TFEB Antibody

Code CSB-PA023429EA01HU
Size US$166
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  • Immunohistochemistry of paraffin-embedded human placenta tissue using CSB-PA023429EA01HU at dilution of 1:100

  • Immunofluorescent analysis of Hela cells using CSB-PA023429EA01HU at dilution of 1:100 and Alexa Fluor 488-congugated AffiniPure Goat Anti-Rabbit IgG(H+L)

  • Western Blot
    Positive WB detected in: Rat lung tissue
    All lanes: TFEB antibody at 3μg/ml
    Secondary
    Goat polyclonal to rabbit IgG at 1/50000 dilution
    Predicted band size: 53, 44 kDa
    Observed band size: 70 kDa

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Product Details

Full Product Name
Rabbit anti-Homo sapiens (Human) TFEB Polyclonal antibody
Uniprot No.
Target Names
TFEB
Alternative Names
Alpha TFEB antibody; AlphaTFEB antibody; bHLHe35 antibody; Class E basic helix-loop-helix protein 35 antibody; T cell transcription factor EB antibody; TCFEB antibody; TFEB antibody; TFEB_HUMAN antibody; Transcription factor EB antibody
Raised in
Rabbit
Species Reactivity
Human, Rat
Immunogen
Recombinant Human Transcription factor EB protein (1-476AA)
Immunogen Species
Homo sapiens (Human)
Conjugate
Non-conjugated

The TFEB Antibody (Product code: CSB-PA023429EA01HU) is Non-conjugated. For TFEB Antibody with conjugates, please check the following table.

Available Conjugates
Conjugate Product Code Product Name Application
HRP CSB-PA023429EB01HU TFEB Antibody, HRP conjugated ELISA
FITC CSB-PA023429EC01HU TFEB Antibody, FITC conjugated
Biotin CSB-PA023429ED01HU TFEB Antibody, Biotin conjugated ELISA
Clonality
Polyclonal
Isotype
IgG
Purification Method
>95%, Protein G purified
Concentration
It differs from different batches. Please contact us to confirm it.
Buffer
Preservative: 0.03% Proclin 300
Constituents: 50% Glycerol, 0.01M PBS, pH 7.4
Form
Liquid
Tested Applications
ELISA, WB, IHC, IF
Recommended Dilution
Application Recommended Dilution
WB 1:500-1:5000
IHC 1:20-1:200
IF 1:50-1:200
Troubleshooting and FAQs
Storage
Upon receipt, store at -20°C or -80°C. Avoid repeated freeze.
Lead Time
Basically, we can dispatch the products out in 1-3 working days after receiving your orders. Delivery time maybe differs from different purchasing way or location, please kindly consult your local distributors for specific delivery time.

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Target Background

Function
Transcription factor that acts as a master regulator of lysosomal biogenesis, autophagy, lysosomal exocytosis, lipid catabolism, energy metabolism and immune response. Specifically recognizes and binds E-box sequences (5'-CANNTG-3'); efficient DNA-binding requires dimerization with itself or with another MiT/TFE family member such as TFE3 or MITF. Involved in the cellular response to amino acid availability by acting downstream of MTOR: in the presence of nutrients, TFEB phosphorylation by MTOR promotes its cytosolic retention and subsequent inactivation. Upon starvation or lysosomal stress, inhibition of MTOR induces TFEB dephosphorylation, resulting in nuclear localization and transcription factor activity. Specifically recognizes and binds the CLEAR-box sequence (5'-GTCACGTGAC-3') present in the regulatory region of many lysosomal genes, leading to activate their expression, thereby playing a central role in expression of lysosomal genes. Regulates lysosomal positioning in response to nutrient deprivation by promoting the expression of PIP4P1. Acts as a positive regulator of autophagy by promoting expression of genes involved in autophagy. In association with TFE3, activates the expression of CD40L in T-cells, thereby playing a role in T-cell-dependent antibody responses in activated CD4(+) T-cells and thymus-dependent humoral immunity. Specifically recognizes the gamma-E3 box, a subset of E-boxes, present in the heavy-chain immunoglobulin enhancer. Plays a role in the signal transduction processes required for normal vascularization of the placenta. Involved in the immune response to infection by the bacteria S.aureus or S.enterica, acting downstream of protein kinase D (PKD), probably by regulating cytokine and chemokine expression.
Gene References into Functions
  1. TMEM106B drives lung cancer metastasis by inducing TFEB-dependent lysosome synthesis and secretion of cathepsins. PMID: 30013069
  2. data on TFEB nucleo-cytoplasmic shuttling suggest an unpredicted role of mTOR in nuclear export. PMID: 30120233
  3. The transcription factor EB (TFEB) nuclear export signal (NES) integrates carbon (glucose) and nitrogen (amino acid) availability by controlling TFEB flux through a nuclear import-export cycle. PMID: 29992949
  4. TFEB knockdown reduces invasion and migration of cancer cells, likely through lysosomal regulation. Taken together, TFEB influences cell invasion and migration of oral squamous cell carcinomas. PMID: 29316035
  5. Akt phosphorylates TFEB at Ser467 and represses TFEB nuclear translocation independently of mechanistic target of rapamycin complex 1, a known TFEB inhibitor. Pharmacological inhibition of Akt promotes cellular clearance in cells from patients with a variety of lysosomal diseases. PMID: 28165011
  6. these data suggest that the TFEB/TMEM55B/JIP4 pathway coordinates lysosome movement in response to a variety of stress conditions. PMID: 29146937
  7. Data suggest that the effects of Alpha-TFEB gene fusion are specific in renal cell carcinoma, which results in the overexpression of a native TFEB protein and then promotes cell canceration. PMID: 29328409
  8. MAP4K3 is identified as an amino acid-dependent regulator of autophagy through its phosphorylation of transcription factor EB (TFEB), a transcriptional activator of autophagy. PMID: 29507340
  9. Overexpression of TFEB is associated with Breast Cancer. PMID: 28017540
  10. Results identify cigarette smoke (CS)-induced accumulation of TFEB in aggresome-bodies as a specific novel mechanism for CS-mediated autophagy-impairment and resulting aggresome-formation and emphysema progression. PMID: 27835930
  11. This study reveals a critical link between two keys factors in tumourigenesis and autophagy, and suggests a potential important role of p53-TFEB signaling axis in lung cancer. PMID: 28292013
  12. Taken together, these data demonstrate that ATO induces osteosarcoma cell death via inducing excessive autophagy, which is mediated through the ROS-TFEB pathway. The present study provides a new anti-tumor mechanism of ATO treatment in osteosarcoma. PMID: 29307831
  13. cellular vacuolization, represents a condition of profound lysosome stress, and cells sense and respond to this stress by facilitating mTOR-dependent TFEB nucleus translocation in an effort to restore lysosome homeostasis. PMID: 27593892
  14. TFEB and TFE3 collaborate with each other in activated macrophages and microglia to promote efficient autophagy induction, increased lysosomal biogenesis, and transcriptional upregulation of numerous proinflammatory cytokines PMID: 27171064
  15. TFEB is affected by a novel curcumin analog in vitro and in vivo independent of MTOR inhibition PMID: 27172265
  16. TFEB regulates PER3 expression via glucose-dependent effects on CLOCK/BMAL1 PMID: 27373683
  17. These data reveal a novel mechanism of TFEB regulation by MTORC1 essential for lysosomal biogenesis. PMID: 28055300
  18. Data suggest that transcription factor EB (TFEB) is a protective transcription factor against endothelial cell inflammation and a potential target for treating atherosclerosis and associated cardiovascular diseases. PMID: 28143903
  19. Both Danon Disease and glycogen storage disease type II show accumulation and altered localization of VPS15 in autophagy-incompetent fibers. However, TFEB displays a different pattern between these two lysosomal storage diseases PMID: 28102838
  20. Studies identified TFEB and TFE3 as master modulators of stress response notably in the lysosomal biogenesis and autophagy with capability to upregulate hundreds of genes involved in intracellular clearance, catabolism, metabolic processes, and cellular homeostasis. PMID: 27892768
  21. Findings suggest that TFEB activation in tauopathy model mice stimulates the autophagy-lysosome pathway, resulting in the clearance of PHF-tau and lipofuscins, which in turn may rescue loss of synapses, and learning and memory deficits. PMID: 27257626
  22. Data suggest that PEG3 is required for TFEB induction and nuclear translocation in a VEGFR2- and AMPK-dependent manner for decorin/decorin receptor-evoked autophagy. (PEG3 = paternally expressed 3 protein; TFEB = transcription factor EB; VEGFR2 = vascular endothelial growth factor receptor-2; AMPK = AMP-activated protein kinase) PMID: 28798237
  23. review of role linking cellular stress to immune response PMID: 28656016
  24. Results demonstrate that TFEB levels and subcellular distribution undergo distinct short-term and long-term control. These findings suggest that the rapid rheostatic response, mediated by mTOR, allows the cell to quickly adapt to metabolic changes, while the long-term, mTOR independent homeostatic response controls the magnitude and duration of TFEB activation, and presumably limits excessive autophagy. PMID: 27268034
  25. Consistent with reduced transcription factor EB (TFEB) activity, accumulation of phosphorylated TFEB in STUB1-deficient cells resulted in reduced autophagy and reduced mitochondrial biogenesis. These studies reveal that the ubiquitin-proteasome pathway participates in regulating autophagy and lysosomal functions by regulating the activity of TFEB. PMID: 28754656
  26. TFEB has attracted a lot of attention owing to its ability to induce the intracellular clearance of pathogenic factors in a variety of murine models of disease, such as Parkinson's and Alzheimer's, suggesting that novel therapeutic strategies could be based on the modulation of TFEB activity. PMID: 27252382
  27. Amplification of chromosome 6p including the TFEB gene is a novel occurrence in renal cell carcinoma, which seems to be associated with an often aggressive and infiltrative tubulopapillary growth pattern. PMID: 28009604
  28. TFEB-amplified renal cell carcinomas represent a distinct molecular subtype of high-grade adult renal cell carcinomas associated with aggressive clinical behavior, variable morphology, and aberrant melanocytic marker expression PMID: 27565001
  29. Case Report: suggest that extensive sclerosis and ossification may be a less common recurring histology of TFEB-rearrangement renal cell carcinoma. PMID: 27864122
  30. Overexpression of deacetylated transcription factor EB at K116R mutant in microglia accelerated intracellular fibrillar Amyloid beta-peptide degradation by stimulating lysosomal biogenesis and greatly reduced the deposited amyloid plaques in the brain. PMID: 27209302
  31. the central autophagy regulator TFEB is expressed and active in PDAC, but autophagy is sustained after TFEB knockdown, suggesting alternative bypass signaling. TFEB is dispensable for gemcitabine-induced cell death, but inversely correlated with KRAS expression. PMID: 27175909
  32. Neuronal C-ETS2 senses oxidative stress, activates TFEB transcription, and mediates the upregulation of lysosomal genes. PMID: 27195074
  33. TFEB is phosphorylated and inactivated by Akt. PMID: 28165011
  34. Activation of TFEB ameliorates disease phenotypes in a mouse model of Batten disease. PMID: 28165011
  35. Lack of cystinosin reduced TFEB expression and induced TFEB nuclear translocation. PMID: 26994576
  36. The autophagic response to polystyrene nanoparticles is mediated by TFEB and depends on surface charge. PMID: 26596266
  37. TFEB1 overexpression is associated with drug resistance of ovarian cancer. PMID: 26307679
  38. Review of the role of TFEB in lysosome biogenesis, transcriptional and post-transcriptional regulation of TFEB, and TFEB involvement in neurodegenerative disease as a dysregulated factor or as an agent used to promote cellular clearance. PMID: 27299292
  39. TFEB and TFE3 are novel components of the integrated stress response PMID: 26813791
  40. Silencing of TFEB with siRNAs in lung cancer cell lines resulted in reduced migration ability. PMID: 26264650
  41. during mitophagy TFEB translocates to the nucleus and displays transcriptional activity in a PINK1- and Parkin-dependent manner. PMID: 26240184
  42. a virus modulating TFEB localization and helps to explain how HIV modulates autophagy to promote its own replication and cell survival PMID: 26115100
  43. RIP1 represses basal autophagy in part due to its ability to regulate the TFEB transcription factor;RIP1 activates ERK, which negatively regulates TFEB though phosphorylation of serine 142 PMID: 25908842
  44. TFEB modulates autophagic clearance of alpha-syn PMID: 25790376
  45. Data show that drug-induced TFEB-associated lysosomal biogenesis is a determinant of multidrug resistance (MDR) and suggest that circumvention of lysosomal drug sequestration is a strategy to overcome chemoresistance. PMID: 25544758
  46. This study demonstrated that transcription factor EB (TFEB) regulate the lysosome biogenesis in neurons of APP/PS1 mice, steady-state levels of APP were reduced, resulting in decreased interstitial fluid Abeta levels and attenuated amyloid deposits PMID: 26338325
  47. TFEB was found to regulate MuRF1 expression in Angiotensin II-induced skeletal muscle atrophy. PMID: 26137861
  48. Review of the role of gene fusions involving TFE3 and TFEB in carcinogenesis in sporadic renal cell carcinoma. PMID: 25048860
  49. Results showed the amplification of TFEB locus was found only in the aggressive t(6;11) Renal Cell Carcinoma. PMID: 25438924
  50. Lysosomal calcium signaling regulates autophagy through calcineurin and TFEB. PMID: 25720963

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Subcellular Location
Cytoplasm, cytosol. Lysosome membrane. Nucleus.; Nucleus.
Protein Families
MiT/TFE family
Database Links

HGNC: 11753

OMIM: 600744

KEGG: hsa:7942

STRING: 9606.ENSP00000230323

UniGene: Hs.485360

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