Jeffrey M. Horn scite author profile

GM-CSF stimulates proliferation of myeloid precursors in bone marrow and primes mature leukocytes for enhanced functionality. We demonstrate that GM-CSF is a powerful chemotactic and chemokinetic agent for human neutrophils. GM-CSF-induced chemotaxis is time dependent and is specifically neutralized with Abs directed to either the ligand itself or its receptor. Maximal chemotactic response was achieved at ∼7 nM GM-CSF, and the EC50 was ∼0.9 nM. Both concentrations are similar to the effective concentrations of IL-8 and less than the effective concentrations of other neutrophil chemoattractants such as neutrophil-activating peptide-78, granulocyte chemotactic protein-2, leukotriene B4, and FMLP. GM-CSF also acts as a chemoattractant for native cells bearing the GM-CSF receptor, such as monocytes, as well as for GM-CSF receptor-bearing myeloid cell lines, HL60 (promyelomonocyte leukemic cell line) and MPD (myeloproliferative disorder cell line), following differentiation induction. GM-CSF induced a rapid, transient increase in F-actin polymerization and the formation of focal contact rings in neutrophils, which are prerequisites for cell migration. The mechanism of GM-CSF-induced chemotaxis appears to involve the cell signaling molecule, ribosomal p70 S6 kinase (p70S6K). Both p70S6K enzymatic activity and T421/S424 and T389 phosphorylation are markedly increased with GM-CSF. In addition, the p70S6K inhibitor hamartin transduced into cells as active protein, interfered with GM-CSF-dependent migration, and attenuated p70S6K phosphorylation. These data indicate that GM-CSF exhibits chemotactic functionality and suggest new avenues for the investigation of the molecular basis of chemotaxis as it relates to inflammation and tissue injury.

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Physical Interaction between Replication Protein A (RPA) and MRN: Involvement of RPA2 Phosphorylation and the N-Terminus of RPA1

Oakley

Tillison

Opiyo

et al. 2009

Biochemistry

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Replication protein A (RPA) is a heterotrimeric protein consisting of RPA1, RPA2 and RPA3 subunits that binds to ssDNA with high affinity. The response to replication stress requires the recruitment of RPA and the MRE11/RAD50/NBS1 (MRN) complex. RPA bound to ssDNA stabilizes stalled replication forks by recruiting checkpoint proteins involved in fork stabilization. MRN can bind DNA structures encountered at stalled or collapsed replication forks, such as ssDNAdsDNA junctions or breaks and promote the restart of DNA replication. Here, we demonstrate that RPA2 phosphorylation regulates the assembly of DNA damage-induced RPA and MRN foci. Using purified proteins, we observe a direct interaction between RPA with both NBS1 and MRE11. By utilizing RPA bound to ssDNA, we demonstrate that substituting RPA with phosphorylated RPA or a phosphomimetic decreases the interaction with the MRN complex. Also, the N-terminus of RPA1 is a critical component of the RPA-MRN protein-protein interaction. Deletion of the N-terminal oligonucleotide-oligosaccharide binding fold (OB-fold) of RPA1 abrogates RPA interactions with MRN and individual proteins of the MRN complex. Further identification of residues critical for MRN binding in the N-terminus of RPA1 show that substitution of Arg31 and Arg41 with alanines disrupts the RPA-MRN interaction and alters cell cycle progression in response to DNA damage. Thus, the N-terminus of RPA1 and phosphorylation of RPA2 regulate RPA-MRN interactions and are important in the response to DNA damage.

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Presence of a phospholipase D (PLD) distinct from PLD1 or PLD2 in human neutrophils: immunobiochemical characterization and initial purification

Horn

Lehman

Alter

et al. 2001

Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biolog

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Recognition of Cisplatin−DNA Interstrand Cross-Links by Replication Protein A

2008

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Replication protein A (RPA) is a heterotrimeric protein that is required for DNA replication and most DNA repair pathways. RPA has previously been shown to play a role in recognizing and binding damaged DNA during nucleotide excision repair (NER). RPA has also been suggested to play a role in psoralen DNA interstrand cross-link (ICL) repair, but a clear biochemical activity has yet to be identified in the ICL DNA repair pathways. Using HeLa cell extracts and DNA affinity chromatography, we demonstrate that RPA is preferentially retained on a cisplatin interstrand cross-link (ICL) DNA column compared with undamaged DNA. The retention of RPA on cisplatin intrastrand and ICL containing DNA affinity columns is comparable. In vitro electrophoretic mobility shift assays (EMSAs) using synthetic DNA substrates and purified RPA demonstrate higher affinity for cisplatin ICL DNA binding compared with undamaged DNA. The enhanced binding of RPA to the cisplatin ICL is dependent on the DNA length. As the DNA flanking the cisplatin ICL is increased from 7 to 21 bases, preferential RPA binding is observed. Fluorescence anisotropy reveals greater than 200-fold higher affinity to a cisplatin ICL containing 42-mer DNA compared with an undamaged DNA and a 3-4-fold higher affinity when compared with a cisplatin intrastrand damaged DNA. As the DNA length and stringency of the binding reaction increase, greater preferential binding of RPA to cisplatin ICL DNA is observed. These data are consistent with a role for RPA in the initial recognition and initiation of cisplatin ICL DNA repair.

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Jeffrey M. Horn

Granulocyte-Macrophage Colony-Stimulating Factor Is a Chemoattractant Cytokine for Human Neutrophils: Involvement of the Ribosomal p70 S6 Kinase Signaling Pathway

Physical Interaction between Replication Protein A (RPA) and MRN: Involvement of RPA2 Phosphorylation and the N-Terminus of RPA1

Presence of a phospholipase D (PLD) distinct from PLD1 or PLD2 in human neutrophils: immunobiochemical characterization and initial purification

Recognition of Cisplatin−DNA Interstrand Cross-Links by Replication Protein A

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