Swee Lay Thein Explained

Swee Lay Thein
Alma Mater:University of Malaya
Known For:Sickle cell disease
Workplaces:National Institutes of Health
King's College London
Birth Place:Kuala Lumpur

Swee Lay Thein is a Malaysian haematologist and physician-scientist who is Senior Investigator at the National Institutes of Health. She works on the pathophysiology of haemoglobin disorders including sickle cell disease and thalassemia.

Early life and education

Thein was born in Kuala Lumpur, Malaysia.[1] She studied medicine in both Malaysia and the United Kingdom.[2] She graduated from the University of Malaya in 1976.[3] She specialised in hematology at the Royal Postgraduate Medical School and the Royal Free Hospital. She moved to Oxford, where she worked at the Medical Research Council (MRC) Molecular Hematology Unit in the Weatherall Institute of Molecular Medicine and the John Radcliffe Hospital. She held various positions at Oxford, including a MRC Clinical Training position, a Wellcome Trust senior fellowship and an honorary consultancy.

Research and career

In 2000 Thein joined King's College London as a Professor of Molecular Haematology. She was made Clinical Director of the Red Blood Cell clinic at King's College Hospital. Her work considers the pathophysiology of haemoglobin disorders; which include sickle cell disease and thalassemia. The only cures for sickle cell disease and thalassemia are bone marrow transplants, but these are not always available. Whilst both conditions can present with a variety of clinical severities, a remediating factor is the ability to produce foetal haemoglobin (HbF). Foetal haemoglobin is the haemoglobin that transports oxygen during foetal life and in infants until they are six months old.[4] She has studied the mechanisms responsible for the formation of foetal haemoglobin.

Thein demonstrated that HbF levels are mainly controlled by genetics, and that majority of the genetic variance is accounted for by factors outside the globin locus. Thein used linkage analysis to identify two of the quantitative trait loci (QTL) for this HbF variability. These loci are involved with the control haematopoiesis and the production of HbF. The loci are located on the chromosomes 6q and 2p which are located within the BCL11A gene. Whilst it was known that BCL11A was involved with cancer, Thein was the first to show that BCL11A was associated with red blood cell disorders.[5] The 6q QTL contains single-nucleotide polymorphisms distributed across three linkage disequilibrium blocks, in an intergenic region between MYB and HBS1L. Thain showed that this interval contains regulatory sequences. She has investigated how QTL regulates the expression of MYB and HBS1L. These two QTLs (6q and 2p), and a single-nucleotide polymorphism on the HBB cluster account for around half of the variability in HbF levels. She established that these two variants had spread from Africa into almost all human populations.[6]

By delineating the genetics of foetal haemoglobin control in adults, she hopes to explain the trait variance in adults as well as identifying the loci and sequences of variants. She believes that by identifying the HbF QTLs she will be able to improve patient management through the development of novel therapies, more sophisticated genetic counselling and better predictions of disease severity. These therapies may include approaches to activate the BCL11A gene. By trying to find the relationships between genotypes and phenotypes, Thein has helped with DNA diagnostics in the haemoglobinopathies.

Sickle cell disease occurs because rigid strands form inside red blood cells, destroying their structure and resulting in the formation of sickled cell shapes. Thein is working on therapeutic agents that can work against this polymerisation, stopping the cells changing shape. Thein has served as Chair of the European Hematology Association working group on red blood cells.[7] She has been involved with the teaching of their programs on haematology.

She moved to the National Institutes of Health as Senior Investigator and Chief of the new NIH Sickle Cell Branch in 2015.[8]

Awards and honours

Selected publications

Thein is an editor for Blood, Annals of Haematology, Hemoglobin, and the American Journal of Hematology. She is feature editor of the Sickle Blood Hub, an online space for the journal Blood.[14]

Notes and References

  1. Web site: Molecular Haematology Study at King's King's College London. www.kcl.ac.uk. 2019-10-04.
  2. Web site: MRC Research Updates. The sickling disease.Introduction.. resources.schoolscience.co.uk. 2019-10-04.
  3. Web site: Thein Swee Lay. Senex. Scriptor. 2008-07-28. RAMBLES FROM MY CHAIR. 2019-10-04.
  4. Web site: Swee Lay Thein, M.B., B.S., F.R.C.P., F.R.C.Path., D.Sc. National Heart, Lung, and Blood Institute (NHLBI). www.nhlbi.nih.gov. 22 September 2017 . 2019-10-04.
  5. Web site: Swee Lay Thein, M.B., B.S., F.R.C.P., F.R.C.Path., D.Sc. National Heart, Lung, and Blood Institute (NHLBI). www.nhlbi.nih.gov. 2019-10-04.
  6. Web site: Study tracks worldwide spread of beneficial blood cell gene variant. ScienceDaily. en. 2019-10-04.
  7. Web site: Professor Swee Lay Thein. South Thames Sickle Cell & Thalassaemia Network. en-GB. 2019-10-04.
  8. Web site: American Sickle Cell Anemia Association United Way Agency. www.ascaa.org. 2019-10-04.
  9. Web site: Fellowship - Research Portal, King's College, London. kclpure.kcl.ac.uk. 2019-10-04.
  10. Web site: Fellowship - Research Portal, King's College, London. kclpure.kcl.ac.uk. 2019-10-04.
  11. Web site: Professor Swee Lay Thein The Academy of Medical Sciences. acmedsci.ac.uk. 2019-10-04.
  12. Web site: CLSS-UK. www.clss.org.uk. 2019-10-04.
  13. https://www.shawprize.org/news/announcement-press-conference-2024-press-release/ Shaw Prize 2024
  14. Web site: Sickle Cell Disease. sicklecelldisease.bloodjournal.org. 2019-10-04.