Through the microscope: macrophage meets blood cell


Wednesday, March 23, 2016 Jenny Ryan

Through the microscope

Through the microscope (image 1), we see a macrophage – a large immune cell that is involved in platelet and red blood cell destruction in some autoimmune diseases – ingesting and destroying red blood cells. Red blood cells that have been ingested by the macrophage are stained in green, and those that have not been ingested are stained red.

 

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Red blood cells that have been ingested by the macrophage (immune cells) are stained in green and red blood cells that are bound but not ingested by the macrophage are stained red. The orange color is a cell membrane staining dye.

(Photo Credit: Dr. Alaa Amash, Lazarus Research Group, Keenan Research Centre for Biomedical Science at St. Michael's Hospital in Toronto​.)

In image 2, the macrophages have been treated with an antibody (CD44). This antibody treatment reduces the number of red blood cells that are ingested or destroyed by the macrophage, as seen by fewer ‘green’ red blood cells. 

 

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The macrophage in the presence of the control antibody (figure 1) ingested or engulfed more red blood cells (green) than the macrophage treated with the anti-CD44 antibodies (figure 2).

(Photo Credit: Dr. Alaa Amash, Lazarus Research Group, Keenan Research Centre for Biomedical Science at St. Michael's Hospital in Toronto.)


Seeking new treatments for ITP

Dr. Alan Lazarus, a Canadian Blood Services scientist, and his research team at the Keenan Research Centre for Biomedical Science at St. Michael's Hospital in Toronto are focused on developing new treatments for  autoimmune diseases. They are particularly interested in a disorder called immune thrombocytopenia (ITP). In affected patients, immune cells called macrophages cause an abnormal destruction of  blood platelets, which in turn can lead to uncontrolled bleeding and in rare cases death. 

The research team is internationally recognized for its work in understanding the molecular mechanisms of intravenous immunoglobulin (IVIg) – a drug derived from the plasma of healthy donors that is used to treat ITP. Though effective, IVIg is available in limited supply and is very expensive and can cause complications in some patients, which is why our scientists are actively seeking alternative treatments.

One such alternative treatment targets the macrophage – the immune cell that destroys platelets in ITP and other cells in other autoimmune disorders. Dr. Lazarus’ and his colleagues are investigating different antibodies that may prevent or slow down the destruction of cells by macrophages, with some promising results. They have found that antibodies that target a particular protein on the surface of macrophages (called CD44) can inhibit or slow down the destruction of red blood cells by macrophages. These antibodies may have the same effect on the destruction of platelets by macrophages, and could lead to alternative treatments for autoimmune diseases like ITP down the road.

The team has just published recent findings, “CD44 Antibody Inhibition of Macrophage Phagocytosis Targets Fcγ Receptor – and Complement Receptor 3–Dependent Mechanisms”, in the Journal of Immunology.

 

 

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Dr. Alan Lazarus, Scientist, Centre for Innovation

Dr. Alan Lazarus is a scientist with Canadian Blood Services’ Centre for Innovation. His lab is located at the Keenan Research Centre at St. Michael’s Hospital in Toronto, Ontario.

 

Through the microscope is a series aimed at sharing some of the fascinating images scientists get to see. Sometimes, a picture is worth a thousand words... 

 


Canadian Blood Services – Driving world-class innovation

Through discovery, development and applied research, Canadian Blood Services drives world-class innovation in blood transfusion, cellular therapy and transplantation—bringing clarity and insight to an increasingly complex healthcare future. Our dedicated research team and extended network of partners engage in exploratory and applied research to create new knowledge, inform and enhance best practices, contribute to the development of new services and technologies, and build capacity through training and collaboration.

 

The opinions reflected in this post are those of the author and do not necessarily reflect the opinions of Canadian Blood Services.

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