Standout Papers
- Exposure of phosphatidylserine on the surface of apoptotic lymphocytes triggers specific recognition and removal by macrophages (1992)
- Macrophages that have ingested apoptotic cells in vitro inhibit proinflammatory cytokine production through autocrine/paracrine mechanisms involving TGF-beta, PGE2, and PAF. (1998)
- A receptor for phosphatidylserine-specific clearance of apoptotic cells (2000)
- Cell-Surface Calreticulin Initiates Clearance of Viable or Apoptotic Cells through trans-Activation of LRP on the Phagocyte (2005)
- LEUKOCYTE-DEPENDENT HISTAMINE RELEASE FROM RABBIT PLATELETS (1972)
- Phosphatidylserine-dependent ingestion of apoptotic cells promotes TGF-β1 secretion and the resolution of inflammation (2002)
- C1q and Mannose Binding Lectin Engagement of Cell Surface Calreticulin and Cd91 Initiates Macropinocytosis and Uptake of Apoptotic Cells (2001)
- Phagocyte recognition of cells undergoing apoptosis (1993)
- Phosphatidylserine-dependent ingestion of apoptotic cells promotes TGF-β1 secretion and the resolution of inflammation (2002)
- Monocyte differentiation and antigen-presenting functions (2017)
- The role of phosphatidylserine in recognition of apoptotic cells by phagocytes (1998)
- Tissue injury in inflammation. Oxidants, proteinases, and cationic proteins. (1987)
- A Hierarchical Role for Classical Pathway Complement Proteins in the Clearance of Apoptotic Cells in Vivo (2000)
- Minimal Differentiation of Classical Monocytes as They Survey Steady-State Tissues and Transport Antigen to Lymph Nodes (2013)
- Resolution of Lung Inflammation by CD44 (2002)
- By Binding SIRPα or Calreticulin/CD91, Lung Collectins Act as Dual Function Surveillance Molecules to Suppress or Enhance Inflammation (2003)
- Loss of Phospholipid Asymmetry and Surface Exposure of Phosphatidylserine Is Required for Phagocytosis of Apoptotic Cells by Macrophages and Fibroblasts (2001)
- Priming of neutrophils for enhanced release of oxygen metabolites by bacterial lipopolysaccharide. Evidence for increased activity of the superoxide-producing enzyme. (1984)
- Different populations of macrophages use either the vitronectin receptor or the phosphatidylserine receptor to recognize and remove apoptotic cells (1992)
- Chemotactic response to human C3a and C5a anaphylatoxins. I. Evaluation of C3a and C5a leukotaxis in vitro and under stimulated in vivo conditions. (1978)
- Mediators of Inflammation (1983)
- The immunologic release of constituents from neutrophil leukocytes. I. The role of antibody and complement on nonphagocytosable surfaces or phagocytosable particles. (1971)
Immediate Impact
11 by Nobel laureates 65 from Science/Nature 147 standout
Citing Papers
Alveolar fibroblast lineage orchestrates lung inflammation and fibrosis
2024 StandoutNature
Physiology and diseases of tissue-resident macrophages
2023 StandoutNature
Works of Peter M. Henson being referenced
Surfactant Proteins A and D Suppress Alveolar Macrophage Phagocytosis via Interaction with SIRPα
2008
Cell-Surface Calreticulin Initiates Clearance of Viable or Apoptotic Cells through trans-Activation of LRP on the Phagocyte
2005 Standout
Author Peers
| Author | Last Decade | Papers | Cites | |||
|---|---|---|---|---|---|---|
| Peter M. Henson | 27694 | 16410 | 8178 | 369 | 49.3k | |
| Paul Kubes | 25693 | 12413 | 7992 | 421 | 51.2k | |
| Volker Brinkmann | 22764 | 19129 | 3455 | 248 | 44.5k | |
| Peter A. Ward | 22913 | 13693 | 4736 | 685 | 52.3k | |
| Siamon Gordon | 40753 | 21755 | 5987 | 453 | 76.9k | |
| Bruce Beutler | 37780 | 17041 | 4467 | 401 | 63.8k | |
| Andrew D. Luster | 28770 | 10559 | 7462 | 337 | 50.1k | |
| Steven L. Kunkel | 21415 | 9559 | 5281 | 524 | 47.5k | |
| Carl Nathan | 21985 | 23625 | 17400 | 316 | 72.0k | |
| Yoichiro Iwakura | 32339 | 17870 | 5483 | 689 | 60.5k | |
| Kouji Matsushima | 25342 | 11715 | 4376 | 556 | 48.5k |
All Works
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