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Mouse Anti-ACTN4 Recombinant Antibody (V2-12514) (CBMAB-1004-CN)

This product is a mouse antibody that recognizes ACTN4 of human. The antibody 8G12 can be used for immunoassay techniques such as: WB, ELISA.
See all ACTN4 antibodies
Published Data
Mouse Anti-ACTN4 Recombinant Antibody (8G12) (CBMAB-1004-CN) in IHC
Representative immunohistochemical staining for actinin-4. Representative protein expression of actinin-4-positive case (X1,000) (A). Represetative protein expression of actinin-4 cancerous lesion in actinin-4-negative case (X1,000). Arrow indicates endothelial cells (B). ...View More
Matsuzaki, Y., Watabe, Y., Enatsu, K., Shigematsu, S., & Shibahara, T. (2020). Actinin-4 expression predicts poor disease-free survival and correlates with delayed lymph node metastasis in patients with completely resected oral squamous cell carcinoma. The Bulletin of Tokyo Dental College, 61(3), 179-186.

Summary

Host Animal
Mouse
Specificity
Human
Clone
V2-12514
Antibody Isotype
IgG1, κ
Application
WB, ELISA, IHC

Basic Information

Immunogen
ACTN4 (NP_004915.2, aa. 1-911) full-length recombinant protein with GST tag.
Host Species
Mouse
Specificity
Human
Antibody Isotype
IgG1, κ
Clonality
Monoclonal
Application Notes
The COA includes recommended starting dilutions, optimal dilutions should be determined by the end user.

Formulations & Storage [For reference only, actual COA shall prevail!]

Format
Liquid
Buffer
PBS, pH7.4
Preservative
None
Concentration
Batch dependent
Storage
Store at +4°C short term (1-2 weeks). Aliquot and store at -20°C long term. Avoid repeated freeze/thaw cycles.

Target

Full Name
Actinin Alpha 4
Introduction
Alpha actinins belong to the spectrin gene superfamily which represents a diverse group of cytoskeletal proteins, including the alpha and beta spectrins and dystrophins. Alpha actinin is an actin-binding protein with multiple roles in different cell types. In nonmuscle cells, the cytoskeletal isoform is found along microfilament bundles and adherens-type junctions, where it is involved in binding actin to the membrane. In contrast, skeletal, cardiac, and smooth muscle isoforms are localized to the Z-disc and analogous dense bodies, where they help anchor the myofibrillar actin filaments. This gene encodes a nonmuscle, alpha actinin isoform which is concentrated in the cytoplasm, and thought to be involved in metastatic processes. F-actin cross-linking protein which is thought to anchor actin to a variety of intracellular structures. This is a bundling protein (Probable). The protein is probably involved in vesicular trafficking via its association with the CART complex. The CART complex is necessary for efficient transferrin receptor recycling but not for EGFR degradation (PubMed:15772161). It is involved in tight junction assembly in epithelial cells probably through interaction with MICALL2. Links MICALL2 to the actin cytoskeleton and recruits it to the tight junctions (By similarity). The protein may also function as a transcriptional coactivator, stimulating transcription mediated by the nuclear hormone receptors PPARG and RARA
Entrez Gene ID
81
UniProt ID
O43707
Alternative Names
FSGS; FSGS1; ACTININ-4
Function
F-actin cross-linking protein which is thought to anchor actin to a variety of intracellular structures. This is a bundling protein (Probable). Probably involved in vesicular trafficking via its association with the CART complex. The CART complex is necessary for efficient transferrin receptor recycling but not for EGFR degradation. Involved in tight junction assembly in epithelial cells probably through interaction with MICALL2. Links MICALL2 to the actin cytoskeleton and recruits it to the tight junctions (By similarity). May also function as a transcriptional coactivator, stimulating transcription mediated by the nuclear hormone receptors PPARG and RARA.
Biological Process
Negative regulation of substrate adhesion-dependent cell spreading
Peroxisome proliferator activated receptor signaling pathway
Platelet degranulation
Positive regulation of cell migration
Positive regulation of cellular component movement
Positive regulation of NIK/NF-kappaB signaling
Positive regulation of sodium:proton antiporter activity
Protein transport
Regulation of apoptotic process
Regulation of nucleic acid-templated transcription
Response to hypoxia
Retinoic acid receptor signaling pathway
Tumor necrosis factor-mediated signaling pathway
Vesicle transport along actin filament
Cellular Location
Nucleus; Cytoplasm; Stress fiber; Cell junction. Localized in cytoplasmic mRNP granules containing untranslated mRNAs. Nuclear translocation can be induced by the PI3 kinase inhibitor wortmannin or by cytochalasin D. Exclusively localized in the nucleus in a limited number of cell lines (breast cancer cell line MCF-7, oral floor cancer IMC-2, and bladder cancer KU-7).
Involvement in disease
Focal segmental glomerulosclerosis 1 (FSGS1): A renal pathology defined by the presence of segmental sclerosis in glomeruli and resulting in proteinuria, reduced glomerular filtration rate and progressive decline in renal function. Renal insufficiency often progresses to end-stage renal disease, a highly morbid state requiring either dialysis therapy or kidney transplantation.

Shao, H., & Wells, A. (2021). Binding of alpha-ACTN4 to EGF receptor enables its rapid phosphorylation. Heliyon, 7(1), e06011.

Xing, Z., Li, S., Liu, Z., Zhang, C., & Bai, Z. (2020). CTCF‐induced upregulation of HOXA11‐AS facilitates cell proliferation and migration by targeting miR‐518b/ACTN4 axis in prostate cancer. The Prostate, 80(5), 388-398.

Ishizuya, Y., Uemura, M., Narumi, R., Tomiyama, E., Koh, Y., Matsushita, M., ... & Nonomura, N. (2020). The role of actinin-4 (ACTN4) in exosomes as a potential novel therapeutic target in castration-resistant prostate cancer. Biochemical and biophysical research communications, 523(3), 588-594.

Lin, Y. H., Huang, C. Y., Ke, C. C., Wang, Y. Y., Lai, T. H., Liu, H. C., ... & Lin, Y. H. (2020). ACTN4 mediates SEPT14 mutation-induced sperm head defects. Biomedicines, 8(11), 518.

Tentler, D., Lomert, E., Novitskaya, K., & Barlev, N. A. (2019). Role of ACTN4 in Tumorigenesis, Metastasis, and EMT. Cells, 8(11), 1427.

Ji, J., Xu, R., Ding, K., Bao, G., Zhang, X., Huang, B., ... & Wang, J. (2019). Long noncoding RNA SChLAP1 forms a growth-promoting complex with HNRNPL in human glioblastoma through stabilization of ACTN4 and activation of NF-κB signaling. Clinical Cancer Research, 25(22), 6868-6881.

Zhao, J., Peng, W., Ran, Y., Ge, H., Zhang, C., Zou, H., ... & Qi, H. (2019). Dysregulated expression of ACTN4 contributes to endothelial cell injury via the activation of the p38-MAPK/p53 apoptosis pathway in preeclampsia. Journal of physiology and biochemistry, 75(4), 475-487.

Zhang, Y. Y., Tabataba, H., Liu, X. Y., Wang, J. Y., Yan, X. G., Farrelly, M., ... & Jin, L. (2018). ACTN4 regulates the stability of RIPK1 in melanoma. Oncogene, 37(29), 4033-4045.

Lomert, E., Turoverova, L., Kriger, D., Aksenov, N. D., Nikotina, A. D., Petukhov, A., ... & Tentler, D. (2018). Co-expression of RelA/p65 and ACTN4 induces apoptosis in non-small lung carcinoma cells. Cell Cycle, 17(5), 616-626.

Kakuya, T., Mori, T., Yoshimoto, S., Watabe, Y., Miura, N., Shoji, H., ... & Honda, K. (2017). Prognostic significance of gene amplification of ACTN4 in stage I and II oral tongue cancer. International journal of oral and maxillofacial surgery, 46(8), 968-976.

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For research use only. Not intended for any clinical use.

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