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Details revealed for how plant creates anticancer compounds

Date:
March 21, 2016
Source:
Kobe University
Summary:
Rosy periwinkle is a plant that produces organic compounds used to treat cancer, arrhythmia, and other medical conditions. A Japanese research group has revealed the details of the metabolism process for these compounds on a cellular level. Their data suggests the existence of an unknown mechanism which regulates the creation, movement and distribution of compounds within plants.
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Catharanthus roseus (rosy periwinkle).
Credit: Image courtesy of Kobe University

Catharanthus roseus (rosy periwinkle) is a plant that produces organic compounds used to treat cancer, arrhythmia, and other medical conditions. A Japanese research group has revealed the details of the metabolism process for these compounds on a cellular level. Their data suggests the existence of an unknown mechanism which regulates the creation, movement and distribution of compounds within plants. The findings will be published in the online version of the Proceedings of the National Academy of Sciences (PNAS) in the week of March 21, 2016.

Plants are essentially stationary, so in order to protect themselves from insects, wild animals and disease they create a self-defense system of chemical compounds known as secondary metabolites. Most of these compounds are stored in the vacuoles of plant cells, and activate if an animal eats the plant. Humans have a long history of using these metabolites as both medicines and stimulants: they include nicotine and caffeine.

The researchers examined Catharanthus roseus, a plant well known for producing the antitumor compounds classified as terpenoid indole alkaloids (TIAs). During the process for metabolizing TIAs, various intermediary compounds are created and travel across different cells, finally arriving at the idioblast or laticifer cells where they are stored. Until now it was unclear how each compound moved between cells, and how their creation and storage was controlled within each cell.

The team analyzed the cellular distribution of each compound within the tissue using imaging mass spectrometry for the tissue and single-cell mass spectrometry for individual cells. This revealed, among other things, that the compounds previously assumed to have been metabolized and stored in the epidermal cells were in fact present in large numbers in a totally different location – idioblast cells.

These findings suggest the possibility of an unknown mechanism that regulates the creation, movement and regulation of organic compounds within plants. Additionally, clarifying the details of the metabolic process for valuable compounds in plants such as Catharanthus roseus could potentially help to develop new methods for synthesizing organic compounds.

The research group was led by YAMAMOTO Kotaro (2nd year PhD student) and Professor MIMURA Tetsuro from the Kobe University Graduate School of Science, in collaboration with Dr. TAKAHASHI Katsutoshi (National Institute of Advanced Industrial Science and Technology), Dr. MASUJIMA Tsutomu (RIKEN), Dr. YAMAZAKI Mami (Chiba University), and Dr. MIZUNO Hajime (Shizuoka University).


Story Source:

Materials provided by Kobe University. Note: Content may be edited for style and length.


Journal Reference:

  1. Kotaro Yamamoto, Katsutoshi Takahashi, Hajime Mizuno, Aya Anegawa, Kimitsune Ishizaki, Hidehiro Fukaki, Miwa Ohnishi, Mami Yamazaki, Tsutomu Masujima, and Tetsuro Mimura. Cell-specific localization of alkaloids in Catharanthus roseus stem tissue measured with Imaging MS and Single-cell MS. PNAS, 2016 DOI: 10.1073/pnas.1521959113

Cite This Page:

Kobe University. "Details revealed for how plant creates anticancer compounds." ScienceDaily. ScienceDaily, 21 March 2016. <www.sciencedaily.com/releases/2016/03/160321154046.htm>.
Kobe University. (2016, March 21). Details revealed for how plant creates anticancer compounds. ScienceDaily. Retrieved May 27, 2017 from www.sciencedaily.com/releases/2016/03/160321154046.htm
Kobe University. "Details revealed for how plant creates anticancer compounds." ScienceDaily. www.sciencedaily.com/releases/2016/03/160321154046.htm (accessed May 27, 2017).

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