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Bioscience

Herbal medicine shows potential to treat cancer 

Herbal remedy plants native to Saudi Arabia are shown to have potential as treatments for cancer.

PhD student Dina Hajjar has been examining anticancer properties of plants used in traditional medicine in Saudi Arabia.

PhD student Dina Hajjar has been examining anticancer properties of plants used in traditional medicine in Saudi Arabia.

©  KAUST 2017

The effect of plant fractions of HeLa cells.  Pictured are nuclei, mitochondria, cytochrome C and NF-κB that have been stained by fluorescent probes.

The effect of plant fractions of HeLa cells.  Pictured are nuclei, mitochondria, cytochrome C and NF-κB that have been stained by fluorescent probes.

© 2017 Dina Hajjar

The effect of plant fractions of HeLa cells. Here we show nuclear- actin-tubulin organelles that have been stained by fluorescent probes.

The effect of plant fractions of HeLa cells. Here we show nuclear- actin-tubulin organelles that have been stained by fluorescent probes. 

© 2017 Dina Hajjar

Researchers from KAUST have been searching locally for plants that have potential for use to combat cancer. They have identified that three plants used for traditional medicine in Saudi Arabia are worthy of further investigation for anticancer properties.

Cancer is a leading cause of illness and death worldwide. In 2015, the World Health Organization (WHO) recorded 8.8 million cancer-related deaths, but almost twice as many cases are diagnosed each year. And the WHO predict that the number of cancer diagnoses is likely to continue to increase by about 70% for at least the next two decades due to growing longevity. 

Seeking to expand the armory of cancer treatments—especially ones that are simple and inexpensive to manufacture—a team led by Timothy Ravasi and Christian Voolstra from KAUST has investigated the biological potential (bioactivity) of a range of plants used locally in traditional medicine.

Use of herbal medicines is common in Saudi Arabia, explains Ravasi’s PhD student, Dina Hajjar. “However, there are almost no scientific studies. Saudi people tend to use information inherited from their families to decide about these plants without validated knowledge of their biological or chemical activity.” 

The team initially investigated 52 plants before they homed in on three plants that showed promise—Juniperus phoenicea (known in herbal medicine as Arar or Phoenican juniper), Anastatica hierochuntica (known as Kaff Maryam or the Jericho rose) and Citrullus colocynthis (known as Hanzal or bitter cucumber)1

The team used cell-based phenotypic profiling via imaging-based high-content screening to assess anticancer activity. This approach followed a technique developed in 2016 by Stephan Kremb and Christian Voolstra2 that uses a comprehensive marker panel with standardized settings—an efficient process that could potentially be easily adopted by other laboratories. This meant the team compared the cytological profiles of fractions taken from the plants with a set of reference compounds with established mechanisms of action. 

This enabled the team to show that these three plants contain potent anticancer substances—topoisomerase inhibitors, compounds that can block the topoisomerase enzymes that control changes in DNA—that could be used to develop novel anticancer inhibitors. 

There are many steps, however, before these compounds are properly tested and available for clinical treatments for cancer. “The active compounds identified in the study will need to be evaluated and better characterized,” says Hajjer. “Also, active compounds need to be synthesized and tested in vivo.”  

This study proves the power of using imaging-based high-content screening in revealing information about the bioactivity of unknown natural resources. Hajjar adds that it also highlights the opportunity for more exciting discoveries amongst the natural resources of Saudi Arabia.  

References

  1. Hajjar, D., Kremb, S., Sioud, S., Emwas, A. H., Voolstra, C. R., & Ravasi, T. Anti-cancer agents in Saudi Arabian herbals revealed by automated high-content imaging. PLoS One 12, e0177316 (2017). | article
  2. Kremb, S. & Voolstra, C. R. High-resolution phenotypic profiling of natural products-induced effects on the single-cell level. Scientific Reports 7, 44472 (2017). | article

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