EC:2.3.1.108 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.108 (TAT)
2,389 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A multiplexed, ratiometric method is described that can confidently distinguish between cancerous and noncancerous epithelial prostate cells in vitro. The technique is based on bright surface-enhanced resonance Raman scattering (SERRS) biotags (SBTs) infused with unique Raman reporter molecules, and carrying cell-specific peptides. Two sets of SBTs were used. One targets the neuropilin-1 (NRP-1) receptors of cancer cells through the RPARPAR peptide. The other functions as a positive control (PC) and binds to both noncancerous and cancer cells through the HIV-derived TAT peptide. Point-by-point 2D Raman maps of the spatial distribution of the two tags were constructed with subcellular resolution from cells simultaneously incubated with the two sets of SBTs. Averaging the SERRS signal over a given cell yielded an NRP/PC ratio from which a robust quantitative measure of the overexpression of the NRP-1 by the cancer cell line was extracted. The use of a local, on-cell reference produces quantitative, statistically robust measures of overexpression independent of such sources of uncertainty as variations in the location of the focal plane, the local cell concentration, and turbidity.
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PMID:Quantitative ratiometric discrimination between noncancerous and cancerous prostate cells based on neuropilin-1 overexpression. 2193 Sep 55

Neuropilin-1 (Nrp1) guides the development of the nervous and vascular systems, but its role in the mature brain remains to be explored. Here we report that the expression of the 65 kDa isoform of Sema3A, the ligand of Nrp1, by adult vascular endothelial cells, is regulated during the ovarian cycle and promotes axonal sprouting in hypothalamic neurons secreting gonadotropin-releasing hormone (GnRH), the neuropeptide controlling reproduction. Both the inhibition of Sema3A/Nrp1 signaling and the conditional deletion of Nrp1 in GnRH neurons counteract Sema3A-induced axonal sprouting. Furthermore, the localized intracerebral infusion of Nrp1- or Sema3A-neutralizing antibodies in vivo disrupts the ovarian cycle. Finally, the selective neutralization of endothelial-cell Sema3A signaling in adult Sema3aloxP/loxP mice by the intravenous injection of the recombinant TAT-Cre protein alters the amplitude of the preovulatory luteinizing hormone surge, likely by perturbing GnRH release into the hypothalamo-hypophyseal portal system. Our results identify a previously unknown function for 65 kDa Sema3A-Nrp1 signaling in the induction of axonal growth, and raise the possibility that endothelial cells actively participate in synaptic plasticity in specific functional domains of the adult central nervous system, thus controlling key physiological functions such as reproduction.
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PMID:Brain endothelial cells control fertility through ovarian-steroid-dependent release of semaphorin 3A. 2461 50

Cell-penetrating peptides (CPPs), also referred to as protein transduction domains (PTDs), can mediate the cellular uptake of a wide range of macromolecules including peptides, proteins, oligonucleotides, and nanoparticles, and thus have received considerable attention as a promising method for drug delivery in vivo. Here, we report that CPP/PTDs facilitate the extravasation of fused proteins by binding to neuropilin-1 (NRP1), a vascular endothelial growth factor (VEGF) co-receptor expressed on the surface of endothelial and some tumor cells. In this study, we examined the capacity of the amphipathic and cationic CPP/PTDs, PTD-3 and TAT-PTD, respectively, to bind cells in vitro and accumulate in xenograft tumors in vivo. Notably, these functions were significantly suppressed by pre-treatment with NRP1-neutralizing Ab. Furthermore, co-injection of iRGD, a cyclic peptide known to increase NRP1-dependent vascular permeability, significantly reduced CPP/PTD tumor delivery. This data demonstrates a mechanism by which NRP1 promotes the extravasation of CPP/PTDs that may open new avenues for the development of more efficient CPP/PTD delivery systems.
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PMID:Cell penetrating peptides improve tumor delivery of cargos through neuropilin-1-dependent extravasation. 2559 86

To enhance the anticancer activity, tumor penetration ability of the hybrid anticancer peptide, in this study, a TAT (RKKRRQRRR) peptide modified kla peptide (KLAKLAKKLAKLAK, with all D-amino acids), named kla-TAT, was co-administrated with the homing/penetrating peptide iRGD which could enhance the permeability of chemical drug in solid tumor and tumor vessel by co-administration. In this study, the nonsmall cell lung cancer A549 cell line with the iRGD targeting receptor neuropilin-1 high expression was selected to establish the 2D monolayer cell, 3D multiple cell spheroids, and xenograft mice model. The co-administration of iRGD strengthened the permeability of kla-TAT peptide against A549 2D and 3D sphere model with the penetration improvement property of iRGD; more importantly, co-administration with iRGD dramatically enhanced the accumulation of kla-TAT peptide in tumor tissue on the xenograft mice model with the homing property of iRGD. The co-administration of iRGD strategy confers targeting ability to the hybrid peptide kla-TAT. We believe the chemical conjugation plus co-administration approach may provide a promising way for cancer treatment in clinical practices.
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PMID:Co-administration of kla-TAT peptide and iRGD to enhance the permeability on A549 3D multiple sphere cells and accumulation on xenograft mice. 2972 79