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Dr Ash Toye

Dr Ash Toye

Dr Ash Toye
B.Sc., Ph.D.(Bristol)

Reader in Cell Biology

Office Room A.100f
Biomedical Sciences Building,
University Walk, Clifton BS8 1TD
(See a map)

+44 (0) 117 331 1738


Red blood cell development in health and disease.

In the bone marrow, red blood cells (RBC) are constantly being produced from hematopoietic stem cells (also called progenitor cells), a process called erythropoiesis. The peripheral blood of an individual also contains a host of progenitor cells that can be induced to undergo erythropoiesis. We are developing culture techniques to maximize the production of red blood cells from peripheral blood for the study of erythropoiesis. This involves exploration of the use of synthetic scaffolds environments for blood production and also interactions with stromal cells. The eventual aim being to manufacture enough RBC for transfusion purposes or novel therapeutics.

During the process of erythropoiesis, red blood cell progenitors undergo a remarkable transformation; they become smaller, express a variety of erythroid specific proteins (e.g. Haemoglobin and band 3 (AE1)), lose their nucleus and remodel their membrane to generate the nascent reticulocyte and then go on to mature further to the recognizable biconcave red blood cell. Whilst undergoing these substantial morphological changes the progenitor cell must assemble and selectively retain key membrane protein complexes (e.g. band 3 (AE1) and Rhesus proteins). These membrane protein complexes give the RBC membrane its unique antigenic and structural properties and facilitate efficient gas exchange. Very little is known about how multiprotein complexes are assembled or correctly localized during erythropoiesis or why specific alterations in membrane protein composition occur in red cell diseases such as Hereditary Spherocytosis. This is another area of focus for the lab.

The lab uses biochemical and cell biology techniques to monitor the expression and interactions of erythroid specific proteins throughout differentiation in health and disease. We are also manipulating RBC progenitor protein expression. This work will greatly enhance our knowledge of the structure-function relationships within the RBC membrane and will identify the stages and mechanisms whereby membrane protein composition is altered during normal differentiation process and during human disease. This also helps us to form a benchmark of normal erythropoiesis to explore the viability of blood cells produced using embryonic stem cells, immortalised cells or human induced pluripotent stem cells. The lab is also a member of the BrisSynBio Centre, and here we aim to use our ability to culture RBCs and manipulate them to develop the RBC as a synthetic biology chassis for novel functionality or a vehicle for novel therapeutics.




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Health Sciences: Biochemistry - Bristol Dental School

Cellular Processes

Science in Society

Molecular Cell Biology

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Advanced Options in Biochemistry



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