CD47
CD47
Overview
CD47 is a cell-surface protein best known as a key innate immune checkpoint and a prominent “don’t eat me” signal. By engaging signal regulatory protein alpha (SIRPα) on myeloid cells, CD47 helps suppress phagocytosis and contributes to immune evasion. This function is especially relevant in cancer, where many tumors overexpress CD47 to reduce recognition and clearance by macrophages and other phagocytic cells.
Beyond its role in tumor biology, CD47 is also being explored as a target for immunomodulation in transplantation and regenerative medicine. Recent work has used CD47 blockade or CD47 engineering to alter local immune responses, enhance antitumor immunity, and improve graft survival. In these settings, CD47 is often studied alongside other immune pathways such as PD-L1, Fcγ receptors, and macrophage-mediated phagocytosis, reflecting its central position in checkpoint inhibitor.
Focus of Latest Publications
Recent publications demonstrate CD47 as a pivotal immune checkpoint that tumors exploit to evade phagocytosis and suppress anti-tumor immunity. CD47 functions as a "don't eat me" signal that engages signal regulatory protein alpha (SIRP-α) on myeloid cells, particularly macrophages, to inhibit their phagocytic activity. Multiple studies targeting the CD47-SIRP-α axis across diverse cancer types—including pancreatic cancer, melanoma, neuroblastoma, multiple myeloma, oral squamous cell carcinoma, and head and neck cancer—consistently demonstrate that blocking or reducing CD47 expression restores innate immune recognition and enables tumor cell killing.
CD47 blockade has been achieved through multiple therapeutic approaches, each designed to overcome the challenge of ubiquitous CD47 expression on healthy cells. Strategies include anti-CD47 antibodies, anti-SIRP-α antibodies such as LM-101, SIRP-α-displaying extracellular vesicles, anti-CD47 nanobodies delivered via oncolytic viruses or nanoparticle platforms, and tumor-targeting fusion proteins combining SIRP-α domains. Notably, engineered nanovesicles combining mucinase-degrading activity with anti-CD47 nanobodies enhanced CD47 accessibility by removing the protective tumor glycocalyx. A mechanistically distinct approach involved blocking CD47 maturation and surface translocation in the endoplasmic reticulum through disulfide bond reduction, achieving substantial reductions in CD47 surface expression.
These CD47-targeted strategies consistently enhanced macrophage-mediated phagocytosis and remodeled the tumor microenvironment. Studies demonstrated that CD47 blockade promoted macrophage polarization toward the pro-inflammatory M1 phenotype, increased innate immune activation, and enhanced CD8+ T cell infiltration and function. Combination approaches proved particularly effective: co-targeting CD47 with Cdk4/6 inhibitors, PD-L1 blockade, STING agonists, bortezomib, or oncolytic viruses yielded superior tumor control compared to monotherapies, with extended survival and durable anti-tumor responses.
Beyond cancer immunotherapy, recent findings revealed additional therapeutic applications of CD47 modulation. CD47 upregulation on platelets via LAV-BPIFB4 suppressed monocyte activation and inflammatory responses through selective MAPK pathway inhibition, offering potential benefits for inflammaging and cardiovascular disease. In transplantation, engineering islets to display CD47 created a tolerogenic microenvironment with increased myeloid-derived suppressor cells and T regulatory cells, enabling prolonged allograft survival without chronic immunosuppression. These studies highlight CD47 as a versatile immunological node with context-dependent roles in both tumor immunity and transplant tolerance.
Key Publications
- NEWJul The LAV-BPIFB4-Platelet-CD47 Axis: A Novel Mechanism Associated With Immune Resilience in Longevity. (Aging cell, 2026, PMID 42345378): "Here, we revealed that LAV-BPIFB4 fundamentally reshaped the immune features of platelets to establish enhanced immunomodulatory capacity through CD47 upregulation."
- NEWJun Targeting CDK4/6 potentiates the efficacy of anti-CD47 therapy via modulating the suppressive function of tumor-associated macrophages. (Apoptosis : an international journal on programmed cell death, 2026, PMID 42307815): "Furthermore, CDK4/6 inhibitor combined with CD47 blockade represents a promising strategy suppressing breast cancer growth."
- May Machine learning identifies a NETs-related four-gene diagnostic signature for abdominal aortic aneurysm. (Medicine, 2026, PMID 42175497): "A robust 4-gene diagnostic signature comprising CXCR4, GZMB, ITGA6, and CD47 was identified."
- May Mucinase-engineered cell membrane nanovesicles degrade the glycocalyx shield to potentiate antitumor immunity. (Proceedings of the National Academy of Sciences of the United States of America, 2026, PMID 42133749): "We developed a biomimetic platform of cell membrane fusion nanovesicles (FNVs) that codisplay StcE and CD47 nanobodies (nCD47) for spatially controlled glycocalyx degradation and enhanced checkpoint blockade."
- Apr Reprogramming Disulfide Reduction in Endoplasmic Reticulum Uncouples Immune Evasion of Pancreatic Cancer. (Advanced materials (Deerfield Beach, Fla.), 2026, PMID 42015503): "Herein, we propose a biochemical immune modulation strategy for immunosuppression reversal by blocking the mature of CD47 within the endoplasmic reticulum (ER)."
- Apr Imiquimod enhances anti-tumor effects of CD47 targeting in oral squamous cell carcinoma. (Inflammation research : official journal of the European Histamine Research Society ... [et al.], 2026, PMID 41998354): "Regarding the limited clinical curative efficacy of CD47-targeted immunotherapy in treating oral squamous cell carcinoma (OSCC),"
- Apr Ratio-Tunable Dual-Peptide and Ultrasound-Assisted Nanoplatform for Enhancing Personalized Antitumor Immunotherapy. (Advanced materials (Deerfield Beach, Fla.), 2026, PMID 41979280): "BiNPs promote lysosomal internalization and degradation of CD47 and PD-L1 through a lysosome targeting chimera inspired process."
- Apr 3D-printed implantable CAR-macrophages for post-surgery cancer immunotherapy. (Journal of nanobiotechnology, 2026, PMID 41957823): "Mechanistically, the co-released SIRPα-EVs mask CD47 on tumor cells to abrogate the "don't eat me" signal, synergizing with CAR-mediated phagocytosis."
- Jun LM-101, an Anti-SIRPα Antibody, in Patients with Relapsed/Refractory Lymphoma and Advanced Head and Neck Cancer: An Open-Label, Multicenter, Phase I Trial. (Clinical cancer research : an official journal of the American Association for Cancer Research, 2026, PMID 41910591): "The purpose of the study was to evaluate the safety and preliminary antitumor activity of LM-101, an anti-SIRPα antibody that blocks the CD47-SIRPα interaction, as monotherapy and in combination with rituximab or toripalimab in relapsed/refractory lymphoma and advanced head and neck cancer."
- Apr An oncolytic vaccinia virus encoding CD47 nanobody potentiates antitumor immunity in multiple myeloma. (iScience, 2026, PMID 41858619): "...encoding an anti-mouse CD47 nanobody (OVV-αCD47nb) that combines direct oncolysis with localized CD47-SIRPα axis blockade."
Show 3 more publications
- May Islets co-engineered with thrombomodulin and CD47 achieve sustained survival in allogeneic recipients without chronic immunosuppression. (JCI insight, 2026, PMID 41842939): "We herein engineered islets that transiently display 2 immunomodulators chimeric with streptavidin (SA), thrombomodulin (SA-TM) and CD47 (SA-CD47), for localized modulation of both innate and adaptive immune responses."
- Apr "Self" signal-suppressed metal-organic framework (MOF) nanodrug for enhanced immunotherapy of melanoma via CD47 blockade. (Colloids and surfaces. B, Biointerfaces, 2026, PMID 41723989): "CD47, a well-known "don't eat me" signal, plays an important role in tumor immune evasion."
- May Development of aGD2-SIRPα Fusion Antibodies Targeting Neuroblastoma and the Innate Immune Checkpoint Receptor CD47. (Molecular cancer therapeutics, 2026, PMID 41054394): "Neuroblastoma tumor cells upregulate expression of the innate immune checkpoint and do not eat me signal CD47 to evade immune recognition and phagocytosis by signal regulatory protein alpha (SIRPα)-expressing myeloid cells."