Ethnobiology and Pharmacognosy PDF

Summary

This document provides an introduction to ethnobiology and pharmacognosy. It explains the scientific study of dynamic relationships between peoples, organisms, and environments. Topics include traditional knowledge and practices related to natural resources for medicinal purposes.

Full Transcript

Ethnobiology and
Pharmacognosy

Prepared by: Fleurdeliz Maglangit

Bio 134
 Ethnobiology
is the scientific study of dynamic relationships among peoples, biota, and environments.

the scientific study of the way plants and animals are treated or used by different human
cultures.

the study of traditional or folk knowledge and practices related to the use of natural
resources, particularly for medicinal purposes. This field includes studying plants as
medicines, alternative methods for healing, wild foods, and agricultural crops.

2
Bio 134
 Research Objectives of Ethnobiology

Catalog and Document Traditional Knowledge Systems

Systematically catalog and Explore and analyze the methods by which
document the diverse range of traditional knowledge about plants and animals is
plants and animals, including their acquired, preserved, and organized within different
traditional preparations and uses, cultures.
across different cultures.

3
Bio 134
 Research Objectives of Ethnobiology

Sustainable Management Domestication and Agriculture

Assess and develop strategies for the Investigate the processes and historical
sustainable management of plant and animal origins of species domestication, focusing on
populations that are important for human use. how plants and animals have been selectively
This involves evaluating traditional and bred and managed. Study the development of
modern practices for conserving biodiversity agricultural practices and their impact on
and ensuring the long-term availability of human societies and ecosystems.
these resources.

4
Bio 134
 Pharmacognosy

Definition Origin
the study of medicine derived from two Greek words:
derived from natural o Pharmakon - a drug
sources

o Gnosis - acquire knowledge of

5
Bio 134
 American Society of Pharmacognosy

The American Society of Pharmacognosy definition:

Pharmacognosy is “the branch of knowledge concerned with medicinal
drugs obtained from plants or other natural sources”.

ASP is a scientific society founded in 1959 that promotes the growth and
development of pharmacognosy through a presentation of research
achievements and the publication of meritorious research.

6
Bio 134
 "And the earth brought forth grass, and herb yielding seed after
his kind, and the tree yielding fruit after his kind, whose seed
was in itself, and after his kind: and God saw that it was good."
-Genesis 1:12

“The trees will provide food and their leaves will be used for
healing people..."
-Ezekiel 47:12

7
Bio 134
 History

Pharmacognosy has developed from ancient civilizations
and used parts from local flora and fauna for their survival.

By trial and error, primitive man had acquired biological
knowledge that was useful in determining which plants
and animals possess food value and which of them to
avoid because they were unpalatable, poisonous, or
dangerous.

8
Bio 134
 Trial and Error
Christopher McCandless (1968-1992)

Abandoned his conventional life, donated his savings of
$24,000 to charity, discarded most of his possessions, and set
out on a journey across America.

24-yo McCandless died in the Alaska wilderness

114 days of hunting game and foraging edible plants.

Before going to Alaska, he weighed 140 lbs.

3 weeks after his death his remains weighed 67 lbs and
lacked discernible subcutaneous fat.
Movie based on a
true story

9
Bio 134
 Trial and Error
Christopher McCandless (1968-1992)
Theories of death:
Starvation
Hedysarum alpinum seeds

Journal entry:

EXTREMELY WEAK.
FAULT OF POT[ATO]
SEED. MUCH TROUBLE
JUST TO STANDUP.
STARVING. GREAT
Movie based on a JEOPARDY
true story

10
Bio 134
 Trial and Error
Hedysarum alpinum
Common names: wild potato, Alaska carrot

11
Bio 134
 Trial and Error
Theories of McCandless death:
2. Swainsonine in H. alpinum seeds

Swainsonine

o 2007: Dr. Thomas Clausen - "I tore that plant apart. There were no toxins. No alkaloids. I'd
eat it myself.”

12
Bio 134
 Trial and Error
Theories of McCandless death:
3. ODAP in H. alpinum seeds

Lathyrism
- a tropical disease marked by
tremors, muscular weakness, and
paraplegia, especially prevalent in
South Asia

beta-N-oxalyl-L-alpha-beta diaminoproprionic
acid (ODAP)

o 2013: The seeds contained 0.394 % beta-ODAP by weight, a concentration well within the
levels known to cause lathyrism in humans, although the interpretation of the results were
disputed by other chemists
13
Bio 134
 Trial and Error
Theories of McCandless death:

4. L-canavanine in H. alpinum seeds

L-canavanine

o 2015: High levels of L-canavanine (an antimetabolite toxic to mammals)
in the H. alpinum seeds caused the death of Mc Candless

14
Bio 134
L-canavanine

15
Bio 134
Presence of L-Canavanine in Hedysarum alpinum Seeds and Its Potential Role in the Death of Chris McCandless (sagepub.com)

16
Bio 134
 Happiness is only
real when it is
shared.

17
Bio 134
 History of Pharmacognosy

Mesopotamia Ancient Egyptians Greece and Rome Ancient India
made clay models possessed a knowledge describe many plants that described more than
of the human body of medicinal uses of were known to have 1000 plants, example
and early writing many plants, like medicinal properties such snakeroot which is
indicate that they morphine from opium in as atropine and used for the treatment
were aware of a Papaver somniferum hyoscine which were of high blood pressure.
medicinal effects which is used as hypnotic used as mydriatic agents
of many plants. and analgesic. in Atropa belladona family
Solanaceae.

18
Bio 134
 Century of Pharmacognosy (18th century)

Johann Adam Schmidt (1759-1809) Carl Linnaeus
Published Lehrbuch der Materia Medica in 1811 which Naming and classifying
was a work on medicinal plants and their properties plants

In this book the term "pharmacognosy"
was originally coined.

19
Bio 134
 Century of Pharmacognosy (18th century)
At the end of the 18th century, crude drugs were still being used as:
o Powders
o Simple extracts, or
o Tinctures.

Crude drugs – are vegetable or animal
drugs that consist of natural substances that
have undergone only the processes of
collection and drying.

Natural substances – are those found in nature, including whole plants, herbs, and their
parts; vegetable saps, extracts, and secretions; animal glands, organs, extracts, and
secretions; and substances that have not had changes made in their molecular structure
as found in nature.

20
Bio 134
 Era of pure compounds

The era of pure compounds (In 1803, a new era in the history of medicine)

Morphine from opium Strychnine (1817) from Strychos nux-vomica
used to treat moderate to severe pain a pesticide, particularly to kill rats

21
Bio 134
 Era of pure compounds
The era of pure compounds (In 1803, a new era in the history of medicine)

Quinine (1820) from cinchona bark Caffeine (1820)
Treatment of malaria

Friedlieb Ferdinand Runge, the
godfather of caffeine; first isolated
caffeine from coffee beans and
the first to isolate quinine

22
Bio 134
 Era of pure compounds

The era of pure compounds (In 1803, a new era in the history of medicine)

Nicotine (1828) from tobacco
Addictive stimulant
Atropine (1833) from plants of the
nightshade family
Anticholinergic medication used to treat the
symptoms of low heart rate, reduce salivation
and bronchial secretions before surgery, or as
an antidote for certain poisoning

23
Bio 134
 Era of pure compounds

The era of pure compounds (In 1803, a new era in the history of medicine)

Cocaine (1855) from Coca plant
addictive stimulant drug

Cocaine hydrochloride (Goprelto), an ester local anesthetic, was approved for
medical use in the United States in December 2017

24
Bio 134
 19th century

In the 19th century, the chemical structures of many of the isolated compounds were
determined.

In the 20th century, the discovery of important drugs from the animal kingdom,
particularly hormones and vitamins.

Microorganisms have become a very important source of drugs.

25
Bio 134
 26
Bio 134
Current Opinion in Microbiology
2019, 51:72–80

27
Bio 134
 Most clinically relevant classes of antibiotic are derived from natural products.

28
CurrentBio 134 in Microbiology 2019, 51:72–80
Opinion
 The History of Antibiotics

Repeat
29
Bio 134
 The Present

Bio 134
X
Repeat
30
 What is Antibiotic Resistance?
The ability of bacteria or other microbes to resist the effects of an antibiotic.

31
Bio 134
 How do bacteria become superbugs?

1. Mutation:

Bacteria can spontaneously develop mutations in their DNA that
make them resistant to a specific antibiotic.

These mutations can then be passed on to their offspring.

32
Bio 134
 How do bacteria become superbugs?
2. Horizontal Gene Transfer:
Bacteria can acquire resistance genes from other bacteria through processes like:
Conjugation Transformation Transduction
(direct transfer between (uptake of free DNA) (transfer by bacteriophages)
bacteria via a pilus)

The transfer of DNA from one donor The uptake of free DNA from the The transfer of genetic material from one
bacterium to one recipient bacteria, environment by a recipient bacterium, host cell to another via a bacteriophage
which involves cell-to-cell contact leading to the expression of a new trait. during infection.

33
Bio 134
 How do bacteria become superbugs?
3. Selective Pressure:

The overuse or misuse of antibiotics in healthcare, agriculture, and
animal husbandry creates an environment where only the resistant
bacteria survive and multiply.

This selective pressure encourages the proliferation of resistant strains.

34
Bio 134
Microbial Evolution
and Growth Arena
plate (MEGA-plate)

allowed visual observation
of mutation and selection
in a migrating bacterial
front

Bacteria Evolution on a MEGA Petri Plate – Michael Baym – Harvard Medical School (2016) | Natural
History Nature Documentary (naturedocumentaries.org)
35
Bio 134
 Antibiotic Resistance

It is estimated that by 2050, antimicrobial resistance (AMR) could
be a bigger kill than cancer, with 10 millions deaths annually.
36
Bio 134
 Bad Bugs, No Drugs

37
Bio 134
 38
Bio 134
 Antibiotic introduced Antibiotic resistance identified Gap year
Sulfonamides (protonsil) 1936 1942 6
Penicillin 1943 1940 -3
Tetracycline (chlortetracycline) 1952 1950 -2
Chloramphenicol 1948 1950 2
Erythromycin 1951 1955 4
Vancomycin 1958 1960 2
Rifampicin 1958 1962 2
Methicillin 1960 1962 2
Gentamicin 1967 1979 12
Ciprofloxacin 1968 1968 0
Imipenem 1985 1998 13
Ceftazidine 1987 1987 0
Levofloxacin 1996 1996 0
Linezolid 2000 2001 1
Daptomycin 2003 2005 2
Ceftaroline 2010 2009 -1 39
Bio 134
 Bio 134 40
Bio 134
 WHO priority pathogens list for R&D of new antibiotics
Priority 1: CRITICAL
Acinetobacter baumannii, carbapenem-resistant
Pseudomonas aeruginosa, carbapenem-resistant
Enterobacteriaceae*, carbapenem-resistant, 3rd generation cephalosporin-resistant
Priority 2: HIGH
Enterococcus faecium, vancomycin-resistant
Staphylococcus aureus, methicillin-resistant, vancomycin intermediate and resistant
Helicobacter pylori, clarithromycin-resistant
Campylobacter, fluoroquinolone-resistant
Salmonella spp., fluoroquinolone-resistant
Neisseria gonorrhoeae, 3rd generation cephalosporin-resistant, fluoroquinolone-resistant

Priority 3: MEDIUM
Streptococcus pneumoniae, penicillin-non-susceptible
Haemophilus influenzae, ampicillin-resistant
Shigella spp., fluoroquinolone-resistant
* Enterobacteriaceae include: Klebsiella pneumonia, Escherichia coli, Enterobacter spp., Serratia spp., Proteus spp., and Providencia spp, Morganella spp.
41
Bio 134
 Antimicrobial Resistance: The Silent Pandemic

72 %
of Covid-19 patients received antibiotics
even when it is not medically prescribed,
worsening the AMR crisis.
Antibiotics 2021, 10(6), 738

42
Bio 134
 Natural Products as Sources of New Drugs from 1981
to 2014
Over 50 % of the approved
67, 6%
drugs from 1981 to 2014 are
420, 35% natural compounds or those
320, 27%
based on NP scaffolds

Natural products are the
172, 14% source of the most complex
and fascinating chemical
structures.

223, 18%

Natural product (NP) unmodified NP derivative
Mimic of NP Synthetic drug (NP pharmacophore)
Synthetic drug

43
J. Nat. Prod. 2016, 79, 629−661
Bio 134
 What are Natural Products?

Bio 134
 What are Natural Products?
Chemical characteristics

❑ Compounds produced by plants, animals, or microbes that usually have a
pharmacological or biological activity for use in pharmaceutical drug
discovery and drug design.

❑ Methods of extraction and purification are generally SIMILAR to the
techniques used for organic compounds (e.g., TLC, column
chromatography, HPLC, GC)

❑ Methods of structural determination
NMR, MS, IR, X-ray, UV

45
Bio 134
 What are Natural Products?
Chemical characteristics

❑ Compounds are unique to only one species or family of organisms.

❑ Classified as “secondary metabolites” in contrast to “primary metabolites”

❑ Excludes amino acids, proteins, carbohydrates, lipids, nucleotides, all
compounds found in major metabolic pathways (primary metabolites)

46
Bio 134
 What are Natural Products?
Biological characteristics
❑ No nutritional or structural function. Functional roles may include:
color (identification)

Anthocyanins impart red, blue or purple colors to most
Theobroma cacao, cocoa fruits and flowers
Mimicry of dead leaves.
Bitter taste to deter herbivores.
Pigments may also act as a sunscreen for young leaves.

47
Bio 134
 What are Natural Products?
Biological characteristics
❑ No nutritional or structural function. Functional roles may include:
color (attraction)

Pollinator attractants

48
Bio 134
 What are Natural Products?
Biological characteristics
❑ No nutritional or structural function. Functional roles may include:
color (attraction)

Nesocodon mauritianus (E)-Nesocodin
red nectar

Phelsuma ornata

49
Bio 134
 What are Natural Products?

Coloured nectar - visual
signal for lizard pollinators
e.g., endemic Phelsuma
Mauritian coloured nectar no longer a mystery: a visual geckos
signal for lizard pollinators | Biology Letters
(royalsocietypublishing.org)

50
Bio 134
 What are Natural Products?
Biological characteristics
❑ No nutritional or structural function. Functional roles may include:
color (attraction)

Nesocodon mauritianus

Pollinator attractants
Coloured nectar - visual signal
for lizard pollinators e.g.,
Mauritian coloured nectar no longer a mystery: a visual
signal for lizard pollinators | Biology Letters produces a natural red nectar endemic Phelsuma geckos
(royalsocietypublishing.org)
51
Bio 134
 What are Natural Products?
Biological characteristics
❑ No nutritional or structural function. Functional roles may include:
Color/taste (antifeedant)

Anthocyanins as antifeedants

Antifeedants are organic compounds produced by plants
to inhibit attack by insects and grazing animals.
Lactuca sativa, lettuce

52
Bio 134
 What are Natural Products?
Biological characteristics
❑ No nutritional or structural function. Functional roles may include:
Color/taste (antifeedant)

Anthocyanins as antifeedants
Antifeedants are organic compounds produced by plants to inhibit attack by insects and grazing animals.
53
Bio 134
 What are Natural Products?
Biological characteristics
❑ No nutritional or structural function. Functional roles may include:
Scent (attraction/repulsion)

Pollinated by a hornet, Vespa bicolor
which also preys on honeybees.

The orchid produces a chemical that
mimics a honeybee pheromone to attract
Dendrobium sinense
hornets for pollination.

Orchid Mimics Honey Bee Alarm Pheromone in Order to Attract Hornets for Pollination -
ScienceDirect
54
Bio 134
 What are Natural Products?
Biological characteristics
❑ No nutritional or structural function. Functional roles may include:
Social communication

Jasmonates are plant hormones
produced when tissues are
wounded.

Growth is slowed and
specialised defense molecules
are produced to repair damage.
Methyl jasmonate

Q&A: How does jasmonate signaling enable plants to adapt and survive? BMC Biology, 2016, 14(79)
55
Bio 134
 What are Natural Products?
Biological characteristics
❑ No nutritional or structural function. Functional roles may include:
Defense and protection (e.g., toxins, antibiotics)

Physical defense

Predators
56
Bio 134
 What are Natural Products?
Biological characteristics
❑ No nutritional or structural function. Functional roles may include:
Defense and protection (e.g., toxins, antibiotics)

Was first isolated in 1971
from the bark of the
Pacific yew (Taxus
brevifolia), hence its
name “taxol”.

Approved for medical use
in 1993.

Used to treat a number of
types of cancer.
Paclitaxel from Pacific yew bark
57
Bio 134
 but many still have UNKNOWN function in the
organism in which they are found…

Bio 134
 Compounds from natural sources play THREE significant
roles in modern medicine:

Source of extremely useful drugs that are difficult, if not impossible, to
produce commercially by synthetic means (e.g., Vincristine).

Madagascar periwinkle
(Catharanthus roseus) vincristine

Vincristine is used to treat acute leukemia and other cancers.
59
Bio 134
 Compounds from natural sources play THREE significant
roles in modern medicine:

Source of compounds that may be modified to render them more
effective or less toxic (e.g., hydromorphone)

narcotics
morphine hydromorphone

Hydromorphone is 5× to 10× times more potent than morphine.
60
Bio 134
 During synthetic
tailoring, the core of
the antibiotic is left
intact, preserving its
activity, but the
chemical groups at its
periphery are
modified to IMPROVE
the drug’s properties.

New generations are
often designed to be
ACTIVE against
pathogens that have
become resistant to
the previous
generation.

61
Bio 134
 The complex chemical
structure of vancomycin
took nearly 30 YEARS by
several groups to fully
elucidate.

The emergence of
RESISTANT BACTERIA
has seen a sharp
REDUCTION in the
effectiveness of
vancomycin antibiotic.

Thousands of derivatives
have been CHEMICALLY
ENGINEERED to produce
MORE POTENT versions
of vancomycin and related
glycopeptides.
Vancomycin
antibiotic medication used to treat a number of bacterial infections. ACS Med. Chem. Lett. 2018, 9, 66–67
62
Bio 134
 Compounds from natural sources play THREE significant
roles in modern medicine:

Their utility as prototypes/models for synthetic drugs possessing
physiologic activities similar to the originals (e.g., procaine from cocaine)

anesthetic
cocaine procaine
first and subsequently best-known substitute
for cocaine. It is not addictive, toxic or irritating.

Removing complex non-pharmacophoric molecular fragments (i.e., the auxophore)
simplifies the lead’s structure while retaining biological activity.
63
Bio 134
Natural products in drug COLLECT ORGANISM

discovery
EXTRACT

SEPARATE COMPONENTS
ACTIVE
TEST FOR BIOLOGICAL ACTIVITY
ACTIVE
NOT ACTIVE PURE COMPOUND

FIND STRUCTURE

GET MORE
NO
MODIFY

APPROVAL
YES

£££££££££
64
Bio 134
 How a compound becomes a drug

time frame (years)

lead discovery (isolation, synthesis) 1-2

pharmacological tests / screening 3-5

toxicity, analytics 6-9

clinical trials 10 - 15

approval  introduction on the market

 for 100,000 tested compounds, one will eventually become a drug!

 cost for development approximately $ 400 M

 after launch, patent coverage will last on average for another 8 years
65
Bio 134
 Stages of clinical trials

preclinical trials on animal populations

 dose-finding, metabolism, toxicity

phase I small group (20-80) of healthy volunteers

 safety, tolerability, metabolism

phase II on larger groups (20-300)

 clinical efficacy, dosing requirements

phase III large patient groups (300–3000)
 efficacy in comparison with current
standard treatment

approval

phase IV post-launch safety surveillance
66
Bio 134
 67
Bio 134
 THE COMPLETE HISTORY OF MEDICINE
“That root is heathen. 1985 AD
“Here, eat this ROOT” Here, say this PRAYER instead”
1940 AD
1850 AD
N
O
W
2000 BC 1000 AD

“That prayer is nothing but superstition.
Here, swallow this POTION instead”
“That potion is nothing but snake oil.
Here, swallow this PILL instead”

“That pill is totally ineffective.
Here, take this ANTIBIOTIC instead”

“That antibiotic is no longer effective.
Here, eat this ROOT”
68
Bio 134
 Natural Products Drug Discovery
Bio 134 Course Description:
Survey, extraction, screening, isolation, screening, and characterization of bioactive compounds
from plants and other natural resources traditionally known to have pharmacological applications

Survey Extraction Screening Isolation Characterization

-traditional knowledge -Solvent extraction -Metabolomics -Chromatography -Mass spectrometry
and partitioning (SPE, TLC, column, -Nuclear magnetic
-folklore medicine -Biological assays HPLC, GC) resonance
-Infrared
-dereplication spectroscopy
-UV
-X-ray

69
Bio 134
 Natural products is at the intersection of many fields:

70
Bio 134
 Research areas in natural products:

1. Structure elucidation
2. Biological activity
o Ecological
o Pharmaceutical properties/drug discovery
o Healthcare and cosmetics products

3. Metabolomics
4. Biosynthesis
5. Molecular biology and biotechnology
6. Quantitative natural products chemistry

71
Bio 134
 Ethnobotanical Documentation of Medicinal
Plants Used by the Indigenous Panay Bukidnon
in Lambunao, Iloilo, Philippines

❑ A total of 131 medicinal plant species were
used to address 91 diseases.

o Curcuma longa L.
o Artemisia vulgaris L.
o Annona muricata L.
o Blumea balsamifera (L.) DC.
o Chromolaena odorata (L.) R.M.

Frontiers in Pharmacology. 2022, 12, 790567

72
Bio 134
 End of discussion

73
Bio 134