Product & Industry News
Drug Discovery World
Leukaemia treatment mystery solved

Leukaemia treatment mystery solved

26 June 2020
Image: National Cancer Institute

A research team led by the University of Kent and Goethe-University Frankfurt am Main, has solved an almost 40-year old mystery in leukaemia therapy and the drug nelarabine.

Acute lymphoblastic leukaemia (ALL) is the most common cancer in children. There are two types of ALL: B-ALL, which resembles B lymphocytes (B-cells); and T-ALL, which resembles T lymphocytes (T-cells). Since the 1980s, it has been known that the drug nelarabine is effective against T-ALL but not against B-ALL, for reasons unknown.

The new research study now reveals the reason why, and how this can change leukaemia treatments; thanks to the enzyme called SAMHD1.

The research shows that SAMHD1 is present only at low levels in T-ALL, compared to its greater-level of presence in B-ALL cells. Hence, SAMHD1 protects B-ALL cells, but not T-ALL cells, from the anti-cancer effects of nelarabine.

The findings have crucial practical implications. There are rare cases of B-ALL in which leukaemia cells display low SAMHD1 levels and thus may benefit from nelarabine treatment.

Additionally, there are also T-ALL cases in which leukaemia cells have high SAMHD1 levels, which are unlikely to react to nelarabine. Hence, the enzyme SAMHD1 is a biomarker with the potential to tailor nelarabine treatment better to the needs of individual ALL patients.

Dr Mark Wass, an author of the study from the University of Kent, said: ‘This work solves an almost 40-year old mystery in leukaemia treatment. The results could immensely impact the effectiveness of particular nelarabine therapy and open other doors of understanding in the effort again this disease.'

The article ‘SAMHD1 is a key regulator of the lineage-specific response of acute lymphoblastic leukaemias to nelarabine’ is published inCommunications Biology.

 

 

More on this subject...
The apocalyptic horsemen of the pharma industry cartoon illustration

The Apocalyptic Horsemen of Drug Discovery and Development READ MORE

A roadmap for achieving self-sustainability of academic high throughput screening core facilities READ MORE

Editing the Human Genome: Role in Functional Genomics and Translational Medicine READ MORE

New Tools Increase Accessibility to High Content Screening Assays READ MORE

The Application of iPS Cells and Differentiated Neuronal Cells To Advance Drug Discovery Main Image

The Application of iPS Cells and Differentiated Neuronal Cells To Advance Drug Discovery READ MORE

In Vivo Imaging In Drug Development: Gamma Scintigraphy READ MORE

Innovate while derisking drug development - yes we can!

Innovate While Derisking Drug Development: Yes We Can! READ MORE

Stem cells, cell-based assays and the world of small molecules

Stem Cells: Cell-Based Assays and the World of Small Molecules READ MORE

Pharmaceutical and biomedical research likely to use 1 billion dollars worth of microfluidics devices by 2016

Pharmaceutical & biomedical research likely to use $1 billion worth of microfluidics devices by 2016 READ MORE

Asian innovation

Asian Innovation: A Unique Opportunity For The Pharmaceutical Industry READ MORE