This is a Validated Antibody Database (VAD) review about human NSE, based on 38 published articles (read how Labome selects the articles), using NSE antibody in all methods. It is aimed to help Labome visitors find the most suited NSE antibody. Please note the number of articles fluctuates since newly identified citations are added and citations for discontinued catalog numbers are removed regularly.
NSE synonym: HEL-S-279; NSE

Abcam
domestic rabbit monoclonal (EPR12483)
  • western blot; human; loading ...; fig 3b, s3e
Abcam NSE antibody (Abcam, ab180943) was used in western blot on human samples (fig 3b, s3e). J Exp Clin Cancer Res (2022) ncbi
domestic rabbit polyclonal
  • western blot; mouse; 1:500; loading ...; fig 5
Abcam NSE antibody (Abcam, ab53025) was used in western blot on mouse samples at 1:500 (fig 5). elife (2020) ncbi
domestic rabbit monoclonal (EPR3377)
  • immunohistochemistry - paraffin section; dogs; 1:200; loading ...; fig 11
Abcam NSE antibody (Abcam, ab79757) was used in immunohistochemistry - paraffin section on dogs samples at 1:200 (fig 11). BMC Vet Res (2019) ncbi
domestic rabbit polyclonal
  • immunocytochemistry; human; 1:2000; loading ...; fig 2a
Abcam NSE antibody (Abcam, ab53025) was used in immunocytochemistry on human samples at 1:2000 (fig 2a). J Cell Biochem (2019) ncbi
Santa Cruz Biotechnology
mouse monoclonal (NSE-P1)
  • immunocytochemistry; human; loading ...; fig 5c
Santa Cruz Biotechnology NSE antibody (Santa Cruz, sc-21738) was used in immunocytochemistry on human samples (fig 5c). Adipocyte (2019) ncbi
mouse monoclonal (A-5)
  • western blot; human; 1:1000; loading ...; fig 1
Santa Cruz Biotechnology NSE antibody (SantaCruz, A5) was used in western blot on human samples at 1:1000 (fig 1). Proteomes (2017) ncbi
mouse monoclonal
  • western blot; human; 1:1000; loading ...; fig 1
Santa Cruz Biotechnology NSE antibody (SantaCruz, A5) was used in western blot on human samples at 1:1000 (fig 1). Proteomes (2017) ncbi
mouse monoclonal (A-5)
  • western blot; mouse; 1:1000; loading ...; fig 1b, 1n, 1o
  • western blot; human; 1:1000; loading ...; fig 1d
Santa Cruz Biotechnology NSE antibody (Santa Cruz, sc271384) was used in western blot on mouse samples at 1:1000 (fig 1b, 1n, 1o) and in western blot on human samples at 1:1000 (fig 1d). Sci Rep (2017) ncbi
Invitrogen
domestic rabbit polyclonal
  • immunohistochemistry - paraffin section; rat; loading ...; fig 4d
In order to test the effect of honey in a rat model of ulcerative colitis, Invitrogen NSE antibody (Lab Vision, PA1-46203) was used in immunohistochemistry - paraffin section on rat samples (fig 4d). Acta Histochem (2016) ncbi
domestic rabbit polyclonal
  • immunohistochemistry; mouse; 1:500; fig 4
In order to evaluate the antitumor activity of the pan-HDAC inhibitor, panobinostat, in mice, Invitrogen NSE antibody (Thermo Scientific, PA5-27452) was used in immunohistochemistry on mouse samples at 1:500 (fig 4). Int J Cancer (2016) ncbi
Novus Biologicals
domestic rabbit polyclonal
  • immunocytochemistry; human; 1:300; loading ...; fig 3e
Novus Biologicals NSE antibody (Novus, NB110-58870) was used in immunocytochemistry on human samples at 1:300 (fig 3e). Mol Biol Cell (2022) ncbi
domestic rabbit polyclonal
  • immunohistochemistry; human; fig 3c
Novus Biologicals NSE antibody (Novus Biologicals, NB110-58870) was used in immunohistochemistry on human samples (fig 3c). Cancer Res (2018) ncbi
Dako
mouse monoclonal (BBS/NC/VI-H14)
  • western blot; mouse; loading ...; fig 2
Dako NSE antibody (Dako, BBS/NC/VI-H14) was used in western blot on mouse samples (fig 2). Front Cell Dev Biol (2021) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • western blot; Japanese rice fish; 1:500; loading ...; fig 4a
Dako NSE antibody (DAKO, M0873) was used in western blot on Japanese rice fish samples at 1:500 (fig 4a). Mol Brain (2021) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry; mouse; loading ...
Dako NSE antibody (Dako-Agilent, BBS/NC/VI-H14) was used in immunohistochemistry on mouse samples . Diagnostics (Basel) (2020) ncbi
mouse monoclonal (BBS/NC/VI-H14)
Dako NSE antibody (DAKO, M0873) was used . Sci Rep (2020) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry; human; loading ...; fig 4b
Dako NSE antibody (Dako, BBS/NC/VI-H14) was used in immunohistochemistry on human samples (fig 4b). Medicine (Baltimore) (2020) ncbi
mouse monoclonal (BBS/NC/VI-H14)
Dako NSE antibody (DAKO, M0873) was used . Cells (2020) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry - paraffin section; mouse; 1:1000; loading ...; fig 3s1f
Dako NSE antibody (Dako, M087329) was used in immunohistochemistry - paraffin section on mouse samples at 1:1000 (fig 3s1f). elife (2019) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • western blot; human; loading ...; fig 1c
In order to elucidate the regulation of PHF8 and KDM3A during neuroendocrine differentiation and castration-resistant prostate cancer, Dako NSE antibody (DAKO, M0873) was used in western blot on human samples (fig 1c). Oncotarget (2016) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • western blot; human; fig 2
Dako NSE antibody (Dako, BBS/NC/VI-H14) was used in western blot on human samples (fig 2). Acta Neuropathol Commun (2016) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry - paraffin section; human; 1:200; fig 7
Dako NSE antibody (Dako, M0873) was used in immunohistochemistry - paraffin section on human samples at 1:200 (fig 7). Eur J Histochem (2016) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • western blot; Japanese rice fish; 1:500; fig 3
Dako NSE antibody (DAKO, M0873) was used in western blot on Japanese rice fish samples at 1:500 (fig 3). PLoS Genet (2015) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry - paraffin section; black ferret; 1:100; tbl 3
In order to use of ferrets to characterize immunohistochemical and histochemical levels of chordoma, Dako NSE antibody (Dakopatts, BBS/NC/VI-H14) was used in immunohistochemistry - paraffin section on black ferret samples at 1:100 (tbl 3). J Vet Med Sci (2015) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry - paraffin section; cat; 1:400; fig 2
Dako NSE antibody (Dako, bbs/nc/vi-h14) was used in immunohistochemistry - paraffin section on cat samples at 1:400 (fig 2). Vet J (2014) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry - free floating section; human; 1:100
Dako NSE antibody (Dako, M0873) was used in immunohistochemistry - free floating section on human samples at 1:100. Brain (2014) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry; human; 1:50
In order to identify tissue origin of the granular cell tumor using immunohistochemistry, Dako NSE antibody (Dako, BBS/NC/VI-H14) was used in immunohistochemistry on human samples at 1:50. Arch Dermatol Res (2015) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry - paraffin section; African green monkey; 1:500; loading ...; fig 2b
Dako NSE antibody (DAKO, M 873) was used in immunohistochemistry - paraffin section on African green monkey samples at 1:500 (fig 2b). Anat Rec (Hoboken) (2015) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry; human; fig 1
In order to study the distribution of ASIC2 in human mechanosensory systems, Dako NSE antibody (Dako, BBS/NC/VI-H14) was used in immunohistochemistry on human samples (fig 1). Histochem Cell Biol (2015) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunocytochemistry; human; 1:200
Dako NSE antibody (DakoCytomation, M087329) was used in immunocytochemistry on human samples at 1:200. Acta Naturae (2014) ncbi
mouse monoclonal (BBS/NC/VI-H14)
  • immunohistochemistry; human; 1:100
In order to describe histological features of a tumor from a patient with pleuropulmonary blastoma, Dako NSE antibody (Dako, BBS/NC/VI-H14) was used in immunohistochemistry on human samples at 1:100. Fetal Pediatr Pathol (2014) ncbi
Cell Signaling Technology
domestic rabbit polyclonal
  • immunohistochemistry - paraffin section; human; loading ...; fig 8a
  • western blot; human; loading ...; fig 6i
Cell Signaling Technology NSE antibody (Cell Signaling, 9536) was used in immunohistochemistry - paraffin section on human samples (fig 8a) and in western blot on human samples (fig 6i). Theranostics (2021) ncbi
domestic rabbit monoclonal (D20H2)
  • western blot; human; loading ...; fig 2c
Cell Signaling Technology NSE antibody (CST, 8171) was used in western blot on human samples (fig 2c). Transl Oncol (2021) ncbi
domestic rabbit monoclonal (D20H2)
  • western blot; human; loading ...; fig 1d
Cell Signaling Technology NSE antibody (CST, D20H2) was used in western blot on human samples (fig 1d). Nature (2020) ncbi
domestic rabbit monoclonal (D20H2)
  • western blot; mouse; loading ...
Cell Signaling Technology NSE antibody (Cell Signaling, 8171) was used in western blot on mouse samples . Mol Syst Biol (2017) ncbi
domestic rabbit polyclonal
  • western blot; human; 1:1000; fig 2
In order to create and assess the potential use of Adpa manganese as an antitumor agent, Cell Signaling Technology NSE antibody (Cell Signaling, 9536) was used in western blot on human samples at 1:1000 (fig 2). Mol Med Rep (2016) ncbi
domestic rabbit monoclonal (D20H2)
  • western blot; human; 1:1000; fig 4g
  • western blot; mouse; 1:1000; fig 6l
Cell Signaling Technology NSE antibody (Cell Signaling Technology, 8171) was used in western blot on human samples at 1:1000 (fig 4g) and in western blot on mouse samples at 1:1000 (fig 6l). FASEB J (2016) ncbi
Leica Biosystems
monoclonal (22C9)
  • immunohistochemistry - paraffin section; human
In order to describe an unusual case of a recurrent dural neoplasm, Leica Biosystems NSE antibody (Novocastra, 22C9) was used in immunohistochemistry - paraffin section on human samples . Hum Pathol (2015) ncbi
monoclonal
  • immunohistochemistry - paraffin section; human; 1:800
In order to screen a panel of 33 proteins to establish a set of biomarkers that predict the agressiveness of prostate cancer, Leica Biosystems NSE antibody (Leica, NCL-L-NSE2) was used in immunohistochemistry - paraffin section on human samples at 1:800. BMC Cancer (2014) ncbi
Articles Reviewed
  1. Powers R, Daza R, Koehler A, Courchet J, Calabrese B, Hevner R, et al. Growth cone macropinocytosis of neurotrophin receptor and neuritogenesis are regulated by neuron navigator 1. Mol Biol Cell. 2022;33:ar64 pubmed publisher
  2. Ma L, Xue X, Zhang X, Yu K, Xu X, Tian X, et al. The essential roles of m6A RNA modification to stimulate ENO1-dependent glycolysis and tumorigenesis in lung adenocarcinoma. J Exp Clin Cancer Res. 2022;41:36 pubmed publisher
  3. Yoneshige A, Hagiyama M, Takashima Y, Ueno S, Inoue T, Kimura R, et al. Elevated Hydrostatic Pressure Causes Retinal Degeneration Through Upregulating Lipocalin-2. Front Cell Dev Biol. 2021;9:664327 pubmed publisher
  4. Nakanishi E, Uemura N, Akiyama H, Kinoshita M, Masanori S, Taruno Y, et al. Impact of Gba2 on neuronopathic Gaucher's disease and α-synuclein accumulation in medaka (Oryzias latipes). Mol Brain. 2021;14:80 pubmed publisher
  5. Zhang C, Chen L, Liu Y, Huang J, Liu A, Xu Y, et al. Downregulated METTL14 accumulates BPTF that reinforces super-enhancers and distal lung metastasis via glycolytic reprogramming in renal cell carcinoma. Theranostics. 2021;11:3676-3693 pubmed publisher
  6. Zha Z, Li D, Zhang P, Wang P, Fang X, Liu X, et al. Neuron specific enolase promotes tumor metastasis by activating the Wnt/β-catenin pathway in small cell lung cancer. Transl Oncol. 2021;14:101039 pubmed publisher
  7. Waszczykowska A, Zmysłowska A, Braun M, Ivask M, Koks S, Jurowski P, et al. Multiple Retinal Anomalies in Wfs1-Deficient Mice. Diagnostics (Basel). 2020;10: pubmed publisher
  8. De Vreese S, André M, Cozzi B, Centelleghe C, van der Schaar M, Mazzariol S. Morphological Evidence for the Sensitivity of the Ear Canal of Odontocetes as shown by Immunohistochemistry and Transmission Electron Microscopy. Sci Rep. 2020;10:4191 pubmed publisher
  9. Park J, Burckhardt C, Lazcano R, Solis L, Isogai T, Li L, et al. Mechanical regulation of glycolysis via cytoskeleton architecture. Nature. 2020;578:621-626 pubmed publisher
  10. Li D, Zhu R, Zhou L, Zhong D. Clinical, histopathologic, subtype, and immunohistochemical analysis of jaw phosphaturic mesenchymal tumors. Medicine (Baltimore). 2020;99:e19090 pubmed publisher
  11. Adhikaree J, Moreno Vicente J, Kaur A, Jackson A, Patel P. Resistance Mechanisms and Barriers to Successful Immunotherapy for Treating Glioblastoma. Cells. 2020;9: pubmed publisher
  12. Evans H, Bodea L, Götz J. Cell-specific non-canonical amino acid labelling identifies changes in the de novo proteome during memory formation. elife. 2020;9: pubmed publisher
  13. Radhakrishnan S, Trentz O, Reddy M, Rela M, Kandasamy M, Sellathamby S. In vitro transdifferentiation of human adipose tissue-derived stem cells to neural lineage cells - a stage-specific incidence. Adipocyte. 2019;8:164-177 pubmed publisher
  14. Lodge E, Santambrogio A, Russell J, Xekouki P, Jacques T, Johnson R, et al. Homeostatic and tumourigenic activity of SOX2+ pituitary stem cells is controlled by the LATS/YAP/TAZ cascade. elife. 2019;8: pubmed publisher
  15. Morales Miranda A. Congenital intestinal stenosis and Hirschsprung's disease: two extremely rare pathologies in a newborn puppy. BMC Vet Res. 2019;15:92 pubmed publisher
  16. Bai Y, Shen W, Zhu M, Zhang L, Wei Y, Tang H, et al. Combined detection of estrogen and tumor markers is an important reference factor in the diagnosis and prognosis of lung cancer. J Cell Biochem. 2019;120:105-114 pubmed publisher
  17. Jung Y, Cackowski F, Yumoto K, Decker A, Wang J, Kim J, et al. CXCL12γ Promotes Metastatic Castration-Resistant Prostate Cancer by Inducing Cancer Stem Cell and Neuroendocrine Phenotypes. Cancer Res. 2018;78:2026-2039 pubmed publisher
  18. Pucci Minafra I, Di Cara G, Musso R, Cancemi P, Albanese N, Roz E, et al. Retrospective Proteomic Screening of 100 Breast Cancer Tissues. Proteomes. 2017;5: pubmed publisher
  19. Cho H, Um J, Lee J, Kim W, Kang W, Kim S, et al. ENOblock, a unique small molecule inhibitor of the non-glycolytic functions of enolase, alleviates the symptoms of type 2 diabetes. Sci Rep. 2017;7:44186 pubmed publisher
  20. Graham N, Minasyan A, Lomova A, Cass A, Balanis N, Friedman M, et al. Recurrent patterns of DNA copy number alterations in tumors reflect metabolic selection pressures. Mol Syst Biol. 2017;13:914 pubmed publisher
  21. Maina P, Shao P, Liu Q, Fazli L, Tyler S, Nasir M, et al. c-MYC drives histone demethylase PHF8 during neuroendocrine differentiation and in castration-resistant prostate cancer. Oncotarget. 2016;7:75585-75602 pubmed publisher
  22. Geng J, Li J, Huang T, Zhao K, Chen Q, Guo W, et al. A novel manganese complex selectively induces malignant glioma cell death by targeting mitochondria. Mol Med Rep. 2016;14:1970-8 pubmed publisher
  23. Nooh H, Nour Eldien N. The dual anti-inflammatory and antioxidant activities of natural honey promote cell proliferation and neural regeneration in a rat model of colitis. Acta Histochem. 2016;118:588-595 pubmed publisher
  24. Kurbatskaya K, Phillips E, Croft C, Dentoni G, Hughes M, Wade M, et al. Upregulation of calpain activity precedes tau phosphorylation and loss of synaptic proteins in Alzheimer's disease brain. Acta Neuropathol Commun. 2016;4:34 pubmed publisher
  25. Vinci L, Ravarino A, Fanos V, Naccarato A, Senes G, Gerosa C, et al. Immunohistochemical markers of neural progenitor cells in the early embryonic human cerebral cortex. Eur J Histochem. 2016;60:2563 pubmed publisher
  26. Waldeck K, Cullinane C, Ardley K, Shortt J, Martin B, Tothill R, et al. Long term, continuous exposure to panobinostat induces terminal differentiation and long term survival in the TH-MYCN neuroblastoma mouse model. Int J Cancer. 2016;139:194-204 pubmed publisher
  27. Sharma B, Kolhe R, Black S, Keller J, Mivechi N, Satyanarayana A. Inhibitor of differentiation 1 transcription factor promotes metabolic reprogramming in hepatocellular carcinoma cells. FASEB J. 2016;30:262-75 pubmed publisher
  28. Miracco C, Toscano M, Butorano M, Baldino G, Tacchini D, Barone A, et al. Unusual clear cell, lymphoplasmacyte-rich, dural-based tumor with divergent differentiation: a tricky case mimicking a meningioma. Hum Pathol. 2015;46:1050-6 pubmed publisher
  29. Uemura N, Koike M, Ansai S, Kinoshita M, Ishikawa Fujiwara T, Matsui H, et al. Viable neuronopathic Gaucher disease model in Medaka (Oryzias latipes) displays axonal accumulation of alpha-synuclein. PLoS Genet. 2015;11:e1005065 pubmed publisher
  30. Yui T, Ohmachi T, Matsuda K, Okamoto M, Taniyama H. Histochemical and immunohistochemical characterization of chordoma in ferrets. J Vet Med Sci. 2015;77:467-73 pubmed publisher
  31. van Sprundel R, van den Ingh T, Guscetti F, Kershaw O, van Wolferen M, Rothuizen J, et al. Classification of primary hepatic tumours in the cat. Vet J. 2014;202:255-66 pubmed publisher
  32. Yang D, Stavrides P, Saito M, Kumar A, Rodriguez Navarro J, Pawlik M, et al. Defective macroautophagic turnover of brain lipids in the TgCRND8 Alzheimer mouse model: prevention by correcting lysosomal proteolytic deficits. Brain. 2014;137:3300-18 pubmed publisher
  33. Gurzu S, Ciortea D, Tamasi A, Golea M, Bodi A, Sahlean D, et al. The immunohistochemical profile of granular cell (Abrikossoff) tumor suggests an endomesenchymal origin. Arch Dermatol Res. 2015;307:151-7 pubmed publisher
  34. Cabo R, Alonso P, San José I, Vázquez G, Pastor J, Germanà A, et al. Brain-derived neurotrofic factor and its receptor TrkB are present, but segregated, within mature cutaneous Pacinian corpuscles of Macaca fascicularis. Anat Rec (Hoboken). 2015;298:624-9 pubmed publisher
  35. Cabo R, Alonso P, Viña E, Vázquez G, Gago A, Feito J, et al. ASIC2 is present in human mechanosensory neurons of the dorsal root ganglia and in mechanoreceptors of the glabrous skin. Histochem Cell Biol. 2015;143:267-76 pubmed publisher
  36. Muchkaeva I, Dashinimaev E, Artyuhov A, Myagkova E, Vorotelyak E, Yegorov Y, et al. Generation of iPS Cells from Human Hair Follice Dermal Papilla Cells. Acta Naturae. 2014;6:45-53 pubmed
  37. Rizzardi A, Rosener N, Koopmeiners J, Isaksson Vogel R, Metzger G, Forster C, et al. Evaluation of protein biomarkers of prostate cancer aggressiveness. BMC Cancer. 2014;14:244 pubmed publisher
  38. Yu L, Cheng H, Yang S. Clinicopathological and extensive immunohistochemical study of a type II pleuropulmonary blastoma. Fetal Pediatr Pathol. 2014;33:1-8 pubmed publisher