Post on 19-Jul-2018
Natural Products Research:
Quo Vadis?
Rob Verpoorte
Rob Verpoorte
Natural Products Laboratory
IBL, Leiden University
PO Box 9502, 2300 RA Leiden
Verpoort@CHEM.LeidenUniv.NL
The best way to predict the
future, is to invent it
Alan Kay, 1971
My goal today
• To show why I think that natural products
chemistry has excellent perspectives
– Briefly introduce systems biology
– The role of metabolomics therein
– To show how this is helpful in understanding
complex biological systems
• To give you some food (drinks) for thought
Natural Products Research in
the future?
• Not a simple question to answer
• First we need to define the mission
Mission of Natural Products
Research
• What is the mission of science in
general?
• To make this a better world
Useful plants
• Ca. 30 species for our staple food
• Ca. 100 species for fruits
• Ca. 100 species for vegetables
• 40.000- 70.000 medicinal plants
• Many others (fibers, paper, wood, spices,
ornamental, etc.)
Changing global situation
• Growing population
• Need for increased food production
• Need for novel medicines
– Antibiotics, antiparasitic, anticancer, antiviral
• Polution environment
• Sustainable, renewable production
New products and concepts from nature needed
Natural Products Research
can contribute in many ways
to make this a better world!
5 most important natural products
highlights of the past 5 decades
• ?...............? Please give me your candidates
My five:
• NIH plant screening: taxol, camptothecine
• TCM: artemisinin
• By chance: vinblastine and vincristine
• Metabolic engineering: Golden rice
• MEP terpenoid pathway
Each field in science
goes through a growth curve
Where do we stand as a discipline?
• Plant research suffered enormously from the major
marketing blunder in the introduction of GM food
• In the past 30 years we lost a lot of our capacity due
to the advent of molecular biology
• Molecular biology has also reached stationary phase
• Time is ripe for new technologies and new ideas
Our strength
• Chemistry is the basis for
observing biological
systems and
characterizing phenotypes
• For a set of spectral data
(UV, IR, MS, NMR, etc.)
there is only one chemical
structure possible
• Biology is very complex,
models are often highly
hypothetical, bias is
always a threat
• Chromatography a
science or an art?
Life is chemistry at work!
JPA Ioannidis:
“Why most published Research Findings
are False”PLoSMedicine 2(2005)696-701
(www.plosmedicine.org)
• “For many current scientific research fields,
claimed research findings may often be simple
accurate measures of the prevailing bias”
• “Simulations show that for most study designs and
settings, it is more likely for a research claim to be
false than true”
Our weakness
• We have no standardized
extraction protocols
• Preparative phytochemical
separations are poorly
described
• We have no public data
storage systems
• Structure elucidation is not
like squencing C, H, N and O
but still an intellectual
challenge
• Molecular biology works with
“studentproof” extraction kits
• Biochemists work out protein
purification protocol before
final isolation
• Gene and protein sequence
databases
• Sequencing DNA, RNA and
AA is robotized, fast and low
cost
The Challenges
• Translate chemistry to genes, “omics”
• Elucidate biosynthetic pathways, “omics”
• Metabolic engineering, synthetic biology
• Chemistry biological interactions, systems biology
• Activity medicinal plants, systems biology
• Novel fine chemicals from plants, bioprospecting
Bioprospecting
The systematic search for:
- organisms
- genes
- biomolecules
- other compounds
- designs
that might have a potential use.
Sources of chemodiversity
Estimated numbers of species
• Higher plants 25 x 104
• Lower plants 12 x 103
• Vertebrates 12 x 103
• Insects 30 x 106
• Algae 10 x 106
• Fungi 15 x 105
• Prokaryotes 15 x 105
Total 10-100 million
If every organism contains one
unique compound
there are
10-100 million natural products
Known: 150,000-200,000
Ca. 5000 new ones found per year
Still much to discover!
Some characteristics natural products
Value end
product
Activity
range
amounts
Medicines High nM Kg -tons
Cosmetics High μM-mM Kg - tons
Nutraceuticals,
food additives
Intermediate -
low
mM Tons -
bulk
Agrochemicals low nM- μM Tons -
bulk
Small-molecule approved drugs
1981-2010
Newman and Cragg, J. Nat. Prod. 75(2012)311
Drug development 2012
The good news
• About half of all novel
drugs are natural
products or natural
products derived!
The bad news
• The number of novel
drugs is decreasing
dramatically!
Reductionist approach in studying
(medicinal) plants
• High throughput screening: for some targets
upto 100.000 samples per 24 hrs, i.e. within
three days all plants species can be screened
for that activity
• Bioassay guided fractionation to isolate
active compound
– Chromatographic separation
– Measure activity with simple bioassay
– Repeat until pure active compound
Paradigm of modern drug
development:
Single compound single target
Lock and key model
for drug development,
but the door does not
change!
Is there an other way to
find the needle?
We have to rethink drug
development!
Drug Development
Holistic Approach
Reductionist
Approach
HumansAnimals
OrgansCells
Molecules
presentpast
All “Omics” are tools for
observing living systems on all
possible levels:
SYSTEMS BIOLOGY
Systems Biology
not hypothesis, but observation based
• Organism under different conditions
• Measure as many parameters as possible
– Metabolome
– Proteome
– Transcriptome
– Physiological data
• Use e.g. multivariate analysis to find any differences, correlations, etc.
• Hypothesis based on observations
• Datamining
Systems biology
Measure as many parameters as possible
Systems biology as an unbiased,
observation based approach, is a great
opportunity for studying biological
systems, e.g. processes involving synergy
and prodrugs
Metabolomics is the key to identify
compounds that are correlated with
activity, or identify the mode of action
Remember? Life is chemistry at work!
Comparison metabolomic tools
LC-MS GC-MS TLC MS-MS NMR
Sample prep - -- ++ + +++
Reproducible -- + - + +++
Absolute qnt - - - - +++
Relative qnt + ++ + ++ +++
Identity ++ ++ + ++ ++
Compound No ++ +++ + +++ +
Sensitive ++ ++ + +++ -
Wine as a complex system
• What compounds make a
wine to be a good one?
• NMR-based metabolomics of
150 wines ranked for quality
on scale 1-4 (4 = best)
Classification wines
taste panel – NMR data of EtOAc extracts
Studies of traditional medicines
• Mode of action
• Toxicity
• Markers for activity
• Quality assurance
• Synergism, prodrugs
• Variability, contaminations
• Synergism, prodrugs
• How to define quality
- evidence based use
- novel drugs
What is synergism?
Two or more agents working together to
produce a result not obtainable by any of the
agents independently.
Source: Wikipedia
1+1> 2
the basis of life
IsobologramSynergy: IC50 values (μg/ml) of combination of ginkgolides
A and B in PAF-induced in vitro thrombocyte aggregation
H Wagner, Fitoterapia 82 (2011) 34–37
Synergism: How to prove?
• Loss of activity in bioassay guided
fractionation and recovery of activity after
pooling inactive fractions:
– compounds still unknown.
• Isobolograms showing activities of different
combinations of two compounds:
– which compounds to test?
• Systems biology, correlating compounds
with activity:
– combine activity and metabolomics data.
Metabolomics and identification
active compounds in Galphimia glauca
• Collection of 6 different ecotypes
• Only two have strong sedative effect
• Can we identify metabolites
responsible for activity by NMR based
metabolomics?
Collaboration with AT Cardoso Taketa and ML Villarreal, Mexico
Planta Med. 74(2008)1295
-20
-10
0
10
-20 -10 0 10 20
GM
GM
GM
GM
GM
GM
GMGM
JGJG
JGJG
JG
JGJGMCMC
MC
MC
MCMC
MS
MSMS
MS
MSMS
MT
MT
MT
MT
MT
QJ
QJ
QJ
QJ
QJ
QJQJ
Supervised multivariate data analysis
Galphimia glauca ecotypesPartial least squares regression-discriminant analysis
Obtain maximum separation between two or more classes.
Consider only signals that separate classes, rest is noice.
Active
Inactive
-0.12
-0.10
-0.08
-0.06
-0.04
-0.02
-0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.14
-0.12 -0.10 -0.08 -0.06 -0.04 -0.02 -0.00 0.02 0.04 0.06 0.08 0.10 0.12
10.00000" 9.96000" "9.92000" "9.88000" "9.84000" "9.80000" "
9.76000" "9.72000" "
9.68000" "9.64000" "
9.60000" "9.56000" "
9.52000" "
9.48000" "
9.44000" " 9.40000" "
9.36000" "
9.32000" "9.28000" "
9.24000" "
9.20000" "
9.16000" "
9.12000" "
9.08000" "9.04000" "
9.00000" "8.96000" "
8.92000" "
8.88000" "
8.84000" "8.80000" "
8.76000" "
8.72000" "
8.68000" "
8.64000" "
8.60000" "
8.56000" "
8.52000" "
8.48000" "
8.44000" "
8.40000" "
8.36000" "
8.32000" "
8.28000" "
8.24000" "
8.20000" "
8.16000" "
8.12000" "
8.08000" "
8.04000" "
8.00000" "
7.96000" "
7.92000" "7.88000" "
7.84000" "
7.80000" "
7.76000" "
7.72000" "7.68000" "7.64000" "
7.60000" "
7.56000" "
7.52000" "
7.48000" "
7.44000" "
7.40000" "
7.36000" "7.32000" " 7.28000" "
7.24000" "
7.20000" "
7.16000" "
7.12000" "
7.08000" "
7.04000" "
7.00000" "
6.96000" "
6.92000" "
6.88000" "
6.84000" "
6.80000" "
6.76000" "
6.72000" "
6.68000" "
6.64000" "
6.60000" "
6.56000" "
6.52000" "
6.48000" "
6.44000" "
6.40000" "
6.36000" "6.32000" "
6.28000" "
6.24000" "
6.20000" "
6.16000" "
6.12000" "
6.08000" "
6.04000" "
6.00000" "
5.96000" "
5.92000" "
5.88000" "
5.84000" "
5.80000" "
5.76000" "
5.72000" "
5.68000" "
5.64000" "
5.60000" "
5.56000" "
5.52000" "
5.48000" "
5.44000" "
5.40000" "
5.36000" "
5.32000" "
5.28000" "
5.24000" "
5.20000" "
5.16000" "
5.12000" "
4.52000" "
4.48000" "
4.44000" "
4.40000" "
4.36000" "
4.32000" "
4.28000" "4.24000" "
4.20000" "
4.16000" "
4.12000" "
4.08000" "
4.04000" "
4.00000" "
3.96000" "
3.92000" "
3.88000" "
3.84000" "
3.80000" "
3.76000" "
3.72000" "
3.68000" "
3.64000" "
3.60000" "
3.56000" "
3.52000" "
3.48000" "
3.44000" "
3.40000" "
3.36000" "
3.32000" "
3.28000" "
3.24000" "
3.20000" "
3.16000" "
3.12000" "
3.08000" "
3.04000" "3.00000" " 2.96000" "
2.92000" "
2.88000" "
2.84000" "
2.80000" "
2.76000" "
2.72000" "
2.68000" "
2.64000" "
2.60000" "
2.56000" "2.52000" "
2.48000" "
2.44000" "
2.40000" "
2.36000" "
2.32000" "
2.28000" "
2.24000" "
2.20000" "
2.16000" "
2.12000" " 2.08000" "
2.04000" "
2.00000" "
1.96000" "
1.92000" "
1.88000" "
1.84000" "
1.80000" "
1.76000" "
1.72000" "1.68000" "
1.64000" "
1.60000" "1.56000" "
1.52000" "
1.48000" "
1.44000" "1.40000" "
1.36000" "
1.32000" "
1.28000" "
1.24000" "
1.20000" "
1.16000" "
1.12000" "
1.08000" "
1.04000" "
1.00000" "
0.96000" "
0.92000" "
0.88000" " 0.84000" "
0.80000" "
0.76000" "
0.72000" "0.68000" "
0.64000" "
0.60000" "0.56000" "0.52000" "0.48000" "0.44000" "
0.40000" "0.36000" "0.32000"
Non active
Samples
Active Samples
(Triterpenoids
and
flavonoids)
Differentiation of Galphimia glauca
ecotypes based on anxiolytic activity
Loadings plot PLS-DA
A 1HNMR vinylic H-1, H-2 diastereomeric galphimine B and F
B MeOH extract Galphimia glauca GM sample
Activity correlated
compounds Galphimia glauca
20
18
29
MeO2C
21
OR2
OH
O
O
R1
HO
My Dream!
• To find a new
drug from a
plant
My nightmare?
The biologically active
compound I finally found,
cannot be produced in sufficient
amounts.
It is feasible to grow plant cells
in large scale bioreactors
Economy:
- 1500 $/kg at 0.3 g/l/14d
- 430 $/kg at 3 g/l/14 d
Successful industrial plant
biotechnology processes:
• Taxol (US/Germany, Korea, Japan)
• Shikonin (Japan)
• Ginseng roots (Japan, Korea)
However, for most important pharmaceuticals
too low production to compete with the plant
Catharanthus roseus (Apocynaceae)
source of terpenoid indole alkaloids
• Ajmalicine
– improving
cerebral blood
circulation
• Vinblastine,
vincristine
– antitumor
Metabolic engineering or synthetic biology?
STR
Plastid shikimate
pathway
TRYPTOPHAN
Cytosol
Mevalonate
terpenoid
pathway
C15, C30
Plastid
Deoxyxylose
terpenoid
pathway
C10, C20, C40
GERANIOL
STRICTOSIDINE
TRYPTAMINE SECOLOGANIN
AJMALICINE
CATHARANTHINE
VINDOLINE
VINBLASTINE
TDC
G10H
SGD
Transgenic Catharanthus
roseus cell cultures
• Stable cell lines overexpressing TDC- and/or STR-
genes
• TDC-overexpression only increased tryptamine
• STR-overexpression increased alkaloid production
(200-300 mg/l)
• Overexpression ORCA regulatory genes
upregulated a series of enzymes, but not alkaloid
levels
Overexpression ORCA3 in
Catharanthus roseus cells
Johan Memelink and co-workers
Hairy root culture of Weigelia
expressing TDC and STR-genes
• secologanin: below detection
limit
• tryptamine: 20 g/g DW
• ajmalicine: 1.4 g/g DW
• serpentine: 0.2 g/g DW
Feed tryptamine and juice of Symphoricarpos albus
berries (contain sugar and 2% secologanin)
yield 2 g/l alkaloid per 3 days.
EU-project SMARTCELL
Biosynthesis secologanin
Integration of
transcriptomics,
proteomics and
metabolomics data
Successful
expression whole
pathway in plant
Major result genetic engineering
Artemisia annua – artemisinin
poor farmer or big pharma?
Blueprint of the cell factory has many levels,
but do we know the actual process?
Metabolism has 4 dimensions:
3 of space and 1 of time
Metabolomics is at best like a
picture of low resolution, but not like
the high resolution film needed to
see where what is happening,
fluxomics!
Plastid
Vindoline
pathway
Plastid
Trp
pathway
Plastid
MEP
pathway
Vacuole
Secologanin? Loganin?
Vacuole
STR, tryptamine, secologanin,
strictosidine, ajmalicine
Vacuole
Peroxidase, Vindoline, vinblastine
Trp tryptamine
TDC
Idioblast
Vascular cell Epidermal cell
ER
G10H
ER
LAMT, SLS?
ER
Intermediate X
Simplified
model intra-
and intercellular
transport
C. roseus
alkaloid
biosynthesis
Alkaloid intermediate Y
diHOHtabersonine
Uptake
alkaloids
and
secologanin
in C. roseus
vacuoles
(no ATP)
secologanin
ajmalicine
strictosidin
e
THAlstonine
catharanthinevindoline
stemmadenin
e
Alkaloid transport into vacuoles of
Catharanthus roseus
Roytrakul and Verpoorte, Phytochem. Rev. 6(2007)383
Overexpression ABC transporter
• Coptis japonica specific berberine ABC transporter gene of the MDR-type CjMDR1* – Imports the alkaloid into the cell
– ATP dependent
– In cell membrane
– Inhibited by vanadate, and glibenclamide,
• Catharanthus roseus CRPM cell cultures
Many thanks to K. Yazaki giving us CjMDR1!
Uptake of berberine and selected TIA in
ABC transgenic C. roseus cells
Berb Ajmal Cath Serp 4H-Alst
MDR #7 2,10 32,38* 2,34 1,41 11,02*
pRT #4 2,38 1,24 1,86 0,83 3,43
WT 2,35 8,36 2,65 1,28 4,68
(ng/mg of cells)
Ajmalicine and tetrahydroalstonine
increased uptake in ABC transgenic cells
Metabolome is the sum of micro- and nano-
metabolomes
Metabolites in Jacobaea vulgaris leaves
Phenylpropanoids
Pyrrolizidine alkaloids
Nuringtyas et al. In press
Single cell(-type) analysis required!
Phenylpropanoids Pyrrolizidine alkaloids
Nuringtyas et al. In press
Logistics cell factory
Energy
Storage
Production sites
Raw materials
Regulation
The Cell Factory is
like a car factory,
everything must be at
the right moment on
the right place in the
right quantity
Engineering the cell factory
Metabolic Engineering
• A few genes
• Biosynthetic genes
• Regulatory genes
Original cell or organism
Synthetic biology
• Large number of genes
• Biosynthetic genes
• Transporter genes
• Regulatory genes
• RNAi to block
competitive pathways
“Minimal cell”
Technologies: molecular biology and metabolite analysis
Some questions that over the years
accumulated in my mind
• Up to 30% flavonoids in flowers?
• Why is a plant extract a viscous liquid?
• How are non-water soluble compounds like terpenoids, cellulose biosynthesized?
• How do plants survive in the desert?
• How do organisms survive at low temperatures?
• How does a dry seed gets alive?
1H-NMR plant extract: overall picture
Alkaloids
Flavonoids
Phenylpropanoids
Phenoloics
Tannins
Sugars
Amino acids
GlycosidesOrganic acids
Terpenoids
Steroids
Observations we made during
the years
• NMR-based Metabolomics of all kind of cells (mammalian, microbial, plants, zebrafish) always show high levels of some sugars, organic acids, amino acids and organic bases
• Levels are too high to be explained as intermediates
• Choline is common component of synthetic ionic liquids
2007: The EUREKA Moment
Could it be that the organic bases like
choline, betaine, etc.
together with
organic acids like malic acid, succinic
acid, citric acid, etc.
give ionic liquids?
First experiment: malic acid and choline chloride
1:1
Bingo: a beautiful ionic liquid
Down to the lowest level: the cell content
Our hypothesis:
Everywhere in living systems
Natural Deep Eutectic Solvents (NADES)
occur and form a third liquid phase of
intermediate polarity
• Ionic liquids are formed by mixing an acid and a
base (e.g. choline and malic acid)
• Deep eutectic solvents are formed by mixing two
solids (e.g. glucose and malic acid)
YH Choi et al. Plant Physiol. 2011
Evidence for occurrence of
NADES
• Make various combinations of possible
NADES ingredients
• Measure physical characteristics, e.g. polarity
• Study solubility of various natural compounds
• Measure metabolome of systems where they
may occur
• Proof in-situ presence
YH Choi et al. Plant Physiol. 156(2011)1701
.
Combinations Molar ratio
Citric acid-Choline chloride 1:2, 1:3
Malic acid-Choline chloride 1:1, 1:2, 1:3
Maleic acid-Choline chloride 1:1, 1:2, 1:3
Aconitic acid-Choline
chloride
1:1
Citric acid-Proline 1:1, 1:2, 1:3
List of some natural ionic liquids
Glucose-Choline chloride-
Water
1:1:1
Fructose-Choline chloride-
Water
1:1:1
Sucrose-Choline chloride-
Water
1:1:1
Glucose-Fructose 1:1
Fructose-Sucrose 1:1
Glucose-Sucrose 1:1
Sucrose-Glucose-Fructose 1:1:1
Malic acid-Glucose 1:1
Malic acid-Fructose 1:1
Malic acid-Sucrose 1:1
Citric acid-Glucose 2:1
Citric acid-Trehalose 2:1
Citric acid-Sucrose 1:1
Maleic acid-Glucose 4:1
Maleic acid-Sucrose 1:1
Some examples of deep eutectic solvents
Ingredients and NADES(mole/mole)
1: sucrose, 2: fructose, 3: glucose, 4:
malic acid, 5: sucrose-fructose-glucose
(1:1:1), 6: sucrose-malic acid (1:1)
1 2 3 4 5 6
H-1
H-2’’
H-2’
H-3’’
Other sugar HOH and water
* *
Sucrose Malic acid
Correlation between molecules
by 1H-1H-NOESY
Sucrose-malic acid-water (1:1:1) = about 5% of water!
Solubility of Rutin in some NADES
Media
W S G F M A
So
lub
lity
of
ruti
n (
g/k
g)
0
20
40
60
80
100
Water (W)
sucrose-choline chloride (S)
glucose-choline Cl (G)
fructose-choline Cl (F) maleic
acid-choline Cl (M)
aconitic acid-choline Cl (A)
NADES
extractions
safflower
87
Dai et al. In press
Solubility macromolecules (mg/ml)
NADES Starch Gluten DNA
LGH - 4.8 286.6
GCH 15.8 0.2 2.5
PCH 11.5 0.3 7.7
PMH 4.3 173.7
Water 1.5 252.1
SoCH - 0.03 2.8
Laccase activity in malic acid-choline Cl (1:1)
0 % water, 2: 25% water, 3: 50% water.
g
3.43.94.44.95.4
sg
g
s+g+f
1H NMR Cleome hassleriana nectar. s: sucrose, g: glucose, f: fructose
Ocurrence in Plants?– Plants secrete non-volatile saps
• To attract insects: nectar
• To catch insects
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Drosera: liquid for
ever?
day 0 day 10Day
Day 1 Day 10?
Sucrose – choline chloride
1:1 molar
Water
Gently poor water on
NADES
Carthamin dissolved in
either phase
NADES may explain
• Biosynthesis of water insoluble compounds
• High level of accumulation of poorly water
soluble compounds
• How lichen can survive drought
• How cacti and resurrection plants survive
• How a seed can germinate after 30,000
years in the permafrost
• ..........
You see it, when you understand it.
Johan Cruijff
NADES beginning of life?
• Self organizing structures, liquid crystals
• Different chemistry than in water
• Intermediate polarity between water and lipids
• Water miscible, but remain stable upon dehydration
• Strongly retain water
• Liquid in large temperature range, even far below 00 C
After this existential question
back to basics, experiments for at home!
How do you make the best caipirinha?
How do you make
the best caipirinha?
• Sugar is a solvent!
• Sequence of lime extraction is important
• First sugar or cachaça/wodka?
• We measured clear difference of the
caipirinha’s metabolome as measured by
NMR
• But what tastes best?
You may send me the results:
verpoort@chem.leidenuniv.nl
What does my crystal ball tells me?I see you working in
multidisciplinary teams exploring
nature in a systemic way, leading
to understanding and exploiting
nature to our benefit
Dutch government’s view on innovation
Major discoveries
Anecdotic examples• Discovery of penicillin
– Growth inhibition zones with two microorganisms on one plate → Antibiotics
• Discovery of vinblastine and vincristine
– Testing plant for antidiabetes, observing effect on leucocytes → Antitumor medicines
• Discovery Omeprazole (Losec) no 1 best sold drug worldwide for some 15 years
– Not active but pro-drug to treat ulcers
• Viagra, a failed antihypertension drug → k€€€
There are no navigators
for research
You need to be a good
observer with an open
mind
Discovery is by chance
8th International Workshop
“Metabolomics”
April 12-17, 2015
Leiden, The Netherlands
www.plantsandmetabolomics.nl
verpoort@Chem.LeidenUniv.NL