instead, the SD components Sticks and stones/nephrin, Polychaetoid/ZO-1, and the Src-kinase Src64B/Fyn associate in cortical foci lacking the key SD protein Dumbfounded/NEPH1. Scramb1 interaction with Polychaetoid/ZO-1 and Flotillin2, the presence of essential putative palmitoylation sites and its capacity to oligomerize, suggest a function in promoting SD assembly within lipid raft microdomains. Furthermore, Scramb1 interactors as well as its functional sensitivity to temperature, suggest an active involvement in membrane remodeling processes during SD assembly. Remarkably, putative Ca2+-binding sites in Scramb1 are essential for its activity raising the possibility that Ca2+ signaling may control the assembly of SDs by impacting on Scramb1 activity. [ABSTRACT FROM AUTHOR]

Published

2024

3. Plasmodesmata‐associated Flotillin positively regulates broad‐spectrum virus cell‐to‐cell trafficking.

Author

Ge, Panpan, Lu, Hong, Wang, Wei, Ma, Yonghuan, Li, Yi, Zhou, Tong, Wei, Taiyun, Wu, Jianguo, and Cui, Feng

Subjects

*RESPIRATORY syncytial virus infections, *FLOTILLINS, *VIRUS diseases, *DISEASE incidence, *HOST plants

Abstract

Summary: Viral diseases seriously threaten rice production. Plasmodesmata (PD)‐associated proteins are deemed to play a key role in viral infection in host plants. However, few PD‐associated proteins have been discovered in rice to afford viral infection. Here, inspired by the infection mechanism in insect vectors, we identified a member of the Flotillin family taking part in the cell‐to‐cell transport of rice stripe virus (RSV) in rice. Flotillin1 interacted with RSV nucleocapsid protein (NP) and was localized on PD. In flotillin1 knockout mutant rice, which displayed normal growth, RSV intercellular movement was retarded, leading to significantly decreased disease incidence. The PD pore sizes of the mutant rice were smaller than those of the wild type due to more callose deposits, which was closely related to the upregulation of two callose synthase genes. RSV infection stimulated flotillin1 expression and enlarged the PD aperture via RSV NP. In addition, flotillin1 knockout decreased disease incidences of southern rice black‐streaked dwarf virus (SRBSDV) and rice dwarf virus (RDV) in rice. Overall, our study reveals a new PD‐associated protein facilitating virus cell‐to‐cell trafficking and presents the potential of flotillin1 as a target to produce broad‐spectrum antiviral rice resources in the future. [ABSTRACT FROM AUTHOR]

Published

2024

4. Low Density Lipoprotein Cholesterol Decreases the Expression of Adenosine A 2A Receptor and Lipid Rafts-Protein Flotillin-1: Insights on Cardiovascular Risk of Hypercholesterolemia.

Author

Chaptal, Marie-Charlotte, Maraninchi, Marie, Musto, Giorgia, Mancini, Julien, Chtioui, Hedi, Dupont-Roussel, Janine, Marlinge, Marion, Fromonot, Julien, Lalevee, Nathalie, Mourre, Florian, Beliard, Sophie, Guieu, Régis, Valero, René, and Mottola, Giovanna

Subjects

*LDL cholesterol, *ADENOSINES, *FLOTILLINS, *CARDIOVASCULAR diseases risk factors, *MONONUCLEAR leukocytes, *HYPERCHOLESTEREMIA

Abstract

High blood levels of low-density lipoprotein (LDL)-cholesterol (LDL-C) are associated with atherosclerosis, mainly by promoting foam cell accumulation in vessels. As cholesterol is an essential component of cell plasma membranes and a regulator of several signaling pathways, LDL-C excess may have wider cardiovascular toxicity. We examined, in untreated hypercholesterolemia (HC) patients, selected regardless of the cause of LDL-C accumulation, and in healthy participants (HP), the expression of the adenosine A2A receptor (A2AR), an anti-inflammatory and vasodilatory protein with cholesterol-dependent modulation, and Flotillin-1, protein marker of cholesterol-enriched plasma membrane domains. Blood cardiovascular risk and inflammatory biomarkers were measured. A2AR and Flotillin-1 expression in peripheral blood mononuclear cells (PBMC) was lower in patients compared to HP and negatively correlated to LDL-C blood levels. No other differences were observed between the two groups apart from transferrin and ferritin concentrations. A2AR and Flotillin-1 proteins levels were positively correlated in the whole study population. Incubation of HP PBMCs with LDL-C caused a similar reduction in A2AR and Flotillin-1 expression. We suggest that LDL-C affects A2AR expression by impacting cholesterol-enriched membrane microdomains. Our results provide new insights into the molecular mechanisms underlying cholesterol toxicity, and may have important clinical implication for assessment and treatment of cardiovascular risk in HC. [ABSTRACT FROM AUTHOR]

Published

2024

5. Flotillins affect LPS-induced TLR4 signaling by modulating the trafficking and abundance of CD14.

Author

Matveichuk, Orest V., Ciesielska, Anna, Hromada-Judycka, Aneta, Nowak, Natalia, Ben Amore, Ichrak, Traczyk, Gabriela, and Kwiatkowska, Katarzyna

Abstract

Lipopolysaccharide (LPS) induces a strong pro-inflammatory reaction of macrophages upon activation of Toll-like receptor 4 (TLR4) with the assistance of CD14 protein. Considering a key role of plasma membrane rafts in CD14 and TLR4 activity and the significant impact exerted on that activity by endocytosis and intracellular trafficking of the both LPS acceptors, it seemed likely that the pro-inflammatory reaction could be modulated by flotillins. Flotillin-1 and -2 are scaffolding proteins associated with the plasma membrane and also with endo-membranes, affecting both the plasma membrane dynamics and intracellular protein trafficking. To verify the above hypothesis, a set of shRNA was used to down-regulate flotillin-2 in Raw264 cells, which were found to also become deficient in flotillin-1. The flotillin deficiency inhibited strongly the TRIF-dependent endosomal signaling of LPS-activated TLR4, and to a lower extent also the MyD88-dependent one, without affecting the cellular level of TLR4. The flotillin depletion also inhibited the pro-inflammatory activity of TLR2/TLR1 and TLR2/TLR6 but not TLR3. In agreement with those effects, the depletion of flotillins down-regulated the CD14 mRNA level and the cellular content of CD14 protein, and also inhibited constitutive CD14 endocytosis thereby facilitating its shedding. Ultimately, the cell-surface level of CD14 was markedly diminished. Concomitantly, CD14 recycling was enhanced via EEA1-positive early endosomes and golgin-97-positive trans-Golgi network, likely to compensate for the depletion of the cell-surface CD14. We propose that the paucity of surface CD14 is the reason for the down-regulated signaling of TLR4 and the other TLRs depending on CD14 for ligand binding. [ABSTRACT FROM AUTHOR]

Published

2024

6. Characterization of Extracellular Vesicles from Human Saliva: Effects of Age and Isolation Techniques.

Author

Reseco, Lucia, Molina-Crespo, Angela, Atienza, Mercedes, Gonzalez, Esperanza, Falcon-Perez, Juan Manuel, and Cantero, Jose L.

Subjects

*EXTRACELLULAR vesicles, *SALIVA, *LIFE cycles (Biology), *OLDER people, *FLOTILLINS, *EXOSOMES

Abstract

Salivary extracellular vesicles (EVs) represent an attractive source of biomarkers due to the accessibility of saliva and its non-invasive sampling methods. However, the lack of comparative studies assessing the efficacy of different EV isolation techniques hampers the use of salivary EVs in clinical settings. Moreover, the effects of age on salivary EVs are largely unknown, hindering the identification of salivary EV-associated biomarkers across the lifespan. To address these questions, we compared salivary EV concentration, size mode, protein concentration, and purity using eight EV isolation techniques before and after magnetic bead immunocapture with antibodies against CD9, CD63, and CD81. The effects of age on salivary EVs obtained with each isolation technique were further investigated. Results showed higher expression of CD63 on isolated salivary EVs compared to the expression of CD81 and flotillin-1. Overall, magnetic bead immunocapture was more efficient in recovering salivary EVs with Norgen's Saliva Exosome Purification Kit and ExoQuick-TC ULTRA at the cost of EV yield. Regardless of age, Invitrogen Total Exosome Isolation Solution showed the highest level of protein concentration, whereas Izon qEVOriginal-70nm columns revealed the highest purity. This study provides the first comprehensive comparison of salivary EVs in younger and older adults using different EV isolation techniques, which represents a step forward for assessing salivary EVs as a source of potential biomarkers of tissue-specific diseases throughout the life cycle. [ABSTRACT FROM AUTHOR]

Published

2024

7. EFR3A: a new raft domain organizing protein?

Author

Magdalena Trybus, Anita Hryniewicz-Jankowska, Karolina Wójtowicz, Tomasz Trombik, Aleksander Czogalla, and Aleksander F. Sikorski

Subjects

Raft domain organization and regulation, Flotillins, Flotillin-2, EFR3A, Membrane order, FLIM, Cytology, QH573-671

Abstract

Abstract Background Membrane rafts play a crucial role in the regulation of many important biological processes. Our previous data suggest that specific interactions of flotillins with MPP1 are responsible for membrane raft domain organization and regulation in erythroid cells. Interaction of the flotillin-based protein network with specific membrane components underlies the mechanism of raft domain formation and regulation, including in cells with low expression of MPP1. Methods We sought to identify other flotillin partners via the immobilized recombinant flotillin-2-based affinity approach and mass spectrometry technique. The results were further confirmed via immunoblotting and via co-immunoprecipitation. In order to study the effect of the candidate protein on the physicochemical properties of the plasma membrane, the gene was knocked down via siRNA, and fluorescence lifetime imaging microscopy and spot-variation fluorescence correlation spectroscopy was employed. Results EFR3A was identified as a candidate protein that interacts with flotillin-2. Moreover, this newly discovered interaction was demonstrated via overlay assay using recombinant EFR3A and flotillin-2. EFR3A is a stable component of the detergent-resistant membrane fraction of HeLa cells, and its presence was sensitive to the removal of cholesterol. While silencing the EFR3A gene, we observed decreased order of the plasma membrane of living cells or giant plasma membrane vesicles derived from knocked down cells and altered mobility of the raft probe, as indicated via fluorescence lifetime imaging microscopy and spot-variation fluorescence correlation spectroscopy. Moreover, silencing of EFR3A expression was found to disturb epidermal growth factor receptor and phospholipase C gamma phosphorylation and affect epidermal growth factor-dependent cytosolic Ca2+ concentration. Conclusions Altogether, our results suggest hitherto unreported flotillin-2-EFR3A interaction, which might be responsible for membrane raft organization and regulation. This implies participation of this interaction in the regulation of multiple cellular processes, including those connected with cell signaling which points to the possible role in human health, in particular human cancer biology.

Published

2023

8. EFR3A: a new raft domain organizing protein?

Author

Trybus, Magdalena, Hryniewicz-Jankowska, Anita, Wójtowicz, Karolina, Trombik, Tomasz, Czogalla, Aleksander, and Sikorski, Aleksander F.

Abstract

Background: Membrane rafts play a crucial role in the regulation of many important biological processes. Our previous data suggest that specific interactions of flotillins with MPP1 are responsible for membrane raft domain organization and regulation in erythroid cells. Interaction of the flotillin-based protein network with specific membrane components underlies the mechanism of raft domain formation and regulation, including in cells with low expression of MPP1. Methods: We sought to identify other flotillin partners via the immobilized recombinant flotillin-2-based affinity approach and mass spectrometry technique. The results were further confirmed via immunoblotting and via co-immunoprecipitation. In order to study the effect of the candidate protein on the physicochemical properties of the plasma membrane, the gene was knocked down via siRNA, and fluorescence lifetime imaging microscopy and spot-variation fluorescence correlation spectroscopy was employed. Results: EFR3A was identified as a candidate protein that interacts with flotillin-2. Moreover, this newly discovered interaction was demonstrated via overlay assay using recombinant EFR3A and flotillin-2. EFR3A is a stable component of the detergent-resistant membrane fraction of HeLa cells, and its presence was sensitive to the removal of cholesterol. While silencing the EFR3A gene, we observed decreased order of the plasma membrane of living cells or giant plasma membrane vesicles derived from knocked down cells and altered mobility of the raft probe, as indicated via fluorescence lifetime imaging microscopy and spot-variation fluorescence correlation spectroscopy. Moreover, silencing of EFR3A expression was found to disturb epidermal growth factor receptor and phospholipase C gamma phosphorylation and affect epidermal growth factor-dependent cytosolic Ca2+ concentration. Conclusions: Altogether, our results suggest hitherto unreported flotillin-2-EFR3A interaction, which might be responsible for membrane raft organization and regulation. This implies participation of this interaction in the regulation of multiple cellular processes, including those connected with cell signaling which points to the possible role in human health, in particular human cancer biology. [ABSTRACT FROM AUTHOR]

Published

2023

9. Lipid raft protein flotillin‐1 is important for the interaction between SOS1 and H‐Ras/K‐Ras, leading to Ras activation.

Author

Jin, Hao, Koh, Minsoo, Lim, Hyesol, Yong, Hae‐Young, Kim, Eun‐Sook, Kim, Sun Young, Kim, Kyoungmee, Jung, Joohee, Ryu, Won‐Ji, Choi, Kang‐Yell, and Moon, Aree

Subjects

LIPID rafts, FLOTILLINS, HYPERVARIABLE regions, PANCREATIC tumors, PROTEINS

Abstract

Ras mutations have been frequently observed in human cancer. Although there is a high degree of similarity between Ras isomers, they display preferential coupling in specific cancer types. The binding of Ras to the plasma membrane is essential for its activation and biological functions. The present study elucidated Ras isoform‐specific interactions with the membrane and their role in Ras‐mediated biological activities. We investigated the role of a lipid raft protein flotillin‐1 (Flot‐1) in the activations of Ras. We found that Flot‐1 was co‐localized with H‐Ras, but not with N‐Ras, in lipid rafts of MDA‐MB‐231 human breast cells. The amino‐terminal hydrophobic domain (1‐38) of Flot‐1 interacted with the hypervariable region of H‐Ras. The epidermal growth factor‐stimulated activation of H‐Ras required Flot‐1 which was not necessary for that of N‐Ras in breast cancer cells. Flot‐1 interacted with son of sevenless (SOS)‐1, which promotes the conversion of Ras‐bound GDP to GTP. Notably, Flot‐1 was crucial for the interaction between SOS1 and H‐Ras/K‐Ras in breast and pancreatic cancer cells. Stable knockdown of Flot‐1 reduced the in vivo metastasis in a mouse xenograft model with human breast carcinoma cells. A tissue microarray composed of 61 human pancreatic cancer samples showed higher levels of Flot‐1 expression in pancreatic tumor tissues compared to normal tissues, and a correlation between K‐Ras and Flot‐1. Taken together, our findings suggest that Flot‐1 may serve as a membrane platform for the interaction of SOS1 with H‐Ras/K‐Ras in human cancer cells, presenting Flot‐1 as a potential target for Ras‐driven cancers. [ABSTRACT FROM AUTHOR]

Published

2023

10. Flotillin‐1 is a prognostic biomarker for glioblastoma and promotes cancer development through enhancing invasion and altering tumour microenvironment.

Author

Wang, Ran, Chen, Zhikang, Zhang, Yi, Xiao, Shihan, Zhang, Wuming, Hu, Xianqin, Xiao, Qun, Liu, Qing, and Wang, Xiangyu

Subjects

FLOTILLINS, TUMOR microenvironment, CARCINOGENESIS, GLIOBLASTOMA multiforme, BIOMARKERS

Abstract

Flotillin‐1(FLOT1) has long been recognized as a tumour‐promoting gene in several types of cancer. However, the expression and function of FLOT1 in glioblastomas (GBM) has not been elucidated. Here, in this study, we find that the expression level of FLOT1 in GBM tissue was much higher than that in normal brain, and the expression was even higher in the more aggressive subtypes and IDH status of glioma. Kaplan–Meier survival revealed that high FLOT1 expression is closely associated with poor outcome in GBM patients. FLOT1 knockdown markedly reduced the proliferation, migration and invasiveness of GBM cells, while FLOT1 overexpression significantly increases GBM cell proliferation, migration and invasiveness. Mechanistically, FLOT1 expression may play a potential role in the microenvironment of GBM. Therefore, FLOT1 promotes GBM proliferation and invasion in vitro and in vivo and may serve as a biomarker of prognosis and therapeutic potential in the fight against GBM. [ABSTRACT FROM AUTHOR]

Published

2023

11. Sphingosylphosphorylcholine (SPC), a Causative Factor of SPC-Induced Vascular Smooth Muscle Cells Contraction, Is Taken Up via Endocytosis.

Author

Tsurudome, Natsuko, Minami, Yuji, and Kajiya, Katsuko

Subjects

*VASCULAR smooth muscle, *SMOOTH muscle contraction, *ENDOCYTOSIS, *CELL membranes, *FLOTILLINS, *MUSCLE cells

Abstract

The reaction field of abnormal vascular contraction induced by sphingosylphosphorylcholine (SPC) and the action point of SPC around the plasma membranes remain unknown. However, we found in a previous study that fisetin prevents SPC-induced vascular smooth muscle cells contraction, while the mechanism remains unknown. Therefore, in this study, we aimed to address the action point of SPC around the plasma membranes and the involvement of fisetin. We focused on microdomains and evaluated their markers flotillin-1 and caveolin-1 and the localization of SPC to investigate their action point. The results showed that microdomains of vascular smooth muscle cells were not involved in SPC-induced contraction. However, we found that after SPC had been affected on the plasma membrane, cells took up SPC via endocytosis. Moreover, SPC remained in the cells and did not undergo transcytosis, and SPC-induced contracting cells produced exosomes. These phenomena were similar to those observed in fisetin-treated cells. Thus, we speculated that, although not involved in the reaction field of SPC-induced contractions, the microdomain induced the endocytosis of SPCs, and fisetin prevented the contractions by directly targeting vascular smooth muscle cells. Notably, this preventive mechanism involves the cellular uptake of SPC via endocytosis. [ABSTRACT FROM AUTHOR]

Published

2023

12. Flotillin-2 regulates epidermal growth factor receptor activation, degradation by Cbl-mediated ubiquitination, and cancer growth.

Author

Wisniewski, David J., Liyasova, Mariya S., Korrapati, Soumya, Xu Zhang, Ratnayake, Shashikala, Qingrong Chen, Gilbert, Samuel F., Catalano, Alexis, Voeller, Donna, Meerzaman, Daoud, Guha, Udayan, Porat-Shliom, Natalie, Annunziata, Christina M., and Lipkowitz, Stanley

Subjects

*EPIDERMAL growth factor receptors, *FLOTILLINS, *TUMOR growth, *ADAPTOR proteins, *UBIQUITINATION, *EPIDERMAL growth factor

Abstract

Epidermal growth factor receptor (EGFR) signaling is frequently dysregulated in various cancers. The ubiquitin ligase Casitas B-lineage lymphoma proto-oncogene (Cbl) regulates degradation of activated EGFR through ubiquitination and acts as an adaptor to recruit proteins required for trafficking. Here, we used stable isotope labeling with amino acids in cell culture mass spectrometry to compare Cbl complexes with or without epidermal growth factor (EGF) stimulation. We identified over a hundred novel Cbl interactors, and a secondary siRNA screen found that knockdown of Flotillin-2 (FLOT2) led to increased phosphorylation and degradation of EGFR upon EGF stimulation in HeLa cells. In PC9 and H441 cells, FLOT2 knockdown increased EGF-stimulated EGFR phosphorylation, ubiquitination, and downstream signaling, reversible by EGFR inhibitor erlotinib. CRISPR knockout (KO) of FLOT2 in HeLa cells confirmed EGFR downregulation, increased signaling, and increased dimerization and endosomal trafficking. Furthermore, we determined that FLOT2 interacted with both Cbl and EGFR. EGFR downregulation upon FLOT2 loss was Cbl dependent, as coknockdown of Cbl and Cbl-b restored EGFR levels. In addition, FLOT2 overexpression decreased EGFR signaling and growth. Overexpression of wildtype (WT) FLOT2, but not the soluble G2A FLOT2 mutant, inhibited EGFR phosphorylation upon EGF stimulation in HEK293T cells. FLOT2 loss induced EGFR-dependent proliferation and anchorage-independent growth. Lastly, FLOT2 KO increased tumor formation and tumor volume in nude mice and NSG mice, respectively. Together, these data demonstrated that FLOT2 negatively regulated EGFR activation and dimerization, as well as its subsequent ubiquitination, endosomal trafficking, and degradation, leading to reduced proliferation in vitro and in vivo. [ABSTRACT FROM AUTHOR]

Published

2023

13. Flotillin-1 enhances radioresistance through reducing radiation-induced DNA damage and promoting immune escape via STING signaling pathway in non-small cell lung cancer.

Author

Yingying Wang, Lu Meng, Shuyan Meng, Litang Huang, Shilan Luo, Xiaoting Wu, and Xiaomei Gong

Subjects

*PROGRAMMED cell death 1 receptors, *NON-small-cell lung carcinoma, *FLOTILLINS, *DNA damage, *CELLULAR signal transduction, *CANCER relapse

Abstract

Radiation resistance results in the recurrence and metastasis of non-small cell lung cancer (NSCLC) after radiotherapy. A major cause of radiation resistance is subversion of immune surveillance and clearance. Although our previous research has demonstrated that programmed death-ligand 1 (PD-L1) is responsible for radiation resistance in NSCLC, PD-L1 alone was not a reliable predictor of radiotherapy efficacy. For further exploration of the predictors of radiotherapy efficacy, which could add accuracy to the single biomarker -- PD-L1, immunoprecipitation followed by mass spectrometry assay was performed to identify proteins that interact with PD-L1, and flotillin-1 (FLOT1) was detected as a candidate. However, the role of FLOT1 in radiation resistance in NSCLC is largely unknown. Here, we defined FLOT1 as a positive regulator of PD-L1 at the cell level, and the expression of PD-L1 was reduced following FLOT1 depletion. Furthermore, we found that the knockdown of FLOT1 impeded radiation-mediated cell migration and epithelial--mesenchymal transition process. Moreover, FLOT1 depletion enhanced radiation-induced DNA damage, thereby increasing the radiation lethality for NSCLC cells and promoting radiation-mediated tumor regression in animal models and patients with NSCLC. Furthermore, FLOT1 depletion-boosted DNA damage activated STING signaling pathway and promoted the production of CCL5 and CXCL10 that can drive CD8+ T lymphocytes chemotaxis, thereby reprogramming tumor immune microenvironment and triggering the antitumor immune response. Indeed, FLOT1 expression correlated with infiltration of immune cells in NSCLC tumor tissue samples. Taken together, our findings reported an unexplored role of FLOT1 in radiotherapy and also provided an evidence base for FLOT1 as a promising biomarker to predict the response to radiotherapy and a potential therapeutic target for enhancing radiotherapy effects. [ABSTRACT FROM AUTHOR]

Published

2023

14. The scaffolding protein flot2 promotes cytoneme-based transport of wnt3 in gastric cancer.

Author

Routledge, Daniel, Rogers, Sally, Yosuke Ono, Brunt, Lucy, Meniel, Valerie, Tornillo, Giusy, Ashktorab, Hassan, Phesse, Toby J., and Scholpp, Steffen

Subjects

*SCAFFOLD proteins, *STOMACH cancer, *WNT signal transduction, *WNT proteins, *FLOTILLINS, *CELLULAR signal transduction

Abstract

The Wnt/β-catenin signalling pathway regulates multiple cellular processes during development and many diseases, including cell proliferation, migration, and differentiation. Despite their hydrophobic nature, Wnt proteins exert their function over long distances to induce paracrine signalling. Recent studies have identified several factors involved in Wnt secretion; however, our understanding of how Wnt ligands are transported between cells to interact with their cognate receptors is still debated. Here, we demonstrate that gastric cancer cells utilise cytonemes to transport Wnt3 intercellularly to promote proliferation and cell survival. Furthermore, we identify the membrane-bound scaffolding protein Flotillin-2 (Flot2), frequently overexpressed in gastric cancer, as a modulator of these cytonemes. Together with the Wnt co-receptor and cytoneme initiator Ror2, Flot2 determines the number and length of Wnt3 cytonemes in gastric cancer. Finally, we show that Flotillins are also necessary for Wnt8a cytonemes during zebrafish embryogenesis, suggesting a conserved mechanism for Flotillin-mediated Wnt transport on cytonemes in development and disease. [ABSTRACT FROM AUTHOR]

Published

2022

15. Rapid increase in transferrin receptor recycling promotes adhesion during T cell activation.

Author

Rossatti, Pascal, Redpath, Gregory M. I., Ziegler, Luca, Samson, Guerric P. B., Clamagirand, Camille D., Legler, Daniel F., and Rossy, Jérémie

Subjects

*TRANSFERRIN, *TRANSFERRIN receptors, *IRON, *MEMBRANE proteins, *CELLULAR signal transduction, *FLOTILLINS, *T cell receptors, *T cells

Abstract

Background: T cell activation leads to increased expression of the receptor for the iron transporter transferrin (TfR) to provide iron required for the cell differentiation and clonal expansion that takes place during the days after encounter with a cognate antigen. However, T cells mobilise TfR to their surface within minutes after activation, although the reason and mechanism driving this process remain unclear. Results: Here we show that T cells transiently increase endocytic uptake and recycling of TfR upon activation, thereby boosting their capacity to import iron. We demonstrate that increased TfR recycling is powered by a fast endocytic sorting pathway relying on the membrane proteins flotillins, Rab5- and Rab11a-positive endosomes. Our data further reveal that iron import is required for a non-canonical signalling pathway involving the kinases Zap70 and PAK, which controls adhesion of the integrin LFA-1 and eventually leads to conjugation with antigen-presenting cells. Conclusions: Altogether, our data suggest that T cells boost their iron importing capacity immediately upon activation to promote adhesion to antigen-presenting cells. [ABSTRACT FROM AUTHOR]

Published

2022

16. Dynamin-Independent Mechanisms of Endocytosis and Receptor Trafficking.

Author

Gundu, Chayanika, Arruri, Vijay Kumar, Yadav, Poonam, Navik, Umashanker, Kumar, Ashutosh, Amalkar, Veda Sudhir, Vikram, Ajit, and Gaddam, Ravinder Reddy

Subjects

*ENDOCYTOSIS, *MEMBRANE proteins, *FLOTILLINS, *CELL cycle proteins, *GUANOSINE triphosphatase

Abstract

Endocytosis is a fundamental mechanism by which cells perform housekeeping functions. It occurs via a variety of mechanisms and involves many regulatory proteins. The GTPase dynamin acts as a "molecular scissor" to form endocytic vesicles and is a critical regulator among the proteins involved in endocytosis. Some GTPases (e.g., Cdc42, arf6, RhoA), membrane proteins (e.g., flotillins, tetraspanins), and secondary messengers (e.g., calcium) mediate dynamin-independent endocytosis. These pathways may be convergent, as multiple pathways exist in a single cell. However, what determines the specific path of endocytosis is complex and challenging to comprehend. This review summarizes the mechanisms of dynamin-independent endocytosis, the involvement of microRNAs, and factors that contribute to the cellular decision about the specific route of endocytosis. [ABSTRACT FROM AUTHOR]

Published

2022

17. Flotillin-1 promotes EMT of gastric cancer via stabilizing Snail.

Author

Ying Huang, Yun Guo, Yi Xu, Fei Liu, and Suli Dai

Subjects

FLOTILLINS, STOMACH cancer, SCAFFOLD proteins, CANCER-related mortality, EPITHELIAL-mesenchymal transition, UBIQUITINATION

Abstract

Gastric cancer is one of the most common malignancies worldwide and has been identified as the third leading cause of cancer-related mortality. Flotillin-1 is a lipid raft-associated scaffolding protein and plays an important role in the progression and development of several malignant carcinomas. Flotillin-1 is involved in epithelial-mesenchymal transition (EMT) process of several solid tumors to promote metastasis. However, the detailed characteristics and mechanisms of Flotillin-1 in gastric cancer have rarely been investigated. In this study, we found Flotillin-1 upregulated in gastric cancer, and the high expression of Flotillin-1 correlated with a worse prognosis. The migration and invasion ability of gastric cancer cells was upregulated by overexpressing Flotillin-1. Knockdown of Flotillin-1 inhibits gastric cancer cells metastasis. Flotillin-1 is a key regulator of EMT process and promotes gastric cancer cells metastasis through inducing EMT. Flotillin-1 may interact with a deubiquitinase to inhibit the ubiquitination of Snail in gastric cancer cells to promote EMT process. Our study provides a rationale and potential target for the treatment of gastric cancer. [ABSTRACT FROM AUTHOR]

Published

2022

18. Fat mass and obesity-associated protein (FTO)-induced upregulation of flotillin-2 (FLOT2) contributes to cancer aggressiveness in diffuse large B-cell lymphoma (DLBCL) via activating the PI3K/Akt/mTOR signal pathway.

Author

Zhang, Yujing, Chen, Yao, Guo, Qiang, Zhang, Ying, and Liu, Aichun

Subjects

*DIFFUSE large B-cell lymphomas, *ADIPOSE tissues, *FLOTILLINS, *FAT, *CELLULAR signal transduction, *WESTERN immunoblotting, *ONCOGENES, *WEIGHT gain

Abstract

The role of fat mass and obesity-associated protein (FTO)-mediated N6-methyladenosine (m6A)-demethylation has been investigated in various types of cancers, but it is still unclear whether FTO participates in the progression of diffuse large B-cell lymphoma (DLBCL). Here, by conducting Real-Time qPCR and Western Blot analysis, we verified that FTO was especially enriched in the DLBCL cells (RCK-8, LY-3, DHL-6 and U2932) compared to normal WIL2S cells. Then, the overexpression and silencing vectors for FTO were delivered into the LY-3 and U2932 cells, and our functional experiments confirmed that silencing of FTO suppressed cell viability and division, and induced apoptotic cell death in the DLBCL cells, whereas FTO-overexpression exerted opposite effects. Further mechanical experiments showed that FTO demethylated m6A modifications in flotillin-2 (FLOT2) mRNA to sustain its stability for FLOT2 upregulation, and elevated FLOT2 subsequently increased the expression levels of phosphorylated PI3K (p-PI3K), p -Akt and p -mTOR to activate the tumor-initiating PI3K/Akt/mTOR signal pathway. Of note, FLOT2 also serve as an oncogene to enhance cancer malignancy in DLBCL, and the rescuing experiments showed that FTO-ablation induced suppressing effects on the malignant phenotypes in DLBCL were all abrogated by overexpressing FLOT2. Taken together, those data hinted that FTO-mediated m6A-demethylation upregulated FLOT2 to activate the downstream PI3K/Akt/mTOR signal pathway, leading to the aggressiveness of DLBCL, which potentially provided diagnostic, therapeutic and prognostic biomarkers for DLBCL. [Display omitted] • FTO and FLOT2 served as oncogenes to enhance cancer aggressiveness in DLBCL. • FTO positively regulated FLOT2 in DLBCL cells via inducing m6A-demethylation. • Overexpression of FTO activated the tumor-initiating PI3K/Akt/mTOR pathway through FLOT2. • FTO upregulated FLOT2 to promote cancer progression in DLBCL. [ABSTRACT FROM AUTHOR]

Published

2024

19. Environmental Cues Contribute to Dynamic Plasma Membrane Organization of Nanodomains Containing Flotillin-1 and Hypersensitive Induced Reaction-1 Proteins in Arabidopsis thaliana.

Author

Xu, Changwen, Abbas, Sammar, Qian, Hongping, Yu, Meng, Zhang, Xi, Li, Xiaojuan, Cui, Yaning, and Lin, Jinxing

Subjects

ARABIDOPSIS proteins, CELL membranes, FLOTILLINS, ABIOTIC stress, BLOOD proteins

Abstract

Plasma membranes are heterogeneous and contain multiple functional nanodomains. Although several signaling proteins have been shown to function by moving into or out of nanodomains, little is known regarding the effects of environmental cues on nanodomain organization. In this study, we investigated the heterogeneity and organization of distinct nanodomains, including those containing Arabidopsis thaliana flotillin-1 (AtFlot1) and hypersensitive induced reaction-1 proteins (AtHIR1), in response to biotic and abiotic stress. Variable-angle total internal reflection fluorescence microscopy coupled with single-particle tracking (SPT) revealed that AtFlot1 and AtHIR1 exhibit different lateral dynamics and inhabit different types of nanodomains. Furthermore, via SPT and fluorescence correlation spectroscopy, we observed lower density and intensity of AtFlot1 fluorescence in the plasma membrane after biotic stress. In contrast, the density and intensity of signal indicating AtHIR1 markedly increased in response to biotic stress. In response to abiotic stress, the density and intensity of both AtFlot1 and AtHIR1 signals decreased significantly. Importantly, SPT coupled with fluorescence recovery after photobleaching revealed that biotic and abiotic stress can regulate the dynamics of AtFlot1; however, only the abiotic stress can regulate AtHIR1 dynamics. Taken together, these findings suggest that a plethora of highly distinct nanodomains coexist in the plasma membrane (PM) and that different nanodomains may perform distinct functions in response to biotic and abiotic stresses. These phenomena may be explained by the spatial clustering of plasma membrane proteins with their associated signaling components within dedicated PM nanodomains. [ABSTRACT FROM AUTHOR]

Published

2022

20. Transverse aortic constriction-induced heart failure leads to increased levels of circulating microparticles.

Author

Pfeifer, Philipp, Zietzer, Andreas, Hölscher, Marion, Jehle, Julian, Nickenig, Georg, Werner, Nikos, Gestrich, Christopher, and Jansen, Felix

Subjects

*HEART failure, *AORTA, *HEART failure patients, *FLOTILLINS, *INFLAMMATION

Abstract

Circulating microparticles represent one type of signal transmission between cells. Previous studies revealed increased levels of circulating microparticles in patients with heart failure, while composition, temporal occurrence and biological effects are largely unknown. Circulating microparticles were quantified by flow cytometry in mice following TAC. Microparticles were characterized by NTA and immunoblotting for Flotillin-1. Microparticle content was investigated by microRNA analyses. After TAC induction of heart failure could be demonstrated. Simultaneously we observed increased numbers of circulating microparticles in the first week after TAC with a rapid decline thereafter. The most relevant fraction of circulating EVs after TAC derived from lymphocytes containing has-miR-26a-5p and / -146b-5p known to be involved in inflammatory processes. This work provides a previously unknown timely limited occurrence of circulating microparticles after new onset of heart failure which might have important influence on disease development and progression and thereby are of probable therapeutic relevance. [ABSTRACT FROM AUTHOR]

Published

2022

21. MicroRNA-486–3p promotes the proliferation and metastasis of cutaneous squamous cell carcinoma by suppressing flotillin-2.

Author

Li, Xiangzhi, Yuan, Yawen, Wang, Yimeng, Xie, Kaisheng, Lu, Sheng, Chen, Fuqiang, Zhou, Meijuan, and Zhen, Peilin

Subjects

*SQUAMOUS cell carcinoma, *FLOTILLINS, *FLUORESCENCE in situ hybridization, *CELL lines, *METASTASIS

Abstract

• miR-486–3p is upregulated in cSCC and promotes tumorigenicity of cSCC. • FLOT2 is a direct functional target of miR-486–3p. • FLOT2 functions as a tumor suppressive role in cSCC. Dysregulation of miR-486–3p was related to the growth and development of a variety of cancers, but the specific function of miR-486–3p in cutaneous squamous cell carcinoma (cSCC) is not to be confirmed yet. Our present study aimed to validate the potential molecular mechanisms of miR-486–3p in cSCC and the potential of miR-486–3p as a novel target for future treatment. Human cSCC samples and normal skin tissues were applied to determine the expression level of miR-486–3p and FLOT2 by fluorescence in situ hybridization (FISH) and quantitative reverse transcription PCR (qRT-PCR), respectively. As well as BALB/C nude mouse tumor model, three cSCC cells lines including HSC-1, HSC-5 and A431 were utilized to demonstrate the potential function of miR-486–3p and FLOT2 in tumorigenesis. Our experimental results showed that miR-486–3p was highly expressed both in tumor samples and cell lines of cSCC. Upregulation of miR-486–3p enhanced the proliferation and migration ability of cSCC cell lines and promoted tumorigenicity in vivo. Furthermore, we confirmed that FLOT2 was a direct targeted gene of miR-486–3p. In contrary to the expression level of miR-486–3p, FLOT2 was low expressed in cSCC patient specimens and cell lines. Knockdown of FLOT2 promoted tumorigenesis of cSCC; whereas FLOT2 reversed the tumor-promoting effect of miR-486–3p. Our data exhibited that miR-486–3p exerted its effects on carcinogenesis as an oncogene in cSCC via suppression of FLOT2. This discovery will develop new therapeutic targets of cSCC. [ABSTRACT FROM AUTHOR]

Published

2022

22. An Stomatin, Prohibitin, Flotillin, and HflK/C-Domain Protein Required to Link the Phage-Shock Protein to the Membrane in Bacillus subtilis.

Author

Scholz, Abigail Savietto, Baur, Sarah S. M., Wolf, Diana, and Bramkamp, Marc

Subjects

MEMBRANE proteins, BACTERIAL proteins, BACILLUS subtilis, FLOTILLINS, PROTEINS, ABIOTIC stress

Abstract

Membrane surveillance and repair is of utmost importance to maintain cellular integrity and allow cellular life. Several systems detect cell envelope stress caused by antimicrobial compounds and abiotic stresses such as solvents, pH-changes and temperature in bacteria. Proteins containing an Stomatin, Prohibitin, Flotillin, and HflK/C (SPFH)-domain, including bacterial flotillins have been shown to be involved in membrane protection and membrane fluidity regulation. Here, we characterize a bacterial SPFH-domain protein, YdjI that is part of a stress induced complex in Bacillus subtilis. We show that YdjI is required to localize the ESCRT-III homolog PspA to the membrane with the help of two membrane integral proteins, YdjG/H. In contrast to classical flotillins, YdjI resides in fluid membrane regions and does not enrich in detergent resistant membrane fractions. However, similarly to FloA and FloT from B. subtilis , deletion of YdjI decreases membrane fluidity. Our data reveal a hardwired connection between phage shock response and SPFH proteins. [ABSTRACT FROM AUTHOR]

Published

2021

23. An Stomatin, Prohibitin, Flotillin, and HflK/C-Domain Protein Required to Link the Phage-Shock Protein to the Membrane in Bacillus subtilis

Author

Abigail Savietto Scholz, Sarah S. M. Baur, Diana Wolf, and Marc Bramkamp

Subjects

YdjI, SPFH-domain proteins, phage-shock protein, cell envelope stress response, flotillins, Bacillus subtilis, Microbiology, QR1-502

Abstract

Membrane surveillance and repair is of utmost importance to maintain cellular integrity and allow cellular life. Several systems detect cell envelope stress caused by antimicrobial compounds and abiotic stresses such as solvents, pH-changes and temperature in bacteria. Proteins containing an Stomatin, Prohibitin, Flotillin, and HflK/C (SPFH)-domain, including bacterial flotillins have been shown to be involved in membrane protection and membrane fluidity regulation. Here, we characterize a bacterial SPFH-domain protein, YdjI that is part of a stress induced complex in Bacillus subtilis. We show that YdjI is required to localize the ESCRT-III homolog PspA to the membrane with the help of two membrane integral proteins, YdjG/H. In contrast to classical flotillins, YdjI resides in fluid membrane regions and does not enrich in detergent resistant membrane fractions. However, similarly to FloA and FloT from B. subtilis, deletion of YdjI decreases membrane fluidity. Our data reveal a hardwired connection between phage shock response and SPFH proteins.

Published

2021

24. Molecular characterization of direct interactions between MPP1 and flotillins.

Author

Biernatowska, Agnieszka, Olszewska, Paulina, Grzymajło, Krzysztof, Drabik, Dominik, Kraszewski, Sebastian, Sikorski, Aleksander F., and Czogalla, Aleksander

Subjects

*CYTOSKELETAL proteins, *MOLECULAR dynamics, *SURFACE plasmon resonance, *CELLULAR signal transduction, *CELL membranes, *FLOTILLINS

Abstract

Flotillins are the major structural proteins in erythroid raft domains. We have shown previously that the dynamic nanoscale organization of raft domains in erythroid cells may depend on flotillin-MPP1 interactions. Here, by using molecular dynamic simulations and a surface plasmon resonance-based approach we determined that high-affinity complexes of MPP1 and flotillins are formed via a so far unidentified region within the D5 domain of MPP1. Significantly, this particular "flotillin binding motif" is of key physiological importance, as overexpression of peptides containing this motif inhibited endogenous MPP1-flotillin interaction in erythroid precursor cells, thereby causing lateral disorganization of raft domains. This was reflected by both reduction in the plasma membrane order and markedly decreased activation of signal transduction via the raft-dependent insulin receptor pathway. Our data highlight new molecular details concerning the mechanism whereby MPP1 functionally links flotillins to exert their physiological role in raft domain formation. [ABSTRACT FROM AUTHOR]

Published

2021

25. Correction: Flotillins affect LPS-induced TLR4 signaling by modulating the trafficking and abundance of CD14.

Author

Matveichuk, Orest V., Ciesielska, Anna, Hromada-Judycka, Aneta, Nowak, Natalia, Ben Amor, Ichrak, Traczyk, Gabriela, and Kwiatkowska, Katarzyna

Subjects

*TRAFFIC signs & signals, *FLOTILLINS, *CD14 antigen, *LIFE sciences

Abstract

The online version of the original article can be found at https://doi.org/10.1007/s00018-024-05221-3.Cellular and Molecular Life Sciences (2024) 81:191In this article the author name Ichrak Ben Amor was incorrectly written as Ichrak Ben Amore.The original article has been corrected.Publisher's NoteSpringer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.By Orest V. Matveichuk; Anna Ciesielska; Aneta Hromada-Judycka; Natalia Nowak; Ichrak Ben Amor; Gabriela Traczyk and Katarzyna KwiatkowskaReported by Author; Author; Author; Author; Author; Author; Author [Extracted from the article]

Published

2024

26. The Gb3-enriched CD59/flotillin plasma membrane domain regulates host cell invasion by Pseudomonas aeruginosa.

Author

Brandel, Annette, Aigal, Sahaja, Lagies, Simon, Schlimpert, Manuel, Meléndez, Ana Valeria, Xu, Maokai, Lehmann, Anika, Hummel, Daniel, Fisch, Daniel, Madl, Josef, Eierhoff, Thorsten, Kammerer, Bernd, and Römer, Winfried

Subjects

*PSEUDOMONAS aeruginosa infections, *PSEUDOMONAS aeruginosa, *CELL receptors, *MASS analysis (Spectrometry), *MEMBRANE lipids, *LIPID rafts, *BINDING sites, *FLOTILLINS

Abstract

The opportunistic pathogen Pseudomonas aeruginosa has gained precedence over the years due to its ability to develop resistance to existing antibiotics, thereby necessitating alternative strategies to understand and combat the bacterium. Our previous work identified the interaction between the bacterial lectin LecA and its host cell glycosphingolipid receptor globotriaosylceramide (Gb3) as a crucial step for the engulfment of P. aeruginosa via the lipid zipper mechanism. In this study, we define the LecA-associated host cell membrane domain by pull-down and mass spectrometry analysis. We unraveled a predilection of LecA for binding to saturated, long fatty acyl chain-containing Gb3 species in the extracellular membrane leaflet and an induction of dynamic phosphatidylinositol (3,4,5)-trisphosphate (PIP3) clusters at the intracellular leaflet co-localizing with sites of LecA binding. We found flotillins and the GPI-anchored protein CD59 not only to be an integral part of the LecA-interacting membrane domain, but also majorly influencing bacterial invasion as depletion of either of these host cell proteins resulted in about 50% reduced invasiveness of the P. aeruginosa strain PAO1. In summary, we report that the LecA-Gb3 interaction at the extracellular leaflet induces the formation of a plasma membrane domain enriched in saturated Gb3 species, CD59, PIP3 and flotillin thereby facilitating efficient uptake of PAO1. [ABSTRACT FROM AUTHOR]

Published

2021

27. Characterization of raft microdomains in bovine mammary tissue during lactation: How they are modulated by fatty acid treatments.

Author

Taga, H., Dallaire, M.P., Gervais, R., Richard, F.J., Ma, L., Corl, B.A., and Chouinard, P.Y.

Subjects

*CONJUGATED linoleic acid, *FATTY acids, *FISH oils, *MILKFAT, *MAMMARY glands, *MILK proteins, *LACTOSE, *MILK, *FLOTILLINS

Abstract

The objective of the current study was first to characterize lipid raft microdomains isolated as detergent-resistant membranes (DRM) from mammary gland tissue, and second to determine how dietary fatty acids (FA) such as conjugated linoleic acid (CLA), 19:1 cyclo, and long-chain n-3 polyunsaturated FA affect lipid raft markers of mammary cells, and to finally establish relationships between these markers and lactation performance in dairy cows. Eight Holstein cows were used in a replicated 4 × 4 Latin square design with periods of 28 d. For the first 14 d, cows received daily an abomasal infusion of (1) 406 g of a saturated FA supplement (112 g of 16:0 + 230 g of 18:0) used as a control; (2) 36 g of a CLA supplement (13.9 g of trans- 10, cis- 12 18:2) + 370 g of saturated FA; (3) 7 g of Sterculia fetida oil (3.1 g of 19:1 cyclo, STO) + 399 g of saturated FA; or (4) 406 g of fish oil (55.2 g of cis- 5, cis- 8, cis- 11, cis- 14, cis- 17 20:5 + 59.3 g of cis- 4, cis- 7, cis- 10, cis- 13, cis- 16, cis- 19 22:6, FO). Mammary biopsies were harvested on d 14 of each infusion period and were followed by a 14-d washout interval. Cholera toxin subunit B, which specifically binds to ganglioside M-1 (GM-1), a lipid raft marker, was used to assess its distribution in DRM. Infusions of CLA, STO, and FO were individually compared with the control, and significance was declared at P ≤ 0.05. Milk fat yield was decreased with CLA and FO, but was not affected by STO. Milk lactose yield was decreased with CLA and STO, but was not affected by FO. Mammary tissue shows a strong GM-1-signal enrichment in isolated DRM from mammary gland tissue. Caveolin (CAV) and flotillin (FLOT) are 2 proteins considered as lipid raft markers and they are present in DRM from mammary gland tissue. Distributions of GM-1, CAV-1, and FLOT-1 showed an effect of treatments determined by their subcellular distributions in sucrose gradient fractions. Regardless of treatments, data showed positive relationships between the yield of milk fat, protein, and lactose, and the abundance GM-1 in DRM fraction. Milk protein yield was positively correlated with relative proportion of FLOT-1 in the soluble fraction, whereas lactose yield was positively correlated with relative proportion of CAV-1 in the DRM fractions. Infusion of CLA decreased mRNA abundance of CAV-1, FLOT-1, and FLOT-2. Regardless of treatments, a positive relationship was observed between fat yield and mRNA abundance of FLOT-2. In conclusion, although limited to a few markers, results of the current experiment raised potential links between variation in specific biologically active component of raft microdomains in bovine mammary gland and lactation performances in dairy cows. [ABSTRACT FROM AUTHOR]

Published

2021

28. Caveolin-1, tetraspanin CD81 and flotillins in lymphocyte cell membrane organization, signaling and immunopathology.

Author

Schaffer, Anna-Maria and Minguet, Susana

Subjects

*CELL membranes, *TETRASPANIN, *B cell receptors, *LYMPHOCYTES, *B cells, *FLOTILLINS

Abstract

The adaptive immune system relies on B and T lymphocytes to ensure a specific and long-lasting protection of an individual from a wide range of potential pathogenic hits. Lymphocytes are highly potent and efficient in eliminating pathogens. However, lymphocyte activation must be tightly regulated to prevent incorrect activity that could result in immunopathologies, such as autoimmune disorders or cancers. Comprehensive insight into the molecular events underlying lymphocyte activation is of enormous importance to better understand the function of the immune system. It provides the basis to design therapeutics to regulate lymphocyte activation in pathological scenarios. Most reported defects in immunopathologies affect the regulation of intracellular signaling pathways. This highlights the importance of these molecules, which control lymphocyte activation and homeostasis impacting lymphocyte tolerance to self, cytokine production and responses to infections. Most evidence for these defects comes from studies of disease models in genetically engineered mice. There is an increasing number of studies focusing on lymphocytes derived from patients which supports these findings. Many indirectly involved proteins are emerging as unexpected regulators of the immune system. In this mini-review, we focus in proteins that regulate plasma membrane (PM) compartmentalization and thereby impact the steady state and the activation of immunoreceptors, namely the T cell antigen receptor (TCR) and the B cell antigen receptor (BCR). Some of these membrane proteins are shown to be involved in immune abnormalities; others, however, are not thoroughly investigated in the context of immune pathogenesis. We aim to highlight them and stimulate future research avenues. [ABSTRACT FROM AUTHOR]

Published

2020

29. MPP1 Determines the Mobility of Flotillins and Controls the Confinement of Raft-Associated Molecules

Author

Agnieszka Biernatowska, Karolina Wójtowicz, Tomasz Trombik, Aleksander F. Sikorski, and Aleksander Czogalla

Subjects

MPP1, flotillins, raft nanodomains, Cytology, QH573-671

Abstract

MPP1 (membrane palmitoylated protein 1) belongs to the MAGUK (membrane-associated guanylate kinase homologs) scaffolding protein family. These proteins organize molecules into complexes, thereby maintaining the structural heterogeneity of the plasma membrane (PM). Our previous results indicated that direct, high-affinity interactions between MPP1 and flotillins (raft marker proteins) display dominant PM-modulating capacity in erythroid cells. In this study, with high-resolution structured illuminated imaging, we investigated how these complexes are organized within erythroid cells on the nanometer scale. Furthermore, using other spectroscopic techniques, namely fluorescence recovery after photobleaching (FRAP) and spot-variation fluorescence correlation spectroscopy (svFCS), we revealed that MPP1 acts as a key raft-capturing molecule, regulating temporal immobilization of flotillin-based nanoclusters, and controls local concentration and confinement of sphingomyelin and Thy-1 in raft nanodomains. Our data enabled us to uncover molecular principles governing the key involvement of MPP1-flotillin complexes in the dynamic nanoscale organization of PM of erythroid cells.

Published

2022

30. Flotillin-2 dampens T cell antigen-sensitivity and functionality.

Subjects

T cells, FLOTILLINS, CD antigens, CD4 antigen, T cell receptors

Abstract

According to a preprint abstract from biorxiv.org, researchers have found that deleting the protein Flotillin-2 (Flot2) in T cells increases their sensitivity to antigens, resulting in enhanced signaling and function. Flot2-deficient mice showed reduced tumor growth and improved immunity to infection. The study suggests that Flot2 regulates T cell functionality by modulating the clustering of T cell receptors on the cell surface. These findings have potential implications for improving T cell reactivity in diseases with poor antigenicity, such as cancer and chronic infections. However, it is important to note that this preprint has not yet undergone peer review. [Extracted from the article]

Published

2024

31. Researchers from Aix-Marseille University Publish Research in Hypercholesterolemia (Low Density Lipoprotein Cholesterol Decreases the Expression of Adenosine A [ [2A] ] Receptor and Lipid Rafts-Protein Flotillin-1: Insights on Cardiovascular...).

Subjects

LDL cholesterol, FLOTILLINS, HYPERCHOLESTEREMIA, LIPOPROTEIN A, LIPIDS, LIPID metabolism disorders, DYSLIPIDEMIA

Abstract

A research study conducted by Aix-Marseille University in France explores the impact of high levels of low-density lipoprotein cholesterol (LDL-C) on cardiovascular health. The study found that LDL-C is associated with atherosclerosis and foam cell accumulation in blood vessels. The researchers examined the expression of the adenosine A [2A] receptor (A [2A] R) and Flotillin-1, a protein marker of cholesterol-enriched plasma membrane domains, in patients with hypercholesterolemia (HC) and healthy participants (HP). They discovered that A [2A] R and Flotillin-1 expression was lower in HC patients and negatively correlated with LDL-C levels. The study suggests that LDL-C affects A [2A] R expression by impacting cholesterol-enriched membrane microdomains, providing new insights into the molecular mechanisms underlying cholesterol toxicity and potential implications for cardiovascular risk assessment and treatment. [Extracted from the article]

Published

2024

32. Flotillin membrane domains in cancer.

Author

Gauthier-Rouvière, Cécile, Bodin, Stéphane, Comunale, Franck, and Planchon, Damien

Abstract

Flotillins 1 and 2 are two ubiquitous, highly conserved homologous proteins that assemble to form heterotetramers at the cytoplasmic face of the plasma membrane in cholesterol- and sphingolipid-enriched domains. Flotillin heterotetramers can assemble into large oligomers to form molecular scaffolds that regulate the clustering of at the plasma membrane and activity of several receptors. Moreover, flotillins are upregulated in many invasive carcinomas and also in sarcoma, and this is associated with poor prognosis and metastasis formation. When upregulated, flotillins promote plasma membrane invagination and induce an endocytic pathway that allows the targeting of cargo proteins in the late endosomal compartment in which flotillins accumulate. These late endosomes are not degradative, and participate in the recycling and secretion of protein cargos. The cargos of this Upregulated Flotillin–Induced Trafficking (UFIT) pathway include molecules involved in signaling, adhesion, and extracellular matrix remodeling, thus favoring the acquisition of an invasive cellular behavior leading to metastasis formation. Thus, flotillin presence from the plasma membrane to the late endosomal compartment influences the activity, and even modifies the trafficking and fate of key protein cargos, favoring the development of diseases, for instance tumors. This review summarizes the current knowledge on flotillins and their role in cancer development focusing on their function in cellular membrane remodeling and vesicular trafficking regulation. [ABSTRACT FROM AUTHOR]

Published

2020

33. Aggregates of RNA Binding Proteins and ER Chaperones Linked to Exosomes in Granulovacuolar Degeneration of the Alzheimer's Disease Brain.

Author

Yamoah, Alfred, Tripathi, Priyanka, Sechi, Antonio, Köhler, Christoph, Guo, Haihong, Chandrasekar, Akila, Nolte, Kay Wilhelm, Wruck, Christoph Jan, Katona, Istvan, Anink, Jasper, Troost, Dirk, Aronica, Eleonora, Steinbusch, Harry, Weis, Joachim, and Goswami, Anand

Subjects

*RNA-binding proteins, *MOLECULAR chaperones, *ALZHEIMER'S disease, *BRAIN diseases, *SIGMA receptors, *FLOTILLINS, *PROTEIN metabolism, *BRAIN, *RESEARCH, *EXOSOMES, *NEURONS, *ANIMAL experimentation, *AUTOPHAGY, *RESEARCH methodology, *CELL receptors, *HEAT shock proteins, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *MEMBRANE proteins, *CYTOPLASM, *NEURODEGENERATION, *MICE, BRAIN metabolism

Abstract

Granulovacuolar degeneration (GVD) occurs in Alzheimer's disease (AD) brain due to compromised autophagy. Endoplasmic reticulum (ER) function and RNA binding protein (RBP) homeostasis regulate autophagy. We observed that the ER chaperones Glucose - regulated protein, 78 KDa (GRP78/BiP), Sigma receptor 1 (SigR1), and Vesicle-associated membrane protein associated protein B (VAPB) were elevated in many AD patients' subicular neurons. However, those neurons which were affected by GVD showed lower chaperone levels, and there was only minor co-localization of chaperones with GVD bodies (GVBs), suggesting that neurons lacking sufficient chaperone-mediated proteostasis enter the GVD pathway. Consistent with this notion, granular, incipient pTau aggregates in human AD and pR5 tau transgenic mouse neurons were regularly co-localized with increased chaperone immunoreactivity, whereas neurons with mature neurofibrillary tangles lacked both the chaperone buildup and significant GVD. On the other hand, APP/PS1 (APPswe/PSEN1dE9) transgenic mouse hippocampal neurons that are devoid of pTau accumulation displayed only few GVBs-like vesicles, which were still accompanied by prominent chaperone buildup. Identifying a potential trigger for GVD, we found cytoplasmic accumulations of RBPs including Matrin 3 and FUS as well as stress granules in GVBs of AD patient and pR5 mouse neurons. Interestingly, we observed that GVBs containing aggregated pTau and pTDP-43 were consistently co-localized with the exosomal marker Flotillin 1 in both AD and pR5 mice. In contrast, intraneuronal 82E1-immunoreactive amyloid-β in human AD and APP/PS1 mice only rarely co-localized with Flotillin 1-positive exosomal vesicles. We conclude that altered chaperone-mediated ER protein homeostasis and impaired autophagy manifesting in GVD are linked to both pTau and RBP accumulation and that some GVBs might be targeted to exocytosis. [ABSTRACT FROM AUTHOR]

Published

2020

34. Arabidopsis thaliana Mutant with T-DNA Insertion in the Flot1 (At5g25250) Gene Promotor Possesses Increased Resistance to NaCl.

Author

Khalilova, L. A., Sergienko, O. V., Orlova, Yu. V., Myasoedov, N. A., Karpichev, I. V., and Balnokin, Yu. V.

Subjects

*ARABIDOPSIS thaliana, *MEMBRANE proteins, *SALINIZATION, *GENES, *MEDIA studies, *FLOTILLINS

Abstract

Flotillin membrane proteins are involved in many cellular processes and physiological functions. However, these proteins' participation in plant response to stresses remains poorly understood. In the present report, the possible involvement of flotillin Flot1 in Na+ and K+ homeostasis in cells under sodium chloride salinization of the medium was studied in Arabidopsis thaliana (L.) Heynh. For this purpose, the Flot1 gene transcription was analyzed in the roots and leaves of wild-type (WT) and flot1 mutant plants with a T-DNA insertion in the promoter using the quantitative Real Time-RT PCR (qRT-PCR). Along with this, a mutant phenotype was studied (growth characteristics, content of Na+ and K+ ions in organs, and ultrastructure of root cells) under normal conditions and in the presence of 100 mM NaCl in the culture medium. The mutation led to the activation of AtFlot1 expression, which was more noticeable in the roots during salinization. Under these conditions, the mutants had larger organ mass, lower Na+ content, and higher K+ content in organs than that of WT. The study of the ultrastructure of A. thaliana root cells in mutant plants showed more intensive formation of post-Golgi vesicles and multivesicular bodies (MVB) in the cytoplasm. In both mutant and WT plants, the presence of sodium chloride in the nutrient solution stimulated the formation of MVB and microvacuoles in the cytoplasm and fusion of the latters into larger structures. It is assumed that changes in the ultrastructure of root cells that are caused by mutation and salinization reflect the stimulation, respectively, of vesicular trafficking and biogenesis of vacuoles—processes involved in maintaining Na+ and K+ cell homeostasis. [ABSTRACT FROM AUTHOR]

Published

2020

35. The lipid raft markers stomatin, prohibitin, flotillin, and HflK/C (SPFH)-domain proteins form an operon with NfeD proteins and function with apolar polyisoprenoid lipids.

Author

Yokoyama, Hideshi and Matsui, Ikuo

Subjects

*LIPID rafts, *OPERONS, *SCAFFOLD proteins, *PROTEINS, *LIPIDS, *DISTRIBUTION (Probability theory), *FLOTILLINS

Abstract

SPFH-domain proteins are found in almost all organisms across three domains: archaea, bacteria, and eukaryotes. In eukaryotic organelles, their subfamilies exhibit overlapping distribution and functions; thus, the rationality of annotation to discriminate these subfamilies remains unclear. In this review, the binding ability of prokaryotic SPFH-domain proteins towards nonpolar polyisoprenoides such as squalene and lycopene, rather than cholesterol, is discussed. The hydrophobic region at the C-terminus of SPFH-domain proteins constitutes the main region that binds apolar polyisoprenoid lipids as well as cholesterol and substantively contributes towards lipid raft formation as these regions are self-assembled together with specific lipids. Because the scaffolding proteins caveolins show common topological properties with SPFH-domain proteins such as stomatin and flotillin, the α-helical segments of stomatin proteins can flexibly move along with the membrane surface, with such movement potentially leading to membrane bending via lipid raft clustering through the formation of high order homo-oligomeric complexes of SPFH-domain proteins. We also discuss the functional significance and ancient origin of SPFH-domain proteins and the NfeD protein (STOPP) operon, which can be traced back to the ancient living cells that diverged and evolved to archaea and bacteria. Based on the molecular mechanism whereby the STOPP-protease degrades the C-terminal hydrophobic clusters of SPFH-domain proteins, it is conceivable that STOPP-protease might control the physicochemical properties of lipid rafts. [ABSTRACT FROM AUTHOR]

Published

2020

36. Cell wall contributes to the stability of plasma membrane nanodomain organization of Arabidopsis thaliana FLOTILLIN2 and HYPERSENSITIVE INDUCED REACTION1 proteins.

Author

Daněk, Michal, Angelini, Jindřiška, Malínská, Kateřina, Andrejch, Jan, Amlerová, Zuzana, Kocourková, Daniela, Brouzdová, Jitka, Valentová, Olga, Martinec, Jan, and Petrášek, Jan

Subjects

*CELL membranes, *ARABIDOPSIS thaliana, *PLASMA stability, *MICROTUBULES, *CYTOSKELETON, *PROTEINS, *FLOTILLINS

Abstract

Summary: Current models of plasma membrane (PM) postulate its organization in various nano‐ and micro‐domains with distinct protein and lipid composition. While metazoan PM nanodomains usually display high lateral mobility, the dynamics of plant nanodomains is often highly spatially restricted. Here we have focused on the determination of the PM distribution in nanodomains for Arabidopsis thaliana flotillin (AtFLOT) and hypersensitive induced reaction proteins (AtHIR), previously shown to be involved in response to extracellular stimuli. Using in vivo laser scanning and spinning disc confocal microscopy in Arabidopsis thaliana we present here their nanodomain localization in various epidermal cell types. Fluorescence recovery after photobleaching (FRAP) and kymographic analysis revealed that PM‐associated AtFLOTs contain significantly higher immobile fraction than AtHIRs. In addition, much lower immobile fractions have been found in tonoplast pool of AtHIR3. Although members of both groups of proteins were spatially restricted in their PM distribution by corrals co‐aligning with microtubules (MTs), pharmacological treatments showed no or very low role of actin and microtubular cytoskeleton for clustering of AtFLOT and AtHIR into nanodomains. Finally, pharmacological alteration of cell wall (CW) synthesis and structure resulted in changes in lateral mobility of AtFLOT2 and AtHIR1. Accordingly, partial enzymatic CW removal increased the overall dynamics as well as individual nanodomain mobility of these two proteins. Such structural links to CW could play an important role in their correct positioning during PM communication with extracellular environment. Significance Statement: The evidence is provided on higher dynamics of plant‐specific hypersensitive induced reaction proteins (AtHIRs) at the plasma membrane in comparison with closely related flotillins (AtFLOTs) in Arabidopsis thaliana. In addition to the plasma membrane localization, their presence at the tonoplast is shown in vivo by confocal microscopy and interaction with the cell wall is revealed to be responsible for the stabilization of AtHIR1 and AtFLOT2 within the plasma membrane. [ABSTRACT FROM AUTHOR]

Published

2020

37. Endocytosis Controls siRNA Efficiency: Implications for siRNA Delivery Vehicle Design and Cell-Specific Targeting.

Author

Vocelle, Daniel, Chan, Christina, and Walton, S. Patrick

Subjects

*ENDOCYTOSIS, *SMALL interfering RNA, *RNA interference, *TRAFFIC incident management, *FLOTILLINS

Abstract

While small interfering RNAs (siRNAs) are commonly used for laboratory studies, development of siRNA therapeutics has been slower than expected, due, in part, to a still limited understanding of the endocytosis and intracellular trafficking of siRNA-containing complexes. With the recent characterization of multiple clathrin-/caveolin-independent endocytic pathways, that is, those mediated by Graf1, Arf6, and flotillin, it has become clear that the endocytic mechanism influences subsequent intracellular processing of the internalized cargo. To explore siRNA delivery in light of these findings, we developed a novel assay that differentiates uptake by each of the endocytic pathways and can be used to determine whether endocytosis by a pathway leads to the initiation of RNA interference (RNAi). Using Lipofectamine 2000 (LF2K), we determined the endocytosis pathway leading to active silencing (whether by clathrin, caveolin, Arf6, Graf1, flotillin, or macropinocytosis) across multiple cell types (HeLa, H1299, HEK293, and HepG2). We showed that LF2K is internalized by Graf1-, Arf6-, or flotillin-mediated endocytosis for the initiation of RNAi, depending on cell type. In addition, we found that a portion of siRNA-containing complexes is internalized by pathways that do not lead to initiation of silencing. Inhibition of these pathways enhanced intracellular levels of siRNAs with concomitant enhancement of silencing. [ABSTRACT FROM AUTHOR]

Published

2020

38. Protein phosphatase 2A-mediated flotillin-1 dephosphorylation up-regulates endothelial cell migration and angiogenesis regulation.

Author

Thalwieser, Zsófia, Király, Nikolett, Fonódi, Márton, Csortos, Csilla, and Boratkó, Anita

Subjects

*CELL migration, *PHOSPHOPROTEIN phosphatases, *ENDOTHELIAL cells, *CYTOSKELETAL proteins, *DEPHOSPHORYLATION, *LUCIFERASES, *TRANSFERASES, *FLOTILLINS

Abstract

Endothelial cells have key functions in endothelial barrier integrity and in responses to angiogenic signals that promote cell proliferation, cell migration, cytoskeletal reorganization, and formation ofnewblood vessels. These functions highly depend on protein-protein interactions in cell-cell junction and cell attachment complexes and on interactions with cytoskeletal proteins. Protein phosphatase 2A (PP2A) dephosphorylates several target proteins involved in cytoskeletaldynamicsandcell adhesion. Our goal was to find new interacting and substrate proteins of the PP2A-B55α holoenzyme in bovine pulmonary endothelial cells. Using LC-MS/MS analysis, we identified flotillin-1 as a protein that binds recombinant GSH S-transferase-tagged PP2A-B55α. Immunoprecipitation experiments, proximity ligation assays, and immunofluorescent staining confirmed the interaction between these two endogenous proteins in endothelial cells. Originally, flotillins were described as regulatory proteins for axon regeneration, but they appear to function in many cellular processes, such as membrane receptor signaling, endocytosis, and cell adhesion. Ser315 is a known PKC-targeted site in flotillin-1. Utilizing phosphomutants of flotillin-1 and the NanoBiT luciferase assay, we show here that phosphorylation/dephosphorylation of Ser315 in flotillin-1 significantly affects its interaction with PP2A-B55α and that PP2A-B55α dephosphorylates phospho-Ser315. Spreading, attachment, migration, and in vitro tube formation rates of S315A variant-overexpressing cells were faster than those of nontransfected or S315D-transfected cells. These results indicate that the PP2A-flotillin-1 interaction identified here affects major physiological activities of pulmonary endothelial cells. [ABSTRACT FROM AUTHOR]

Published

2019

39. Exosomal SpFlotillin-1 participates in resistance to Vibrio parahemolyticus infection in mud crab (Scylla paramamosain).

Author

Zhang, Yongsheng, Liu, Ting, Sun, Qian, Zhang, Ming, Tran, Ngoc Tuan, Chen, Xiuli, and Li, Shengkang

Subjects

*SCYLLA (Crustacea), *VIBRIO infections, *MUD, *EXOSOMES, *FLOTILLINS, *ANTIMICROBIAL peptides

Abstract

Exosomes have been considered anti-microbial immune factors in animals (including aquatic animals). However, the relationship between exosomal proteins and immune responses during bacterial infection has not been addressed. Flotillin-1 has previously been shown to enrich plasma membrane which implicates in cellular processes, including signal transduction, membrane trafficking, and molecular sorting. In this study, Sp Flotillin-1 was cloned and characterized from mud crab (Scylla paramamosain). Sp Flotillin-1 was found to be up-regulated in the hemocytes of mud crabs after infecting with V. parahaemolyticus. RNAi knockdown of Sp Flotillin-1 showed capacity in suppressing phagocytosis and reducing the expression of antimicrobial peptides (AMPs) but increasing the ROS production in hemocytes. Furthermore, Sp Flotillin-1 densely packaged in the exosomes can regulate the phagocytosis, expression of AMPs through MAPK and NF-κB pathway, and production of ROS, eventually activating the immune response to bacterial infection in mud crabs. Taken together, the results of this study provide a new finding on the mechanism that exosomal Sp Flotillin-1 may participate in the V. parahaemolyticus infection through the regulation of phagocytosis and activation of AMP synthesis in mud crabs. • Expression of Sp Flotillin-1 was increased in mud crab hemocytes during bacterial infection. • Sp Flotillin-1 RNAi suppressed phagocytosis and AMP expression, and increased ROS production in hemocytes. • Exosomal Sp Flotillin-1 activates AMP synthesis via NF-κB and MAPK signaling pathways. [ABSTRACT FROM AUTHOR]

Published

2024

40. Author Correction: Flotillin-2 promotes metastasis of nasopharyngeal carcinoma by activating NF-κB and PI3K/Akt3 signaling pathways.

Author

Liu, Jie, Huang, Wei, Ren, Caiping, Wen, Qiuyuan, Liu, Weidong, Yang, Xuyu, Wang, Lei, Zhu, Bin, Zeng, Liang, Feng, Xiangling, Zhang, Chang, Chen, Huan, Jia, Wei, Zhang, Lihua, Xia, Xiaomeng, and Chen, Yuxiang

Subjects

*NASOPHARYNX cancer, *FLOTILLINS, *CELLULAR signal transduction, *METASTASIS, *CELL morphology

Abstract

The 6-10B-Flot-2 cells achieved a comparable Flot-2 expression level to that in 5-8F cells. 6-10B-Flot-2 cells exhibited a similar microfilament distribution pattern to 5-8F cells, consisting of a high-density distribution of microfilaments on the cell surface, which precedes the formation of conspicuous lamellipodia and membrane ruffles. (B) Semi-quantitative RT-PCR and Western blotting were used to detect Flot-2 expression in 6-10B-Flot-2 cells. [Extracted from the article]

Published

2023

41. Flotillin is a Novel Diagnostic Blood Marker of Alzheimer's Disease.

Author

Abdullah, Mohammad, Kimura, Noriyuki, Akatsu, Hiroyasu, Hashizume, Yoshio, Ferdous, Taslima, Tachita, Takuto, Iida, Shinsuke, Zou, Kun, Matsubara, Etsuro, and Michikawa, Makoto

Subjects

*ALZHEIMER'S disease, *CEREBROSPINAL fluid, *MILD cognitive impairment, *POSITRON emission tomography, *VASCULAR dementia, *CEREBRAL amyloid angiopathy, *FLOTILLINS

Abstract

Currently, best-characterized indicators for Alzheimer's disease (AD) diagnosis are the decreased levels of amyloid-β protein 42 and increased levels of phosphorylated tau in cerebrospinal fluid (CSF). The positron emission tomography (PET) imaging with Pittsburgh compound B (PiB) is also used in AD diagnosis by visualizing amyloid deposition in the brain. These methods are invasive or expensive; therefore, less invasive and easily detectable blood biomarkers are required. Because our previous study showed that flotillin release, a marker of exosomes, was attenuated by Aβ, we designed the present study to determine whether flotillin level could be reduced in CSF and/or serum of patients with AD. In this study, we analyzed flotillin levels in CSF and serum of non-AD controls, patients with AD and mild cognitive impairment (MCI) by western blotting. Flotillin levels in cerebroventricular fluid (CVF) and serum of AD, vascular dementia (VaD), and non-AD autopsy cases were also analyzed. Flotillin levels significantly decreased in the CSF and serum of AD patients compared with those of non-AD controls, respectively. Moreover, in patients with MCI due to AD determined by PiB-PET, CSF and serum flotillin levels significantly decreased compared with those of patients with MCI due to non-AD. Flotillin levels remained unchanged in CVF and serum of autopsy cases diagnosed as VaD. Serum flotillin level is negatively associated with brain amyloid deposition indicated as PiB uptake. These results demonstrate that serum flotillin level can serve as one of the blood markers for estimation of brain amyloid deposition and early diagnosis of AD. [ABSTRACT FROM AUTHOR]

Published

2019

42. Flotillin homologue is involved in the swimming behavior of Escherichia coli.

Author

Padilla-Vaca, Felipe, Vargas-Maya, Naurú Idalia, Elizarrarás-Vargas, Narciso Ulises, Rangel-Serrano, Ángeles, Cardoso-Reyes, Luis Rafael, Razo-Soria, Tannia, Membrillo-Hernández, Jorge, and Franco, Bernardo

Subjects

*CHEMOTAXIS, *ESCHERICHIA coli, *BEHAVIOR, *FLOTILLINS

Abstract

Cellular membrane is a key component for maintaining cell shape and integrity. The classical membrane structure and function by Singer and Nicolson groundbreaking model has depicted the membrane as a homogeneous fluid structure. This view has changed by the discovery of discrete domains containing different lipid compositions, called lipid rafts, which play a key role in signal transduction in eukaryotic cells. In the past few years, lipid raft-like structures have been found in bacteria also, constituted by cardiolipin and other modified lipids, perhaps involved in generating a specific site for protein clustering. Here, we report the analysis of a protein termed YqiK from Escherichia coli, a prohibitin homolog that has been implicated in stress sensing by the formation of membrane-associated microdomains. The E. coli yqiK-deficient mutant strain showed an enhanced swimming behavior and was resistant to ampicillin but its response to other stressing conditions was similar to that of the wild-type strain. The abnormal swimming behavior is reversed when the protein is expressed in trans from a plasmid. Also, we demonstrate that YqiK is not redundant with QmcA, another flotillin homolog found in E. coli. Our results, along with the data available in the literature, suggest that YqiK may be involved in the formation of discrete membrane-associated signaling complexes that regulate and agglomerate signaling proteins to generate cell response to chemotaxis. [ABSTRACT FROM AUTHOR]

Published

2019

43. Clinical significance and comparison of flotillin 1 expression in left and right colon cancer.

Author

Baig, Nadia, Li, Zequn, Lu, Jing, Chen, Haibin, Yu, Songyang, Li, Tianen, Niu, Zhaojian, and Niu, Jun

Subjects

*COLON cancer, *TUMOR grading, *CANCER invasiveness, *IMMUNOSTAINING, *TUMOR classification, *FLOTILLINS

Abstract

Flotillin 1 (FLOT1) is increasingly implicated in various types of cancer, and has been reported to influence tumorigenesis and cancer progression, leading to poor prognosis for survival time; however, its expression in colorectal cancer (CRC) and its influence on various clinicopathological parameters of this disease remain unknown. In the present study, FLOT1 expression and its effect on different clinicopathological parameters were assessed immunohistochemically and histologically in 81 CRC and 81 non-tumorous colon tissue samples. The immunohistochemical staining was scored semi-quantitatively. The association of FLOT1 expression with various parameters and its effect on overall survival time was also assessed. FLOT1 was upregulated in the CRC tissue, with increased expression in the right colon tissue samples compared with those of left colon. Increased FLOT1 expression in CRC tissue samples was associated with tumor volume, differentiation, tumor grade and poor overall survival time. In the right colon tissue samples in particular, there was a notable association with tumor volume and grade, indicating its effect on proliferation and tumor stage at this site. A multivariate Cox regression hazard analysis revealed that only tumor grade and differentiation were the independent predictors of overall survival time in patients with CRC. Together, the results of the present study suggest that FLOT1 serves important functions in the proliferation and progression of CRC, contributes to decreased survival time, and may serve as a novel therapeutic target for the treatment of CRC. [ABSTRACT FROM AUTHOR]

Published

2019

44. Insufficient radiofrequency ablation promotes the metastasis of residual hepatocellular carcinoma cells via upregulating flotillin proteins.

Author

Zhang, Ning, Li, Hui, Qin, Chengdong, Ma, Dening, Zhao, Yiming, Zhu, Weiping, and Wang, Lu

Subjects

*CATHETER ablation, *HEPATOCELLULAR carcinoma, *METASTASIS, *LIPID rafts, *CANCER cells, *SORAFENIB, *AGAR, *FLOTILLINS

Abstract

Purpose: Radiofrequency ablation (RFA) therapy has proven to be effective and feasible for early-stage hepatocellular carcinoma (HCC); however, rapid progression of residual tumor cells after RFA has been confirmed, but the molecular mechanisms of this phenomenon are poorly understood. This study evaluated the effect of the lipid raft proteins known as flotillins on the invasive and metastatic potential of residual HCC. Methods: The human HCC cell line HCCLM3 was used to establish insufficient RFA models in vivo and in vitro. Changes in cellular morphology, soft agar colony formation, motility, metastasis, and epithelial–mesenchymal transition (EMT) markers after insufficient RFA intervention in vitro and in vivo were detected by real-time PCR, western blotting, immunohistochemistry and transwell assays. Results: The results showed that flotillin-1 and flotillin-2 expression were upregulated in HCCLM3 cells following 45 °C heat treatment and in residual HCCLM3 xenografts cells after insufficient RFA. Knocking down flotillin-1 or flotillin-2 in HCCLM3 cells by shRNA significantly lowered insufficient RFA-induced tumor growth, EMT changes, and metastasis in vitro and in vivo. Furthermore, mechanism studies indicated that flotillins altered the EMT status and metastatic potential of heat-treated HCCLM3 cells by activating the Akt/Wnt/β-catenin signaling pathway. Conclusions: Our findings present new evidence that flotillins play a key role in the aggressive behaviors of residual cancer cells after insufficient RFA and provide new insights into the regulatory mechanism of Wnt/β-catenin signaling. [ABSTRACT FROM AUTHOR]

Published

2019

45. Flotillins in the intercalated disc are potential modulators of cardiac excitability.

Author

Kessler, Elise L., van Stuijvenberg, Leonie, van Bavel, Joanne J.A., van Bennekom, Joëlle, Zwartsen, Anne, Rivaud, Mathilde R., Vink, Aryan, Efimov, Igor R., Postma, Alex V., van Tintelen, J. Peter, Remme, Carol A., Vos, Marc A., Banning, Antje, de Boer, Teun P., Tikkanen, Ritva, and van Veen, Toon A.B.

Subjects

*FLOTILLINS, *INTERNEURONS, *VENTRICULAR remodeling, *CADHERINS, *DESMOSOMES, *CANCER invasiveness

Abstract

Abstract Background The intercalated disc (ID) is important for cardiac remodeling and has become a subject of intensive research efforts. However, as yet the composition of the ID has still not been conclusively resolved and the role of many proteins identified in the ID, like Flotillin-2, is often unknown. The Flotillin proteins are known to be involved in the stabilization of cadherins and desmosomes in the epidermis and upon cancer development. However, their role in the heart has so far not been investigated. Therefore, in this study, we aimed at identifying the role of Flotillin-1 and Flotillin-2 in the cardiac ID. Methods Location of Flotillins in human and murine cardiac tissue was evaluated by fluorescent immunolabeling and co-immunoprecipitation. In addition, the effect of Flotillin knockout (KO) on proteins of the ID and in electrical excitation and conduction was investigated in cardiac samples of wildtype (WT), Flotillin-1 KO, Flotilin-2 KO and Flotilin-1/2 double KO mice. Consequences of Flotillin knockdown (KD) on cardiac function were studied (patch clamp and Multi Electrode Array (MEA)) in neonatal rat cardiomyocytes (NRCMs) transfected with siRNAs against Flotillin-1 and/or Flotillin-2. Results First, we confirmed presence in the ID and mutual binding of Flotillin-1 and Flotillin-2 in murine and human cardiac tissue. Flotillin KO mice did not show cardiac fibrosis, nor hypertrophy or changes in expression of the desmosomal ID proteins. However, protein expression of the cardiac sodium channel Na V 1.5 was significantly decreased in Flotillin-1 and Flotillin-1/2 KO mice compared to WT mice. In addition, sodium current density showed a significant decrease upon Flotillin-1/2 KD in NRCMs as compared to scrambled siRNA-transfected NRCMs. MEA recordings of Flotillin-2 KD NRCM cultures showed a significantly decreased spike amplitude and a tendency of a reduced spike slope when compared to control and scrambled siRNA-transfected cultures. Conclusions In this study, we demonstrate the presence of Flotillin-1, in addition to Flotillin-2 in the cardiac ID. Our findings indicate a modulatory role of Flotillins on Na V 1.5 expression at the ID, with potential consequences for cardiac excitation. Highlights • Flotillin-1 and Flotillin-2 are present in the cardiac intercalated disc • Flotillin knockout decreases protein levels of the sodium channel Na V 1.5 • Knockdown of Flotillin-2 and -1/2 by siRNAs decreases the peak inward sodium current (I Na) • Flotillins seem to affect cardiac excitability [ABSTRACT FROM AUTHOR]

Published

2019

46. Expression and functional analysis of flotillins in Dugesia japonica.

Author

Dong, Zimei, Cheng, Fangfang, Yang, Yibo, Zhang, Fenxi, Chen, Guangwen, and Liu, Dezeng

Subjects

*DUGESIA, *INSULIN, *GROWTH factors, *CELL migration, *HOMEOSTASIS, *FLOTILLINS

Abstract

Abstract FLOTILLIN-1 and FLOTILLIN-2 are membrane rafts associated proteins that have been implicated in insulin and growth factor signaling, endocytosis, cell migration, proliferation, differentiation, cytoskeleton remodeling and membrane trafficking. Furthermore, FLOTILLINs also play important roles in the progression of cancer and neurodegenerative diseases. In this study, the roles of flotillins are investigated in planarian Dugesia japonica. The results show that Djflotillin-1 and Djflotillin-2 play a key role in homeostasis maintenance and regeneration process by regulating the proliferation of the neoblast cells, they are not involved in the maintenance and regeneration of the central nervous system in planarians. [ABSTRACT FROM AUTHOR]

Published

2019

47. Microdominios membranales bacterianos semejantes a balsas lipídicas.

Author

Guzmán-Flores, José E., Georgellis, Dimitris, and Álvarez, Adrián F.

Subjects

*LIPID rafts, *BIOLOGICAL membranes, *BACTERIAL chromosomes, *BACTERIAL cell walls, *MEMBRANE lipids, *FLOTILLINS

Abstract

The capacity of biological membranes to compartmentalize various physiological processes such as signal transduction, vesicular traffic, among others, has led to the study of structures known as lipid rafts or membrane microdomains. These microdomains are made of specialized proteins and lipids, which have been widely described in a broad variety of eukaryotic cells. A feature of lipid rafts is the high degree of packaging of their components, which generates less fluidity with respect to the rest of the membrane. The most commonly used technique to characterize these microdomains is the generation of Detergent-Resistant Membranes (DRM), which takes advantage of the physicochemical characteristics of lipid rafts, whose structural components are resistant to solubilization by detergents. SPFHdomain containing proteins (Stomatin, Prohibitin, Flotillin, HflK/C) are frequently found in DRM preparations and are commonly used as lipid rafts markers. Recently, the widely distribution of SPHF-containing proteins encoded in bacterial chromosomes, has directed our attention to the study of lipid raft-like microdomains in bacterial membranes. In this review, we present some recent advances on the identification and analysis of bacterial lipid raft-like membrane microdomains. [ABSTRACT FROM AUTHOR]

Published

2019

48. Findings from National institute of Respiratory Diseases Ismael Cosio Villegas Update Knowledge of Lung Cancer (The Structural Proteins of Membrane Rafts, Caveolins and Flotillins, In Lung Cancer: More Than Just Scaffold Elements).

Subjects

CYTOSKELETAL proteins, LUNG cancer, FLOTILLINS, RESPIRATORY diseases, MEMBRANE proteins

Abstract

A study conducted by the National Institute of Respiratory Diseases Ismael Cosio Villegas in Mexico City explores the role of membrane rafts, specifically caveolins and flotillins, in lung cancer. The study highlights the importance of genetic factors in the development and progression of lung cancer, in addition to the well-known association with tobacco smoking. The researchers summarize the current understanding of the involvement of caveolins and flotillins in lung cancer from a molecular perspective. This research provides valuable insights into potential targets for the treatment and prevention of lung cancer. [Extracted from the article]

Published

2024

49. Flotillins affect LPS-induced TLR4 signaling by modulating the trafficking and abundance of CD14.

Subjects

FLOTILLINS, CD14 antigen, TRAFFIC signs & signals, TOLL-like receptors, BLOOD proteins

Abstract

A preprint abstract from biorxiv.org discusses the role of flotillins in modulating the pro-inflammatory response of macrophages to lipopolysaccharide (LPS). Flotillin-1 and -2 are proteins associated with plasma membrane rafts and endo-membranes, and they affect plasma membrane dynamics and intracellular protein trafficking. The study found that down-regulating flotillin-2 in Raw264 cells inhibited the endosomal signaling of LPS-activated Toll-like receptor 4 (TLR4) and decreased the abundance of CD14 protein on the cell surface. This depletion of surface CD14 can inhibit TLR4 signaling after LPS stimulation. The study suggests that flotillins play a role in regulating the pro-inflammatory response of macrophages to LPS by affecting the abundance of CD14. However, it is important to note that this preprint has not been peer-reviewed. [Extracted from the article]

Published

2023

50. Research from Tongji University School of Medicine in Non-Small Cell Lung Cancer Provides New Insights (Flotillin-1 enhances radioresistance through reducing radiation-induced DNA damage and promoting immune escape via STING signaling pathway...).

Subjects

NON-small-cell lung carcinoma, DNA damage, FLOTILLINS, CELLULAR signal transduction, CIRCULATING tumor DNA

Abstract

A recent study conducted by researchers at Tongji University School of Medicine has provided new insights into non-small cell lung cancer (NSCLC). The study found that a protein called flotillin-1 (FLOT1) plays a role in radiation resistance in NSCLC. When FLOT1 is depleted, it enhances radiation-induced DNA damage and promotes immune response, leading to increased tumor regression. The findings suggest that FLOT1 could be a potential biomarker for predicting the response to radiotherapy and a target for enhancing its effects. Further research is needed to explore the therapeutic potential of FLOT1 in NSCLC. [Extracted from the article]

Published

2023