Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P02794 (ferritin)
 17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The inflammatory neuropeptide substance P acted as a costimulant for macrophage CSF-1-induced clonal proliferation of murine marrow-derived two signal-dependent mononuclear phagocyte progenitors. Substance P had no effect on clonal proliferation by progenitors responding solely to CSF-1. Substance P fragment 2-11 had no costimulatory activity; however, SP fragment 1-4 retained the full activity of the parent undecapeptide. Fragment 1-4 (ARG-PRO-LYS-PRO), a peptide containing a PRO residue between two positive charges, is a tuftsin-like (THR-LYS-PRO-ARG) tetrapeptide, and tuftsin exerted an identical costimulatory effect. Substance P, SP:1-4, and tuftsin were optimally effective as costimulants at 10(-7) to 10(-6) M. (ALA1)-tuftsin, an inhibitory analog of tuftsin, was a potent negative regulator of two signal-dependent colony formation. (ALA1)-tuftsin at concentrations less than or equal to 10(-9) M exerted dose-dependent inhibition of the positive effects of optimal concentrations of all of the co-stimulants tested, including bacterial LPS. The inhibitory tetrapeptide was equivalent in activity to ferritin, an established inhibitor of two signal-dependent colony formation. The results indicated that SP may influence myelopoiesis in addition to its other inflammatory and immunopotentiating properties. In addition, a potentially valuable modulator of SP and LPS responses in this system, (ALA1)-tuftsin, was identified.
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PMID:Substance P augmentation of CSF-1-stimulated in vitro myelopoiesis. A two-signal progenitor restricted, tuftsin-like effect. 245 23

Neurotensin, at less than or equal to 10(-9) M, in the presence of an optimal concentration of macrophage CSF (CSF-1), stimulated a dose-dependent enhancement of colony formation by murine marrow-derived mononuclear phagocyte progenitor cells. The additional colonies arose from the cell cycle and Ia Ag-positive subpopulation previously identified as two-signal-dependent progenitors. Two-signal colony formation diminished when the peptide was added at concentrations greater than 10(-9) M. Neurotensin binds specifically to two distinct receptors, a high affinity receptor (KD approximately 10(-9) M) and a lower affinity (KD approximately 10(-7) M) receptor identified as the tuftsin receptor. Rat liver ferritin and an inhibitory tuftsin analog. (ALA1)-tuftsin, which inhibit two-signal colony formation stimulated by tuftsin and tuftsin-like peptides in combination with CSF-1, did not inhibit colony formation stimulated by CSF-1 and 10(-9) M neurotensin. Both inhibitors, however, reversed the loss of two-signal colony growth in the presence of higher neurotensin concentrations. Neurotensin fragment 1-6, unlike ferritin and (ALA1)-tuftsin, inhibited two-signal colony formation stimulated by 10(-9) M neurotensin. However, like ferritin and (ALA1)-tuftsin, fragment 1-6 permitted full expression of two-signal colony formation in the presence of CSF-1 and 10(-7) M neurotensin. The data indicated that occupancy of both receptors at neurotensin concentrations greater than 10(-9) M might be responsible for the diminished progenitor response. The data further support a potential role for neurotensin as an inflammatory mediator. In addition to direct effects on mature phagocytic leukocytes, neurotensin, at least in vitro can influence the production of new mononuclear phagocytes.
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PMID:Neurotensin regulation of macrophage colony-stimulating factor-stimulated in vitro myelopoiesis. 278 14

Peptide-specific IgG from a rabbit immunized with an alanine-lysine-proline-arginine ((ALA1)-tuftsin) containing 14-mer "ferritin" peptide neutralized rat liver ferritin inhibition of in vitro CSF-1-dependent monocytopoiesis. Antiferritin IgG similarly neutralized the inhibitory effect of ferritin but did not neutralize peptide inhibition of the in vitro myelopoietic response. No cross-reactivity between the respective antibodies and Ag was detected either by Western immunoblot or by competitive ELISA. Depletion of adherent cells before marrow cell culture significantly reduced the inhibitory effect of ferritin but did not influence peptide inhibition of CSF-1-stimulated colony formation. Adherent marrow cells and P388D1 cells treated with both CSF-1 and ferritin, but not either alone, produced inhibitory supernatant culture media that were neutralized by antipeptide but not antiferritin IgG. High resolution molecular sieve chromatography of the inhibitory adherent marrow cell and P388D1 supernatants resolved two peaks of 50 to 60 kDa and approximately 30 kDa in each. The inhibitory activity in all four peaks was neutralized by antipeptide but not antiferritin IgG. The ferritin/CSF inhibitors were not further characterized although identity with IL-6, IL-8, TNF-alpha, transforming growth factor-beta, and IFN-alpha/beta could be eliminated. The results indicate that ferritin inhibition of CSF-1-dependent monocytopoiesis is mediated by an endogenously produced inhibitor, or inhibitors, that shares antigenic similarity with the (ALA1)-tuftsin-containing 14-mer peptide and that adherent marrow cells, most likely monocytes or macrophages, produce the endogenous inhibitors in response to both CSF-1 and ferritin.
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PMID:Cytokine mediation of the suppressive effect of ferritin on colony-stimulating factor-1-dependent monocytopoiesis. 849 5