CD47

CD47 (Cluster of Differentiation 47) also known as integrin associated protein (IAP) is a transmembrane is_associated_with::protein that in humans is encoded by the CD47 is_associated_with::gene. CD47 belongs to the is_associated_with::immunoglobulin superfamily and partners with membrane is_associated_with::integrins and also binds the ligands thrombospondin-1 (TSP-1) and signal-regulatory protein alpha (SIRPα).

CD47 is involved in a range of cellular processes, including is_associated_with::apoptosis, proliferation, adhesion, and migration. Furthermore, it plays a key role in immune and is_associated_with::angiogenic responses. CD47 is ubiquitously expressed in human cells and has found to be overexpressed in many different tumor cells.

Structure
CD47 is a 50 kDa membrane receptor that has is_associated_with::extracellular is_associated_with::N-terminal IgV domain, five is_associated_with::transmembrane domains, and a short is_associated_with::C-terminal is_associated_with::intracellular tail. There are four alternatively spliced isoforms of CD47 that differ only in the length of their cytoplasmic tail.

Form 2 is the most widely expressed form that is found in all circulating and immune cells. The second most abundant isoform is form 4, which is predominantly expressed in the brain and in the peripheral nervous system. Only keratinocytes expressed significant amounts of form 1. Little is known about the functional significance of this alternative splicing. However, these isoforms are highly conserved between mouse and man, suggesting an important role for the cytoplasmic domains in CD47 function.

Thrombospondin (TSP)
CD47 is a receptor for is_associated_with::thrombospondin-1 (TSP-1), a secreted glycoprotein that plays a role in vascular development and angiogenesis. Binding of TSP-1 to CD47 influences several fundamental cellular functions including cell migration and adhesion, cell proliferation or apoptosis, and plays a role in the regulation of angiogenesis and inflammation.

Signal-regulatory protein (SIRP)
CD47 interacts with is_associated_with::signal-regulatory protein alpha (SIRPα), an inhibitory transmembrane receptor present on myeloid cells. The CD47/SIRPα interaction leads to bidirectional signaling, resulting in different cell-to-cell responses including inhibition of phagocytosis, stimulation of cell-cell fusion, and T-cell activation.

Integrins
CD47 interacts with several membrane integrins, most commonly integrin avb3. These interactions result in CD47/integrin complexes that affect a range of cell functions including adhesion, spreading and migration.

Tumor cells
Due to the ubiquitous expression of CD47, signaling differs according to cell type. It is likely that intracellular and membrane-associated partners are crucial in determining the cellular response of CD47 signaling. The immune system doesn't distinguish between harmful bacteria and friendly foreign objects such as medical devices implanted in a patient used to deliver medicine to tumors. This poses complications to doctors trying to administer treatments to people with cancer. Doctors would like to avoid triggering an inflammatory response in cancer patients when they administer medicine or when implanting a pacemaker or artificial joint. Researchers at the University of Pennsylvania are experimenting with what they describe as “a passport” to allow therapeutic devices to get past the immune system.

Cell proliferation
The role of CD47 in promoting cell proliferation is heavily dependent on cell type as both activation and loss of CD47 can result in enhanced proliferation.

Activation of CD47 with TSP-1 increases proliferation of human is_associated_with::U87 and U373 is_associated_with::astrocytoma cells but not normal is_associated_with::astrocytes. Additionally, CD47 blocking antibodies inhibit proliferation of unstimulated astrocytoma cells but not normal astrocytes. Though the exact mechanism is unclear, it is likely that CD47 promotes proliferation via the PI3K/Akt pathway in cancerous cells but not normal cells.

Loss of CD47 allows sustained proliferation of primary murine is_associated_with::endothelial cells and enables these cells to spontaneously reprogram to form multipotent embryoid body-like clusters. Expression of several is_associated_with::stem cell markers, including is_associated_with::c-Myc, is elevated in CD47-null endothelial cells and a human T cell line lacking CD47. Activation of CD47 with TSP-1 in wild-type cells inhibits proliferation and reduces expression of stem cell transcription factors.

Cell death
CD47 ligation leads to cell death in many normal and tumor cell lines via apoptosis or is_associated_with::autophagy. The activation of CD47 induces rapid apoptosis of T cells. is_associated_with::Jurkat cells and peripheral blood mononuclear cells (is_associated_with::PBMC) incubated with the is_associated_with::monoclonal antibody Ad22 results in apoptosis within 3 hours. However, apoptosis was not observed following culture with other anti-CD47 antibodies. The apoptosis inducing function of CD47 appears to be dependent on activation of specific is_associated_with::epitopes on the extracellular domain.

Similarly, CD47 ligation rapidly induces apoptosis in is_associated_with::B-cell chronic lymphocytic leukemia (CLL) cells. Treatment with a disulfide-linked antibody dimer induces apoptosis of CD47-positive primary B-CLL and leukemic cells (MOLT-4 and JOK-1). In addition, administration of the antibody prolonged survival of is_associated_with::SCID mice implanted with JOK-1 cells. Apoptosis induction appears to be regulated by the hypoxia inducible factor 1α (HIF-1α) pathway.

The RAS-transformed cell lines MDFB6 and B6ras show near complete loss of TSP-1 expression. Activation of CD47 with TSP-1 results in loss of viability in these RAS-expressing cells. Affected cells do not exhibit hallmarks of apoptosis but rather autophagy as seen by staining with is_associated_with::acridine orange and immunoreactivity for LC3.

Migration
Cell migration appears to be universally stimulated by CD47 ligation and activation. The role of CD47 in cell migration was first demonstrated for is_associated_with::neutrophils, where CD47 blocking antibodies inhibited transmigration of neutrophils and is_associated_with::monocytes through the endothelium. These effects were shown to be dependent on avb3 integrins, which interact with and are activated by CD47 at the plasma membrane.

Blocking CD47 function has been shown to inhibit migration and metastasis in a variety of tumor models. Blockade of CD47 by neutralizing antibodies reduced migration and is_associated_with::chemotaxis in response to collagen IV in is_associated_with::melanoma, is_associated_with::prostate cancer and is_associated_with::ovarian cancer-derived cells. In a mouse model of is_associated_with::multiple myeloma, tumor is_associated_with::metastasis to bone was decreased in CD47-deficient mice compared with wild type controls. In mice is_associated_with::xenografted with human is_associated_with::non-Hodgkin lymphoma (NHL) cells, blocking CD47 function with is_associated_with::shRNA or antibodies led to a dramatic reduction in metastasis to major organs.

Angiogenesis
Loss of CD47 promotes proliferation and increases asymmetric division of primary murine endothelial cells. Additionally, activation of CD47 with TSP-1 in wild-type primary mouse cerebral endothelial cells induces cytotoxicity, which is significantly decreased in cerebral endothelial cells derived from CD47 knockout mice.

CD47 signaling may suppress angiogenesis as TSP-1 activation significantly inhibited endothelial cell migration and tube formation in vitro. In vivo, injections of TSP-1 in mice after hindlimb is_associated_with::ischemia induces a significant decrease of blood flow recovery. The mechanism of the anti-angiogenic activity of CD47 is not fully understood, but introduction of CD47 antibodies and TSP-1 have been shown to inhibit is_associated_with::nitric oxide (NO)-stimulated responses in both endothelial and vascular is_associated_with::smooth muscle cells. CD47 signaling influences the SDF-1 chemokine pathway, which plays a role in angiogenesis.

Inflammatory response
Interactions between endothelial cell CD47 and leukocyte SIRPγ regulate T cell transendothelial migration (TEM) at sites of inflammation. CD47 knockout mice show reduced recruitment of blood is_associated_with::T cells as well as neutrophils and monocytes in areas of inflammation. CD47 also functions as a marker of self on murine red blood cells which allows RBC to avoid phagocytosis. Red blood cells that lack CD47 are rapidly cleared from the bloodstream by is_associated_with::macrophages, a process that is mediated by interaction with SIRPα. Mouse is_associated_with::hematopoietic stem cells (HSCs) and progenitors transiently upregulate CD47 during their migratory phase, which reduces macrophage engulfment in vivo.

Tumor cells can also evade macrophage phagocytosis through the expression of CD47. CD47 is highly expressed in bladder tumor initiating cells (T-ICs) compared with the rest of the tumor. Blockade of CD47 with a monoclonal antibody results in macrophage engulfment of bladder cancer cells in vitro. CD47 is also upregulated in mouse and human myeloid leukemias, and overexpression of CD47 on a myeloid leukemia line allows these cells to evade phagocytosis.

Clinical significance
CD47 was first identified as a tumor is_associated_with::antigen on human ovarian cancer in the 1980s. Since then, CD47 has been found to be expressed on multiple human tumor types including acute myeloid leukemia (AML), chronic myeloid leukemia, acute lymphoblastic leukemia (ALL), non-Hodgkin’s lymphoma (NHL), multiple myeloma (MM), bladder cancer, and other solid tumors.

High levels of CD47 allows cancer cells to avoid phagocytosis despite having a higher level of is_associated_with::calreticulin - the dominant pro-phagocytic signal. This is due to engage of the SIRP-α of macrophage by CD47. Engagement of SIRP-α leads to inhibition of phagocytosis. Thus blocking CD47 with antibody turns off “don’t eat me” signal and favors phagocytosis.

Anti-CD47 antibody–mediated phagocytosis of cancer by macrophages can initiate an antitumor T-cell immune response. Noteworthy, anti-CD47 antibody treatment not only enables macrophage phagocytosis of cancer, but also foster the activation of cancer-specific lymphocytes: cancer cells now display mutant proteins to which the immune system can react.