Your search keyword '"Fakun Cao"' showing total 14 results

1. Myddosome clustering in IL-1 receptor signaling regulates the formation of an NF-kB activating signalosome

Author

Fakun, Cao, Gerpott, Fenja Helga Ursel, Deliz-Aguirre, Rafael, Ziska, Elke, and Taylor, Marcus

Abstract

Signaling pathways can produce digital invariant outputs and analog outputs that scale with the amount of stimulation. In IL-1 receptor (IL-1R) signaling both types of outputs require the Myddosome, a multi-protein complex. The Myddosome is required for polyubiquitin chain formation and NF-kB signaling. However, the ways in which these signals are spatially and temporally regulated to drive switch-like and proportional outcomes is not understood. We find that during IL-1R signaling, Myddosomes dynamically re-organize into large, multi-Myddosome clusters at the cell membrane. Blockade of Myddosome clustering using nanoscale extracellular barriers reduces NF-kB activation. We find that Myddosomes function as a scaffold that assembles an NF-kB signalosome consisting of E3-ubiquitin ligases TRAF6 and LUBAC, K63/M1-linked polyubiquitin chains, phospho-IKK, and phospho-p65. This signalosome preferentially assembles at regions of high Myddosome density, which enhances the recruitment of TRAF6 and LUBAC. Extracellular barriers that restrict Myddosome clustering perturbed the recruitment of both ligases. We found that LUBAC was especially sensitive to clustering with a sevenfold lower recruitment to single Myddosomes than clustered Myddosomes. This data reveals that the clustering behavior of Myddosome provides the basis for digital and analog IL-1R signaling.

Published

2023

2. Visualization of Myddosome Assembly in Live Cells

Author

Fakun Cao and Marcus J. Taylor

Published

2023

3. CCANet: Classifcation of Colorectal Tumor Histopathological Images Using a CNN with Channel Attention Mechanisms

Author

Licheng Zhang, Fakun Cao, Jing Cao, Beibei Zhu, Sheng Li, and Xiongxiong He

Published

2022

4. Podosome formation promotes plasma membrane invagination and integrin-β3 endocytosis on a viscous RGD-membrane

Author

Cheng-han Yu, Yuhuan Zhou, Fakun Cao, and Xiaoting Liu

Subjects

Podosome, Endosome, Endocytic cycle, Medicine (miscellaneous), Nerve Tissue Proteins, Endocytosis, Ligands, Transfection, Clathrin, General Biochemistry, Genetics and Molecular Biology, Article, Polymerization, 03 medical and health sciences, Dynamin II, Mice, 0302 clinical medicine, Cell Adhesion, Animals, Humans, lcsh:QH301-705.5, Cells, Cultured, Cytoskeleton, 030304 developmental biology, Adaptor Proteins, Signal Transducing, 0303 health sciences, biology, Chemistry, Tumor Suppressor Proteins, Cell Membrane, Podosome ring, Integrin beta3, Membranes, Artificial, Fibroblasts, Actins, Cell biology, Rats, Adaptor Proteins, Vesicular Transport, lcsh:Biology (General), Gene Knockdown Techniques, Podosomes, biology.protein, General Agricultural and Biological Sciences, Oligopeptides, 030217 neurology & neurosurgery, Plasma membrane invagination, Podosome core

Abstract

Integrin receptors orchestrate cell adhesion and cytoskeletal reorganization. The endocytic mechanism of integrin-β3 receptor at the podosome remains unclear. Using viscous RGD-membrane as the model system, here we show that the formation of podosome-like adhesion promotes Dab2/clathrin-mediated endocytosis of integrin-β3. Integrin-β3 and RGD ligand are endocytosed from the podosome and sorted into the endosomal compartment. Inhibitions of podosome formation and knockdowns of Dab2 and clathrin reduce RGD endocytosis. F-actin assembly at the podosome core exhibits protrusive contact towards the substrate and results in plasma membrane invaginations at the podosome ring. BIN1 specifically associates with the region of invaginated membrane and recruits DNM2. During the podosome formation, BIN1 and DNM2 synchronously enrich at the podosome ring and trigger clathrin dissociation and RGD endocytosis. Knockdowns of BIN1 and DNM2 suppress RGD endocytosis. Thus, plasma membrane invagination caused by F-actin polymerization promotes BIN1-dependent DNM2 recruitment and facilitate integrin-β3 endocytosis at the podosome., Cao et al. investigate the mechanism of integrin-β3 endocytosis on podosomes from cells on viscous RGD- membranes. By using live imaging, the authors monitor actin and membrane dynamics during podosome formation and show that integrin-β3/RGD endocytosis is DAB2/clathrin mediated and dynamin-2 and BIN1 dependent.

Published

2020

5. MyD88 oligomer size functions as a physical threshold to trigger IL1R Myddosome signaling

Author

Marcus J. Taylor, Fenja H.U. Gerpott, YeVin Mun, Fakun Cao, Nichanok Auevechanichkul, Rafael Deliz-Aguirre, Mariam Chupanova, and Elke Ziska

Subjects

Biophysics, Biology, Oligomer, Article, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Cell Signaling, Protein oligomerization, Animals, Humans, 030304 developmental biology, Adaptor Proteins, Signal Transducing, Receptors, Interleukin-1 Type I, 0303 health sciences, Innate immune system, Kinase, Cell Biology, IRAK4, Immunity, Innate, Cell biology, Interleukin-1 Receptor-Associated Kinases, chemistry, Myeloid Differentiation Factor 88, Signal transduction, Protein Multimerization, 030217 neurology & neurosurgery, Function (biology), Intracellular, Signal Transduction

Abstract

Deliz-Aguirre et al. examine the molecular dynamics of interleukin 1 receptor signaling. Receptor sensing of IL-1 triggers the oligomerization of MyD88 and formation of the Myddosome signaling complex. The formation of a MyD88 oligomer of a requisite size serves as a threshold to active downstream signaling., A recurring feature of innate immune receptor signaling is the self-assembly of signaling proteins into oligomeric complexes. The Myddosome is an oligomeric complex that is required to transmit inflammatory signals from TLR/IL1Rs and consists of MyD88 and IRAK family kinases. However, the molecular basis for how Myddosome proteins self-assemble and regulate intracellular signaling remains poorly understood. Here, we developed a novel assay to analyze the spatiotemporal dynamics of IL1R and Myddosome signaling in live cells. We found that MyD88 oligomerization is inducible and initially reversible. Moreover, the formation of larger, stable oligomers consisting of more than four MyD88s triggers the sequential recruitment of IRAK4 and IRAK1. Notably, genetic knockout of IRAK4 enhanced MyD88 oligomerization, indicating that IRAK4 controls MyD88 oligomer size and growth. MyD88 oligomer size thus functions as a physical threshold to trigger downstream signaling. These results provide a mechanistic basis for how protein oligomerization might function in cell signaling pathways.

Published

2021

6. On demand MyD88 oligomerization is controlled by IRAK4 during Myddosome signaling

Author

Rafael Deliz-Aguirre, Fakun Cao, Fenja H. U. Gerpott, Nichanok Auevechanichkul, Mariam Chupanova, YeVin Mun, Elke Ziska, and Marcus J. Taylor

Abstract

A recurring feature of innate immune receptor signaling is the self-assembly of signaling proteins into oligomeric complexes. The Myddosome is an oligomeric complex that is required to transmit inflammatory signals from TLR/IL1Rs and consists of MyD88 and IRAK family kinases. However, the molecular basis for how Myddosome proteins self-assemble and regulate intracellular signaling remains poorly understood. Here, we developed a novel assay to analyze the spatiotemporal dynamics of IL1R and Myddosome signaling in live cells. We found that MyD88 oligomerization is inducible and initially reversible. Moreover, the formation of larger, stable oligomers consisting of more than 4 MyD88s triggers the sequential recruitment of IRAK4 and IRAK1. Notably, genetic knockout of IRAK4 enhanced MyD88 oligomerization, indicating that IRAK4 controls MyD88 oligomer size and growth. MyD88 oligomer size thus functions as a physical threshold to trigger downstream signaling. These results provide a mechanistic basis for how protein oligomerization might function in cell signaling pathways.

Published

2020

7. Molecular mechanism of integrin-[beta]3 endocytosis at the podosome on viscous RGD-membranes

Author

Fakun Cao

Published

2020

8. Nucleolar residence of the seckel syndrome protein TRAIP is coupled to ribosomal DNA transcription

Author

Clooney Cy Cheng, Junshi Li, Jason Tszhin Lam, Michael S.Y. Huen, Fakun Cao, Cheng-han Yu, and Yangzi Chen

Subjects

0301 basic medicine, Transcription, Genetic, Ultraviolet Rays, Nucleolus, DNA damage, Ubiquitin-Protein Ligases, Dwarfism, Ataxia Telangiectasia Mutated Proteins, Genome Integrity, Repair and Replication, Biology, DNA, Ribosomal, 03 medical and health sciences, chemistry.chemical_compound, Ribonucleases, 0302 clinical medicine, RNA Polymerase I, Transcription (biology), Cell Line, Tumor, Proliferating Cell Nuclear Antigen, Genetics, RNA polymerase I, Humans, Benzothiazoles, Naphthyridines, Deoxyribonucleases, Osteoblasts, Nucleoplasm, DNA replication, Facies, Proliferating cell nuclear antigen, Cell biology, Protein Transport, 030104 developmental biology, Gene Expression Regulation, chemistry, 030220 oncology & carcinogenesis, Microcephaly, biology.protein, Ribosomes, Cell Nucleolus, DNA, DNA Damage, HeLa Cells

Abstract

The RING finger protein TRAIP protects genome integrity and its mutation causes Seckel syndrome. TRAIP encodes a nucleolar protein that migrates to UV-induced DNA lesions via a direct interaction with the DNA replication clamp PCNA. Thus far, mechanistically how UV mobilizes TRAIP from the nucleoli remains unknown. We found that PCNA binding is dispensable for the nucleolus-nucleoplasm shuttling of TRAIP following cell exposure to UV irradiation, and that its redistribution did not rely on the master DNA damage kinases ATM and ATR. Interestingly, I-PpoI-induced ribosomal DNA damage led to TRAIP exclusion from the nucleoli, raising the possibility that active ribosomal DNA transcription may underlie TRAIP retention in the nuclear sub-compartments. Accordingly, chemical inhibition of RNA polymerase I activity led to TRAIP diffusion into the nucleoplasm, and was coupled with marked reduction of DNA/RNA hybrids in the nucleoli, suggesting that TRAIP may be sequestered via binding to nucleic acid structures in the nucleoli. Consistently, cell pre-treatment with DNase/RNase effectively released TRAIP from the nucleoli. Taken together, our study defines a bipartite mechanism that drives TRAIP trafficking in response to UV damage, and highlights the nucleolus as a stress sensor that contributes to orchestrating DNA damage responses.

Published

2018

9. Abl-mediated PI3K activation regulates macrophage podosome formation

Author

Xiaojie Xia, Zhen Feng, Yuhuan Zhou, Cheng-han Yu, Fakun Cao, and Xiaoting Liu

Subjects

0303 health sciences, Podosome, Kinase, Macrophages, 030302 biochemistry & molecular biology, macromolecular substances, Cell Biology, ABL2, Biology, Actins, Cell biology, Phosphatidylinositol 3-Kinases, 03 medical and health sciences, hemic and lymphatic diseases, Podosomes, Phosphorylation, Phosphatidylinositol 3-Kinase, PI3K/AKT/mTOR pathway, Actin, 030304 developmental biology, Podosome core, Proto-oncogene tyrosine-protein kinase Src

Abstract

Podosomes play crucial roles in macrophage adhesion and migration. Wiskott-Aldrich syndrome protein (WASP; also known as WAS)-mediated actin polymerization is one of the key events initiating podosome formation. Nevertheless, membrane signals to trigger WASP activation at macrophage podosomes remain unclear. Here, we show that phosphatidylinositol (3,4,5)-trisphosphate [PI(3,4,5)P3] lipids are enriched at the podosome and stably recruit WASP rather than the WASP-5KE mutant. Phosphatidylinositol 4,5-bisphosphate 3-kinase catalytic subunit β (PIK3CB) is spatially located at the podosome core. Inhibition of PIK3CB and overexpression of phosphatase and tensin homolog (PTEN) impede F-actin polymerization of the podosome. PIK3CB activation is regulated by Abl1 and Src family kinases. At the podosome core, Src and Hck promote the phosphorylation of Tyr488 in the consensus Y-x-x-M motif of Abl1, which enables the association of phosphoinositide 3-kinase (PI3K) regulatory subunits. Knockdown of Abl1 rather than Abl2 suppresses the PI3K/Akt pathway, regardless of Src and Hck activities. Reintroduction of wild-type Abl1 rather than the Abl1-Y488F mutant rescues PI3KR1 recruitment and PI3K activation. When PIK3CB, Abl1 or Src/Hck is suppressed, macrophage podosome formation, matrix degradation and chemotactic migration are inhibited. Thus, Src/Hck-mediated phosphorylation of Abl1 Tyr488 triggers PIK3CB-dependent PI(3,4,5)P3 production and orchestrates the assembly and function of macrophage podosomes.

Published

2020

10. Tail domains of myosin-1e regulate phosphatidylinositol signaling and F-actin polymerization at the ventral layer of podosomes

Author

Mira Krendel, Zhen Feng, Yuhuan Zhou, Cheng-han Yu, Yage Zhang, Brian Sit, Fakun Cao, and Drubin, David G.

Subjects

Podosome, Plasma protein binding, macromolecular substances, Biology, Myosins, Phosphatidylinositols, Polymerization, 03 medical and health sciences, chemistry.chemical_compound, Mice, Phosphatidylinositol Phosphates, Protein Domains, Cell Line, Tumor, Myosin, Animals, Humans, Phosphatidylinositol, Molecular Biology, Actin, Cytoskeleton, 030304 developmental biology, 0303 health sciences, 030302 biochemistry & molecular biology, Cell Membrane, Cell Biology, Articles, Actins, Cell biology, Rats, RAW 264.7 Cells, chemistry, Podosome assembly, Podosomes, Gelatin, Signal transduction, Podosome core, Protein Binding, Signal Transduction

Abstract

During podosome formation, distinct phosphatidylinositol 3,4,5-trisphosphate lipid (PI(3,4,5)P3) production and F-actin polymerization take place at integrin-mediated adhesions. Membrane-associated actin regulation factors, such as myosin-1, serve as key molecules to link phosphatidylinositol signals to podosome assembly. Here, we report that long-tailed myosin-1e (Myo1e) is enriched at the ventral layer of the podosome core in a PI(3,4,5)P3-dependent manner. The combination of TH1 and TH2 (TH12) of Myo1e tail domains contains the essential motif for PI(3,4,5)P3-dependent membrane association and ventral localization at the podosome. TH12 KR2A (K772A and R782A) becomes dissociated from the plasma membrane. While F-actin polymerizations are initialized from the ventral layer of the podosome, TH12 precedes the recruitment of N-WASP and Arp2/3 in the initial phase of podosome formation. Overexpression of TH12, not TH12 KR2A, impedes PI(3,4,5)P3 signaling, restrains F-actin polymerization, and inhibits podosome formation. TH12 also suppresses gelatin degradation and migration speed of invadopodia-forming A375 melanoma cells. Thus, TH12 domain of Myo1e serves as a regulatory component to connect phosphatidylinositol signaling to F-actin polymerization at the podosome.

Published

2019

11. The apoptotic pathways in the curcumin analog MHMD-induced lung cancer cell death and the essential role of actin polymerization during apoptosis

Author

Fakun Cao, Shi-Wei Du, and Guang-Zhou Zhou

Subjects

Pharmacology, A549 cell, Programmed cell death, Curcumin, Lung Neoplasms, biology, Endoplasmic reticulum, Intrinsic apoptosis, Apoptosis, General Medicine, Actins, Mitochondria, Polymerization, Cell biology, chemistry.chemical_compound, chemistry, Cell Movement, Caspases, Cell Line, Tumor, biology.protein, Humans, Fragmentation (cell biology), Caspase

Abstract

As a mode of cell death, apoptosis could be triggered by the extrinsic, intrinsic mitochondrial and intrinsic endoplasmic reticulum pathways and actin rearrangement is needed during apoptosis. We previously found that one curcumin analog MHMD could induce A549 lung cancer cells apoptosis. But the apoptotic pathways and the actin dynamics during apoptosis are not known. Here, we detected the activation of caspase-3, -8, -9, -12, PARP and the increase ratio of Bax/Bcl-2 by western blotting in MHMD-exposed A549 cells. Alternatively, caspases inhibitors could lead to the disappearance of MHMD-eliciting nuclei fragmentation by Hoechst 33342 staining. Besides, JC-1 and DCFH-DA staining showed the fall of mitochondrial membrane potential and the release of ROS. Moreover, wound healing assay confirmed the MHMD anti-migration ability, which was much more effective than curcumin. Importantly, unlike other anticarcinogenic drugs, MHMD might induce the actin polymerization but not depolymerization in the process of A549 cell apoptosis by phalloidin-FITC staining, which is essential to MHMD-induced extrinsic, intrinsic mitochondrial and intrinsic ER pathways of cell apoptosis.

Published

2015

12. Tropisetron alleviate early post-operative pain after gynecological laparoscopy in sevoflurane based general anaesthesia: A randomized, parallel-group, factorial study

Author

Y. Yu, Fakun Cao, Zhiguo Zhang, Chi Wai Cheung, Wei Mei, Ping Wang, Ming Li, Yu-Ke Tian, and B. Nie

Subjects

medicine.medical_specialty, Nausea, business.industry, Analgesic, Placebo, Sevoflurane, Surgery, Anesthesiology and Pain Medicine, Anesthesia, medicine, Shivering, Tropisetron, General anaesthesia, medicine.symptom, business, Propofol, medicine.drug

Abstract

Background: Studies have suggested that 5-hydroxytryptamine-3A (5-HT-3A) receptor antagonists may have analgesic effects. This randomized, double-blind, placebo-controlled, factorial study tested the hypothesis that 5-HT-3A receptor antagonist tropisetron attenuates post-operative pain in women receiving either sevoflurane or propofol based anaesthesia. Methods: Two hundred and ninety-six women undergoing gynaecological laparoscopies were randomly assigned to be anaesthetized with either sevoflurane or propofol. Immediately after the induction of anaesthesia, the anaesthesiologist administered either tropisetron 2 mg or a placebo intravenously. Pain score at rest at 0.5 h post-operatively reported using a numerical rating scale was the primary outcome measure. The secondary outcome measures included pain score at rest every 2 h within the first 24 h post-operatively, duration of post-anaesthesia care unit stay, incidence of post-operative nausea and vomiting, the incidence of shivering and score of the Quality of Recovery Score 40. Results: Compared with placebo, tropisetron produced a statistically significant decrease on pain report within the first 6 h post-operatively in the sevoflurane-based anaesthesia group (3 [2, 4] vs. 5 [4, 5], p < 0.001 in 0.5 h; 2 [0, 4] vs. 3 [3, 5], p < 0.001 in 2 h; 2 [0, 3] vs. 3 [1, 4], p = 0.002 in 4 h; 1 [0, 3] vs. 2 [1, 4], p = 0.016 in 6 h), but not in the propofol-based group. Conclusions: A single-dose intravenous administration of tropisetron after anaesthesia induction is associated with statistically significant decreased early post-operative pain in patients undergoing gynaecological laparoscopies under sevoflurane based general anaesthesia.

Published

2013

13. Integrin-beta3 clusters recruit clathrin-mediated endocytic machinery in the absence of traction force

Author

Kabir H. Biswas, Yuhuan Zhou, Gareth E. Jones, Anitha Krishnasamy, Keiko Kawauchi, Michael P. Sheetz, Yu Hsiu Wang, Andrea Ravasio, Fakun Cao, Zhongwen Chen, Nisha Bte Mohd Rafiq, and Cheng-han Yu

Subjects

Cells, Integrin, Endocytic cycle, General Physics and Astronomy, Endocytosis, Clathrin, General Biochemistry, Genetics and Molecular Biology, Bulk endocytosis, Article, Mice, Cell Movement, Traction, Animals, Humans, Adaptor Proteins, Signal Transducing, Multidisciplinary, biology, Integrin beta3, Signal transducing adaptor protein, General Chemistry, Receptor-mediated endocytosis, Cell biology, Biomechanical Phenomena, Adaptor Proteins, Vesicular Transport, biology.protein, Clathrin adaptor proteins, Apoptosis Regulatory Proteins, HeLa Cells, Protein Binding

Abstract

The turnover of integrin receptors is critical for cell migration and adhesion dynamics. Here we find that force development at integrins regulates adaptor protein recruitment and endocytosis. Using mobile RGD (Arg-Gly-Asp) ligands on supported lipid membranes (RGD membranes) and rigid RGD ligands on glass (RGD-glass), we find that matrix force-dependent integrin signals block endocytosis. Dab2, an adaptor protein of clathrin-mediated endocytosis, is not recruited to activated integrin-beta3 clusters on RGD-glass; however, it is recruited to integrin-mediated adhesions on RGD membranes. Further, when force generation is inhibited on RGD-glass, Dab2 binds to integrin-beta3 clusters. Dab2 binding to integrin-beta3 excludes other adhesion-related adaptor proteins, such as talin. The clathrin-mediated endocytic machinery combines with Dab2 to facilitate the endocytosis of RGD-integrin-beta3 clusters. From these observations, we propose that loss of traction force on ligand-bound integrin-beta3 causes recruitment of Dab2/clathrin, resulting in endocytosis of integrins., Force is known to recruit adaptor proteins to the intracellular tails of integrin extracellular matrix receptors. Here the authors show that matrix force-dependent β3 integrin signals block endocytosis by preventing the recruitment of the clathrin adaptor Dab2.

Published

2015

14. Abl-mediated PI3K activation regulates macrophage podosome formation.

Author

Yuhuan Zhou, Zhen Feng, Fakun Cao, Xiaoting Liu, Xiaojie Xia, and Cheng-han Yu

Subjects

PHOSPHATIDYLINOSITOL 3-kinases, MACROPHAGE activation, PTEN protein, WISKOTT-Aldrich syndrome, PHOSPHOINOSITIDES

Abstract

Podosomes play crucial roles in macrophage adhesion and migration. Wiskott–Aldrich syndrome protein (WASP; also known as WAS)-mediated actin polymerization is one of the key events initiating podosome formation. Nevertheless, membrane signals to trigger WASP activation at macrophage podosomes remain unclear. Here, we show that phosphatidylinositol (3,4,5)-trisphosphate [PI(3,4,5)P3] lipids are enriched at the podosome and stably recruit WASP rather than the WASP-5KE mutant. Phosphatidylinositol 4,5-bisphosphate 3-kinase catalytic subunit β (PIK3CB) is spatially located at the podosome core. Inhibition of PIK3CB and overexpression of phosphatase and tensin homolog (PTEN) impede F-actin polymerization of the podosome. PIK3CB activation is regulated by Abl1 and Src family kinases. At the podosome core, Src and Hck promote the phosphorylation of Tyr488 in the consensus Y-x-x-M motif of Abl1, which enables the association of phosphoinositide 3-kinase (PI3K) regulatory subunits. Knockdown of Abl1 rather than Abl2 suppresses the PI3K/Akt pathway, regardless of Src and Hck activities. Reintroduction of wild-type Abl1 rather than the Abl1-Y488F mutant rescues PI3KR1 recruitment and PI3K activation. When PIK3CB, Abl1 or Src/Hck is suppressed, macrophage podosome formation, matrix degradation and chemotactic migration are inhibited. Thus, Src/Hck-mediated phosphorylation of Abl1 Tyr488 triggers PIK3CB-dependent PI(3,4,5)P3 production and orchestrates the assembly and function of macrophage podosomes. [ABSTRACT FROM AUTHOR]

Published

2020