EXTRACTION OF ALKALOID FROM CARICA PAPAYA (LEAF) AND, THE REVIEW OF
ITS MEDICINAL PROPERTIES AND POTENTIAL BENEFITS
ABSTRACT
Carica papaya, a
plant widely used in the traditional medicinal system of India has been
reported to possess analgesic, heart tonic, anti-inflammation, anti-helminitic
and to treat malaria fever, dengue fever, ringworm,
high blood pressure, stomachache, skin sores, fungal
infections, jaundice, rheumatism, psoriasis, sand also used for
removal of cancerous growths, burns and scalds. This project is to extract
alkaloid in this plant and highlights some of the medicinal or pharmacological
aspects of the papaya plant. Extraction of the phytochemical was done using
method, where 50g of 5g each (i.e 10 samples) of the dried pulverized dried
papaya leaves were weighed into a 250ml beaker and 200ml of 10% acetic acid in
ethanol were added and covered and allowed to stand for 4hrs. This was filtered
and the extract was concentrated on a water bath to one-quarter of the original
volume. Concentrated ammonium hydroxide was added drop wise to the extract
until the precipitate was completed. The whole solution was allowed to settle
and alkaloid precipitated. The precipitate was washed with dilute ammonium
hydroxide then filtered. The residue is the alkaloid which was dried and
weighed, yielding 0.3g(6%), 0.44g(8.8%), 0.49g(9.2%), 0.31g(6.2%), 0.50g(10%),
0.46g(9.2%), 0.45g(9%), 0.40g(8%), 0.45g(9%) and 0.39g(7.8%) of a dark green
alkaloid residue for ten (10) samples of 5g each. The findings of this study
recommends that Carica papaya plants may serve as an alternative to modern
drugs in the treatment of certain diseases and also help to sensitize people on
the benefits of Carica papaya plants.
CHAPTER ONE
1.0 INTRODUCTION
1.1 BACKGROUND OF THE STUDY
The plant kingdom has
proven to be the most useful in the treatment of diseases and they provide an
important source of all the world’s pharmaceuticals. The most important of
these bioactive constituents of plants are steroids, terpenoids, carotenoids,
flavanoids, alkaloids, tannins and glycosides. Often
a time, the bioactive compounds in the plants that intrigue the chemist are the
nitrogen containing bases called alkaloids. Alkaloids have complex molecule
structures. They are usually bitter in taste and are characterized by powerful
physiologic activities. Some alkaloids stimulate the central nervous system,
while others cause paralysis. Some alkaloids are derived from relatively simple
precursors such as ornithine,lysine, phenylalanine, trytophan, histidine,
tyrosine, aspartic acid and anthranilic acid. The alkaloids content in plants
is usually within a few percent and is
inhomogeneous over the plant tissues and could
be classified as true alkaloids, proto alkaloids, and pseudo alkaloids (Rajnikant
et al., 2005). Depending on the type of
plants, the maximum concentration is observed
in the leaves, some in the fruits or seeds, others in the root or bark. (Grinkevich
and Safronich, 1983). Furthermore, different tissues of the same plants may contain different alkaloids and these alkaloids
are extracted by dissolving the plant in dilute acid.
Plants in all facet of life have served a valuable starting material for
drug development (Ajibesin, 2011). The phytoconstituents are antibiotic
principles of plants yet these compounds were not well established due to the
lack of knowledge and techniques.
Carica papaya
also known as paw-paw is one of the many medicinal plants of great importance
to the health of individuals and communities especially in the developing
countries than orthodox medicine, and there is lower incidence of adverse
effects after use. These reasons might account for their worldwide attention
and use. The papaya plant is a small un-branched tree (about 20-30 ft in
height) which is from Caricaceae
family; the sole specie in the genus Carica,
Said to be a native of the Caribbean and Central America, the Papaya is now
grown abundantly throughout tropical America, Hawaii and many other tropical
countries. It is an interesting tree, practically, every part of Carica papaya is of economic value and
its use ranged from nutritional to medicinal and other benefits. The edible
part of papaya which is the fruit is a good source of iron, magnesium, calcium
and an excellent source of vitamin A and C (Nakasone and Paul, 1998). In fact
the vitamin C content in Carica papaya is much higher than in either
tomatoes or oranges (Benson and Poffley, 1998). The Natural compounds isolated
from various parts of the plant such as leaves, fruits, stem, roots, seeds have
been shown to possess excellent medicinal properties including anticancer,
antiviral, anti-inflammatory, antimicrobial, anti-diabetic, antihypertensive,
wound healing activity, free radical scavenging activity and increase in
thrombocyte count, etc. The unripe fruit of papaya is used as mild laxative and
abortifacient agent and leaves are used for treatment of pyrexia, malaria
fever, diabetes, gonorrhea, syphilis, inflammation and as a dressing component
for wounds.
Other
benefit of papaya plant is that, papaya is an economical fruit. Besides
providing food, the crop has potential to be exploited to serve as source of
revenue generation in the country. The fruit produced can serve not only for
domestic trade but can also be actively exported to countries like Singapore
and Hong Kong. The objective of this study is to extract alkaloids, a bioactive
chemical compound present in Carica
papaya leaves. This will help
in determining of its medicinal value which may be useful in pharmaceutical
industry. Also, the economical values of Carica papaya plant which ranged form nutritional to medicinal and
other benefits were investigated in this study.
1.2 ALKALOIDS
Human
recognition of alkaloids is as old as civilization, since these substances have
been used as drugs in potions, medicines, teas, poultices and poisons for
400years. Alkaloids are a group of naturally
occurring chemical compounds that contain
mostly basic nitrogen atoms. This group also
includes some related compounds with neutral
and even weakly acidic properties (McNaught
and Wilkinson, 1997). Some synthetic compounds of similar structure are also termed alkaloids. (Robert, 1998)
In addition to carbon, hydrogen and nitrogen,
alkaloids may also contain oxygen, sulfur and more rarely other elements such as chlorine, bromine, and phosphorus. Most alkaloids contain oxygen in
their molecular structure are usually
colorless crystals at ambient conditions.
Oxygen-free alkaloids, such as nicotine or
coniine, are typically volatile, colorless,
oily liquids. Some alkaloids are colored, like
berberine (yellow) and sanguinarine (orange). Alkaloids are
produced by a large variety of organisms
including bacteria, fungi, plants, and animals. They can be
purified from crude extracts of these
organisms by acid-base extraction. Natural
compounds containing nitrogen in the exocyclic
position (mescaline, serotonin, dopamine,
etc.) are usually attributed to amines rather
than alkaloids. Some authors, however,
consider alkaloids a special case of amines (Raj,
2004; Aniszewski and Tadeusz, 2007). Most alkaloids are weak bases, but some,
such as theobromine and theophylline, are
amphoteric .Many alkaloids dissolve poorly in water but readily dissolve in organic solvents, such as diethyl ether, chloroform or 1, 2-dichloroethane, Caffeine,
cocaine ,codeine and nicotine are water
soluble (with a solubility of ≥1g/L), whereas
others, including morphine and yohimbine are highly water soluble (0.1– 1 g/L). Alkaloids and acids form salts of various strengths. These salts are usually soluble in water and ethanol and poorly soluble in most organic solvents. Exceptions include scopolamine hydrobromide, which is soluble in organic solvents, and the water-soluble quinine sulfate. Most
alkaloids have a bitter taste or are poisonous when
ingested. Alkaloid production in plants appeared
to have evolved in response to feeding by
herbivorous animals; however, some animals have
evolved the ability to detoxify alkaloids. Some alkaloids can produce
developmental defects in the offspring of
animals that consume but cannot detoxify the
alkaloids. One example is the alkaloid
cyclopamine, produced in the leaves of corn
lily. During the 1950s, up to 25% of lambs born
by sheep that had grazed on corn lily had serious
facial deformations. These ranged from deformed
jaws to cyclopia. After decades of research,
in the 1980s, the compound responsible for
these deformities was identified as the
alkaloid 11-deoxyjervine, later renamed to cyclopamine.
(Thomas et al, 2004).
1.2.1 ACTIVITY
OF ALKALOIDS
Alkaloids have a wide range of pharmacological
activities including antimalarial (e.g. quinine),
antiasthma (e.g. ephedrine ), anticancer
(e.g.homoharringtonine), (Kittakoop et al, 2014) cholinomimetic
(e.g.galantamine ), (Russo et al, 2013) vasodilatory (e.g. vincamine
),antiarrhythmic (e.g. quinidine), analgesic (e.g.morphine), (Raymond et al,
2010) antibacterial (e.g. chelerythrine ), (Cushnie et al, 2014) and
antihyperglycemic activities (e.g. piperine). (Raymond et al, 2010) .Many have found use in traditional or modern medicine , or as starting points for drug discovery .Other
alkaloids possess psychotropic (e.g.psilocin ) and stimulant activities (e.g.
cocaine,caffeine , nicotine ) and have been used in entheogenic rituals or as recreational drugs. Alkaloids can
be toxic too (e.g. atropine , tubocurarine).
(Robbers et al, 1996) Although alkaloids act
on a diversity of metabolic systems in humans
and other animals, they almost uniformly
invoke a bitter taste.
1.3 STATEMENT OF THE PROBLEM
Developing countries are face with high level
of poverty, high cost of living because of inflation and increasing resistance
of diseases such as cancer, malaria, dengue fever and many more to orthodox
drugs. With the
passage of time, many problems associated become prominent like severe side
effects. In recent times, research on medicinal plants has been intensified all
over the world.
There
is an urgent need to discover new antimicrobial agents for human and veterinary
therapeutic uses, as resistance to current drugs increases in severity and
extent with frequent
use. For instance, many Plasmodium falciparum strains, the
parasite responsible for many fatalities from malaria, have become resistant to
chloroquine (Robert and Meunier,1998). This phenomenon has also occurred with
some important pathogenic bacteria (Setti and Micetich, 1998). As a result,
more than two billion people worldwide are at high risk of malarial/bacterial
diseases. The identification of new and structurally novel natural products
with antimicrobial activity, and hopefully new modes of action, is one of the
ways of tackling this problem. By targeting alkaloid-containing medicinal
plants, specifically Carica papaya
plant, it is hoped that structural novelty with the required bioactivity will
be achieved more efficiently. Alkaloids have diverse structures and many show a
range of pharmacological activities,
there is a need to facilitate the herbal research and its application to solve the problem of health seeking population.
On the other hand synthetic drugs are expensive and a large
population cannot afford these drugs. The need for a cheap, renewable,
easily available and nutritive source of drug supplements has therefore
attracted the investigation of Carica
Papaya leaf as an alternative. This study delves to prove the effectiveness of papaya leaf extract as an agent with
pharmacological capabilities thereby increasing access to health care services
and reduce cost
.
1.4 JUSTIFICATION
Medicinal
plants play a major role in the health care sector of developing nations for
the management of diseases. They have macronutrients and micronutrients, which
have curative and preventive role in combating diseases and for the proper
functioning of vital organs in the body. The phytochemicals and mineral
elements in plants are preserves of good health and boost body immunity.
Phytochemical
and bioactivity studies have been done on Carica
Papaya revealing the presence of alkaloids, steroids, flavanoids and many
more, and they have been attributed to the curative properties of the plants.
The mineral elements in this medicinal plant could also contribute to their
curative functions. This study therefore sought to determine the medicinal
properties and other benefits of the plant.
1.5 AIM AND OBJECTIVES
The
aim of this research work is to determine the potential medicinal properties of
Carica papaya plant.
Objectives
i.
To extract alkaloid, a photochemical
present in Carica Papaya leaf, this
helps in determining its potentials that may be useful in pharmaceutical
industries.
ii.
To ascertain the quantity of some
phytochemicals such as alkaloids in Carica
Papaya, this will help in determining the effectiveness of the medicinal
plants in treating various diseases and to understand their pharmacological
action.
1.6 SIGNIFICANCE OF THE STUDY
The
significance or importance of Carica
payaya plant cut across its economical values ranged from nutritional to
medicinal amongst some potential benefits. It is known that papaya leaves is
one of by-products from papaya tree. These by-products are generally disposed
in open areas. Rather than that, one potential alternative use for these wastes
is extraction of phytochemicals such as alkaloids and others which produce
valuable products. Utilization of leaves can create waste to wealth, hence
reducing the disposal problem. Furthermore, it has been proved that isolated
phytochemicals from papaya leaves can gives benefit to human health. These
alkaloids can be used as remedy against various diseases, including cancer,
malaria, dengue fever,
diabetic heart disease and infectious diseases etc. Thus, this
papaya leaves can create waste to health as it is efficacious and
chemotherapeutically becoming an alternate health care system to solve the
health problems of world in today’s synthetic allopathic era.
Cost
wise the Carica papaya is very cheap
and this plant is cosmopolitan in distribution meaning it is very much
available in most of the parts of the world. The finding will also be used as a
baseline study for other researchers working on medicinal plants and used to
sensitize people on the role of traditional medicine. The concern about the
quantitative estimation of various essential element concentrations is
important for determining the effectiveness of the medicinal plants in treating
various diseases and to understand their pharmacological action.
1.7 SCOPE AND LIMITATION OF THE STUDY
The
conceptual and contextual scope of this research includes examining the
medicinal potentials (effectiveness) of Carica
Papaya, as well as extracting alkaloids, a phytochemical contained in the
leaf of Carica Papaya using a
feasible method.
Temporal
scope of this research is not time or season bound, it can be carried out in
wet or dry season provided the resource is available
This research is limited to the qualitative and
quantitative analysis of alkaloids, other phytochemicals and bioactive
constituents of Carica Papaya leaf
such as saponins, flavanoids, steroids glycosides, and phenols were not
extracted and analyzed.
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