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Human Dkk-3 Antibody

Catalog #: AF1118
13 Citations Datasheet / COA / SDS
Catalog # Availability Size / Price Qty
AF1118
AF1118-SP
Detection of Dkk‑3 in Human Brain Hippocampus.
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Citations (13)
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Human Dkk-3 Antibody Summary

Species Reactivity
Human
Specificity
Detects human Dkk-3 in direct ELISAs. In direct ELISAs, approximately 35% cross-reactivity with recombinant mouse Dkk-3 is observed.
Source
Polyclonal Goat IgG
Purification
Antigen Affinity-purified
Immunogen
Mouse myeloma cell line NS0-derived recombinant human Dkk-3
Ala22-Ile350
Accession # Q9UBP4
Formulation
Lyophilized from a 0.2 μm filtered solution in PBS with Trehalose. *Small pack size (SP) is supplied either lyophilized or as a 0.2 µm filtered solution in PBS.
Label
Unconjugated

Applications

Recommended Concentration
Sample
ELISA

This antibody functions as an ELISA detection antibody when paired with Mouse Anti-Human Dkk‑3 Monoclonal Antibody (Catalog # MAB11181).

This product is intended for assay development on various assay platforms requiring antibody pairs.

 
Immunohistochemistry
3-15 µg/mL
immersion fixed paraffin-embedded sections of Human Brain Hippocampus

Human Dkk-3 Sandwich Immunoassay

Recommended Concentration
Reagent
 

Use in combination with:

Capture Reagent: Human Dkk‑3 Antibody (Catalog # MAB11181)

Detection Reagent: Human Dkk‑3 Biotinylated Antibody (Catalog # BAF1118)

Standard: Recombinant Human Dkk-3 Protein, CF (Catalog # 1118-DK)

Please Note: Optimal dilutions should be determined by each laboratory for each application. General Protocols are available in the Technical Information section on our website.

Scientific Data

Immunohistochemistry View Larger

Detection of Dkk‑3 in Human Brain Hippocampus. Dkk‑3 was detected in immersion fixed paraffin-embedded sections of Human Brain Hippocampus using Goat Anti-Human Dkk‑3 Antigen Affinity-purified Polyclonal Antibody (Catalog # AF1118) at 3 µg/mL for 1 hour at room temperature followed by incubation with the Anti-Goat IgG VisUCyte™ HRP Polymer Antibody (Catalog # VC004). Before incubation with the primary antibody, tissue was subjected to heat-induced epitope retrieval using VisUCyte Antigen Retrieval Reagent-Basic (Catalog # VCTS021). Tissue was stained using DAB (brown) and counterstained with hematoxylin (blue). Specific staining was localized to cytoplasm in neurons. View our protocol for IHC Staining with VisUCyte HRP Polymer Detection Reagents.

Immunohistochemistry Detection of Human Dkk-3 by Immunohistochemistry View Larger

Detection of Human Dkk-3 by Immunohistochemistry Loss of DKK3 protein expression in human breast cancer.(A) Normal mammary epithelial cells showing moderate, predominantly cytoplasmic, DKK3 immunoreactivity whereas (B) primary antibody negative control is free of signal. (C-E) Weak DKK3 protein expression is observed in breast tumor samples, with lowest intensity in IHC-defined (C) TNBC cases compared to (D) HER2-positive and (E) luminal carcinomas (representative images). (F) Box plot analysis demonstrating a significant down-regulation of DKK3 in tumors of the TNBC (n = 54), the HER2-positive (n = 47) and luminal subtype (n = 362) compared to normal breast tissues (n = 11). Horizontal lines: grouped medians. Boxes: 25-75% quartiles. Vertical lines: range, minimum and maximum. * P < 0.05, *** P < 0.001, IRS: immunoreactive score. Image collected and cropped by CiteAb from the following open publication (https://pubmed.ncbi.nlm.nih.gov/27467270), licensed under a CC-BY license. Not internally tested by R&D Systems.

Western Blot Detection of Human Dkk-3 by Western Blot View Larger

Detection of Human Dkk-3 by Western Blot Ectopic expression of DKK3 in MB231 cells disrupted Wnt signalling. (A) Subcellular localization of beta -catenin and active-beta -catenin by immunofluorescence staining. (B) Western blot analysis of beta -catenin, its downstream targets, JNK and EMT markers. (C) RT-PCR analysis of representative stem cell markers in DKK3-transfected MB231 cells. *Indicates significantly down-regulated bands. Image collected and cropped by CiteAb from the following open publication (https://pubmed.ncbi.nlm.nih.gov/23890219), licensed under a CC-BY license. Not internally tested by R&D Systems.

Immunocytochemistry/ Immunofluorescence Detection of Human Dkk-3 by Immunocytochemistry/ Immunofluorescence View Larger

Detection of Human Dkk-3 by Immunocytochemistry/ Immunofluorescence Overview of Multi-dimensional Microscopic Molecular Profiling (MMMP).The overall MMMP approach is depicted using an example tissue section from normal human duodenum (sample #1.9.7). (a) Slides were subjected to repeated cycles of staining and imaging with fluorescent primary antibodies and DAPI. At the end of each cycle, fluorescent signal was removed by a chemical bleaching process, and slides were again imaged, before proceeding to the next round of this iterative procedure. After the final antibody stain (#15 Sma), slides were analyzed with a series of histochemical stains. (b) A set of tiling images spanning each tissue section was initially generated by the microscope system. The tiling images were then computationally ‘stitched’ together to produce a single image per staining cycle for each sample. (c) Image registration was performed to align images from the same tissue section across cycles. Mean intensities of the DAPI signal from all immuno-fluorescence images are shown from before (Unregistered) and after (Registered) the image registration procedure was completed. (d) Following registration, signal intensities from the relevant channels for each image (columns) in the MMMP series were extracted for each pixel (rows) within the tissue section and compiled into a large data matrix of in situ molecular profiles. Image collected and cropped by CiteAb from the following open publication (https://dx.plos.org/10.1371/journal.pone.0128975), licensed under a CC-BY license. Not internally tested by R&D Systems.

Immunohistochemistry Detection of Human Dkk-3 by Immunohistochemistry View Larger

Detection of Human Dkk-3 by Immunohistochemistry Loss of DKK3 protein expression in human breast cancer.(A) Normal mammary epithelial cells showing moderate, predominantly cytoplasmic, DKK3 immunoreactivity whereas (B) primary antibody negative control is free of signal. (C-E) Weak DKK3 protein expression is observed in breast tumor samples, with lowest intensity in IHC-defined (C) TNBC cases compared to (D) HER2-positive and (E) luminal carcinomas (representative images). (F) Box plot analysis demonstrating a significant down-regulation of DKK3 in tumors of the TNBC (n = 54), the HER2-positive (n = 47) and luminal subtype (n = 362) compared to normal breast tissues (n = 11). Horizontal lines: grouped medians. Boxes: 25-75% quartiles. Vertical lines: range, minimum and maximum. * P < 0.05, *** P < 0.001, IRS: immunoreactive score. Image collected and cropped by CiteAb from the following open publication (https://pubmed.ncbi.nlm.nih.gov/27467270), licensed under a CC-BY license. Not internally tested by R&D Systems.

Western Blot Detection of Human Dkk-3 by Western Blot View Larger

Detection of Human Dkk-3 by Western Blot Stable DKK3 re-expression reduces cell growth of basal-like but not luminal-like breast cancer cell lines.(A) Re-expression of DKK3 protein as well as secretion of DKK3 was detected by western blot. Western blot analysis was performed on total cell lysates and corresponding cell culture supernatants of three stably transfected MDA-MB-436, MDA-MB-231, MDA-MB-453 and MCF-7 DKK3 and mock clones respectively. beta -actin served as a loading control. (B) All western blots depicted in A were evaluated densitometrically. In concordance, mock clones were negative for DKK3 protein whereas expression was elevated in total cell lysates of DKK3 clones. Moreover, a strong secretion of DKK3 into the cell culture supernatant could only be detected in DKK3 clones. The identical clones were used for the following functional assays. (C-D) Re-expression of DKK3 significantly reduced cell growth in basal-like (C, MDA-MB-436 and MDA-MB-231) but not luminal-like breast cancer cell lines (D, MDA-MB-453 and MCF-7). Box plots demonstrate the median cell number after 96 h cell growth of triplicate experiments. Cell growth suppression was possibly mediated by a DKK3-induced apoptosis, which was much more pronounced in breast cancer cell lines of the basal (E) than of the luminal subtype (F). Box plots demonstrate the median apoptosis rate of triplicate experiments. Horizontal lines: grouped medians. Boxes: 25-75% quartiles. Vertical lines: range, minimum and maximum. ns: not significant, * P < 0.05, ** P < 0.01, *** P < 0.001. Image collected and cropped by CiteAb from the following open publication (https://pubmed.ncbi.nlm.nih.gov/27467270), licensed under a CC-BY license. Not internally tested by R&D Systems.

Immunohistochemistry Detection of Human Dkk-3 by Immunohistochemistry View Larger

Detection of Human Dkk-3 by Immunohistochemistry Loss of DKK3 protein expression in human breast cancer.(A) Normal mammary epithelial cells showing moderate, predominantly cytoplasmic, DKK3 immunoreactivity whereas (B) primary antibody negative control is free of signal. (C-E) Weak DKK3 protein expression is observed in breast tumor samples, with lowest intensity in IHC-defined (C) TNBC cases compared to (D) HER2-positive and (E) luminal carcinomas (representative images). (F) Box plot analysis demonstrating a significant down-regulation of DKK3 in tumors of the TNBC (n = 54), the HER2-positive (n = 47) and luminal subtype (n = 362) compared to normal breast tissues (n = 11). Horizontal lines: grouped medians. Boxes: 25-75% quartiles. Vertical lines: range, minimum and maximum. * P < 0.05, *** P < 0.001, IRS: immunoreactive score. Image collected and cropped by CiteAb from the following open publication (https://pubmed.ncbi.nlm.nih.gov/27467270), licensed under a CC-BY license. Not internally tested by R&D Systems.

Western Blot Detection of Human Dkk-3 by Western Blot View Larger

Detection of Human Dkk-3 by Western Blot Ectopic expression of DKK3 in MB231 cells disrupted Wnt signalling. (A) Subcellular localization of beta -catenin and active-beta -catenin by immunofluorescence staining. (B) Western blot analysis of beta -catenin, its downstream targets, JNK and EMT markers. (C) RT-PCR analysis of representative stem cell markers in DKK3-transfected MB231 cells. *Indicates significantly down-regulated bands. Image collected and cropped by CiteAb from the following open publication (https://pubmed.ncbi.nlm.nih.gov/23890219), licensed under a CC-BY license. Not internally tested by R&D Systems.

Reconstitution Calculator

Reconstitution Calculator

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Preparation and Storage

Reconstitution
Reconstitute at 0.2 mg/mL in sterile PBS.
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Shipping
Lyophilized product is shipped at ambient temperature. Liquid small pack size (-SP) is shipped with polar packs. Upon receipt, store immediately at the temperature recommended below.
Stability & Storage
Use a manual defrost freezer and avoid repeated freeze-thaw cycles.
  • 12 months from date of receipt, -20 to -70 °C as supplied.
  • 1 month, 2 to 8 °C under sterile conditions after reconstitution.
  • 6 months, -20 to -70 °C under sterile conditions after reconstitution.

Background: Dkk-3

Dkk-3, also known as REIC (Reduced Expansion in Immortalized Cells), is one of four numbered members of the Dickkopf family of Wnt antagonists (1). Dkk-3 is a secreted monomer expressed in many normal human tissues, most strongly in heart, brain and spinal cord (1, 2), and during early embryonic development in the mouse (3). N-glycosylation at up to four sites preceding or between two conserved cysteine-rich motifs results in expression of a 38 kDa glycoprotein (1, 4). The cysteine-rich motifs contain 10 cysteines each, with prokineticin and colipase families containing sequences similar to those of the second motif (1, 5). Human Dkk-3 shows 82%, 88%, 85%, and 53% amino acid (aa) identity with mouse, bovine, canine, and chick Dkk-3, respectively, and 37-45% aa identity with other human Dkk family members. Several lines of evidence implicate Dkk-3 as a negative growth regulator. Dkk-3 is downregulated in many tumors as compared to normal cells, sometimes by loss of heterozygosity (4, 6). Downregulation by CpG hypermethylation in acute lymphoblastic leukemia is correlated with faster progression and shorter survival (7). Release of cultured cells from serum starvation results in downregulation of Dkk-3 in late G1 phase of the cell cycle (6). Over-expression of
Dkk‑3 results in tumor cell-line-specific growth inhibition, induction of apoptosis, and decreased tumorigenicity in nude mice (2, 4, 6). The prototype Dickkopf member, Dkk-1, antagonizes Wnt family signaling by binding to Wnt receptors LRP5 and LRP6 (low-density lipoprotein receptor-related proteins) and promoting their internalization (1, 9, 10). Results are less straightforward for Dkk-3, where some studies show binding to LRP5/6 while others do not. These effects appear to be dependent on the cells and conditions used (1, 6-10).

References
  1. Krupnik, V.E. et al. (1999) Gene 238:301.
  2. Tsuji, T. et al. (2000) Biochem. Biophys. Res. Comm. 268:20.
  3. Kemp, C. et al. (2005) Dev. Dyn. 233:1064.
  4. Hsieh, S.-Y. et al. (2004) Oncogene 23:9183.
  5. Bullock, C.M. et al. (2004) Mol. Pharmacol. 65:582.
  6. Tsuji, T. et al. (2001) Biochem. Biophys. Res. Comm. 289:257.
  7. Roman-Gomez, J. et al. (2004) Br. J. Cancer 91:707.
  8. Hoang, B.H. et al. (2004) Cancer Res. 64:2734.
  9. Caricasole, A. et al. (2003) J. Biol. Chem. 278:37024.
  10. Mao, B. et al. (2001) Nature 411:321.
Long Name
Dickkopf-3
Entrez Gene IDs
27122 (Human); 50781 (Mouse)
Alternate Names
dickkopf (Xenopus laevis) homolog 3; dickkopf 3; dickkopf homolog 3 (Xenopus laevis); Dickkopf-3; dickkopf-related protein 3; Dkk3; Dkk-3; hDkk-3; regulated in glioma; REIC; REICdkk-3; RIG; RIG-like 5-6; RIG-like 7-1

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Citations for Human Dkk-3 Antibody

R&D Systems personnel manually curate a database that contains references using R&D Systems products. The data collected includes not only links to publications in PubMed, but also provides information about sample types, species, and experimental conditions.

13 Citations: Showing 1 - 10
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  1. Tumor necrosis factor-? downregulates the REIC/Dkk-3 tumor suppressor gene in normal human skin keratinocytes
    Authors: K Kataoka, N Maehara, Y Ayabe, H Murata, NH Huh, M Sakaguchi
    Mol Med Rep, 2018-03-05;0(0):.
  2. Downregulation of Dickkopf-3, a Wnt antagonist elevated in Alzheimer's disease, restores synapse integrity and memory in a disease mouse model
    Authors: Martin Flores, N;Podpolny, M;McLeod, F;Workman, I;Crawford, K;Ivanov, D;Leonenko, G;Escott-Price, V;Salinas, PC;
    eLife
    Species: Human, Mouse
    Sample Types: Cell Culture Supernates
    Applications: Western Blot
  3. DKK3, Downregulated in Invasive Epithelial Ovarian Cancer, Is Associated with Chemoresistance and Enhanced Paclitaxel Susceptibility via Inhibition of the beta-Catenin-P-Glycoprotein Signaling Pathway
    Authors: QTT Nguyen, HS Park, TJ Lee, KM Choi, JY Park, D Kim, JH Kim, J Park, EJ Lee
    Cancers, 2022-02-12;14(4):.
    Species: Human
    Sample Types: Whole Cells
    Applications: IHC
  4. Fatty acid binding protein 4 (FABP4) overexpression in intratumoral hepatic stellate cells within hepatocellular carcinoma with metabolic risk factors
    Authors: N Chiyonobu, S Shimada, Y Akiyama, K Mogushi, M Itoh, K Akahoshi, S Matsumura, K Ogawa, H Ono, Y Mitsunori, D Ban, A Kudo, S Arii, T Suganami, S Yamaoka, Y Ogawa, M Tanabe, S Tanaka
    Am. J. Pathol., 2018-02-16;0(0):.
    Species: Human
    Sample Types: Whole Tissue
    Applications: IHC-P
  5. Loss of Dickkopf 3 Promotes the Tumorigenesis of Basal Breast Cancer
    PLoS ONE, 2016-07-28;11(7):e0160077.
    Species: Human
    Sample Types: Cell Lysates, Whole Tissue
    Applications: IHC-P, Western Blot
  6. Automated Analysis and Classification of Histological Tissue Features by Multi-Dimensional Microscopic Molecular Profiling.
    Authors: Riordan D, Varma S, West R, Brown P
    PLoS ONE, 2015-07-15;10(7):e0128975.
    Species: Human
    Sample Types: Whole Tissue
    Applications: IHC-P
  7. Epigenetic silencing of the WNT antagonist Dickkopf 3 disrupts normal Wnt/beta-catenin signalling and apoptosis regulation in breast cancer cells.
    Authors: Xiang T, Li L, Yin X, Zhong L, Peng W, Qiu Z, Ren G, Tao Q
    J Cell Mol Med, 2013-07-24;17(10):1236-46.
    Species: Human
    Sample Types: Cell Lysates
    Applications: Western Blot
  8. The clinicopathological significance of REIC expression in colorectal carcinomas.
    Authors: Wang W, Zhu W, Xu XY
    Histol. Histopathol., 2012-06-01;27(6):735-43.
    Species: Human
    Sample Types: Tissue Homogenates, Whole Tissue
    Applications: IHC-P, Western Blot
  9. Elevated levels of Dickkopf-related protein 3 in seminal plasma of prostate cancer patients
    Authors: Christoph Zenzmaier, Martin Heitz, Helmut Klocker, Marion Buck, Robert A Gardiner, Peter Berger
    Journal of Translational Medicine
  10. Expression pattern of REIC/Dkk-3 in various cell types and the implications of the soluble form in prostatic acinar development.
    Authors: Zhang K, Watanabe M, Kashiwakura Y, Li SA, Edamura K, Huang P, Yamaguchi K, Nasu Y, Kobayashi Y, Sakaguchi M, Ochiai K, Yamada H, Takei K, Ueki H, Huh NH, Li M, Kaku H, Na Y, Kumon H
    Int. J. Oncol., 2010-12-01;37(6):1495-501.
    Species: Human
    Sample Types: Whole Cells
    Applications: ICC
  11. The fibroblast-derived paracrine factor neuregulin-1 has a novel role in regulating the constitutive color and melanocyte function in human skin.
    Authors: Choi W, Wolber R, Gerwat W
    J. Cell. Sci., 2010-08-24;123(0):3102-11.
    Species: Human
    Sample Types: Cell Lysates
    Applications: Western Blot
  12. Regulation of human skin pigmentation in situ by repetitive UV exposure: molecular characterization of responses to UVA and/or UVB.
    Authors: Choi W, Miyamura Y, Wolber R, Smuda C, Reinhold W, Liu H, Kolbe L, Hearing VJ
    J. Invest. Dermatol., 2010-02-11;130(6):1685-96.
    Species: Human
    Sample Types: Whole Tissue
    Applications: IHC-P
  13. The Dickkopf-homolog 3 is expressed in tumor endothelial cells and supports capillary formation.
    Authors: Untergasser G, Steurer M, Zimmermann M, Hermann M, Kern J, Amberger A, Gastl G, Gunsilius E
    Int. J. Cancer, 2008-04-01;122(7):1539-47.
    Species: Human
    Sample Types: Whole Cells, Whole Tissue
    Applications: ICC, IHC-P

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