Propolis: chemical composition, biological properties and therapeutic activity
Yüklə 0,68 Mb. Pdf görüntüsü
|
|
3-methylbut-2-enyl caffeate
and 3-methylbutyl ferulate (Bankova et al, 1987;
Amoros et al,
1994). Antifungal activity Millet-Clerc et al (1987) reported that propo- lis exhibited an important antifungal activ-
ity against Trichophyton and Mycrosporum in the presence of propylene glycol, which
interacts synergistically at a
concentra- tion.
Combinations of some
antimycotic drugs
with propolis (10%) increased their activity on Candida albicans yeasts. The
greatest synergistic effect against
most strains
was obtained when propolis was
added to
antifungal drugs (Holderna and Kedzia, 1987). Valdés et al (1987) tested 30
propolis samples produced in
Cuba against
2 strains of C albicans. Lisa et
al (1989)
verified the antifungal activity of propolis extracts (10%
in ethanol) against 17 fungal pathogens. The EEP inhibited Candida and all tested dermatophytes. Fer-
nandes Junior et
al (1994)
evaluated the antifungal activity of EEP
against C albi- cans, C parapsilosis, C tropicalis and C
liermondii; 98%
of fungi
samples were
sen- sitive
to EEP concentrations of less than 5.0%. Lori (1990) observed that in in vitro tests, propolis concentrations of 5 or
10% prevented growth of Trichophyton verruco- sum.
The antifungal activity of propolis was observed in some plant
fungi in vitro (La Torre
et al, 1990).
Cytotoxic activity
Extracts of propolis have been examined for in vitro cytotoxic activity by different meth- ods of tissue culture in some
cell lines. Hladón
et al (1980) investigated the
cyto- static
activity of
propolis extracts on human
KB (nasopharinx carcinoma) and HeLa (human
cervical carcinoma) cell lines. The ethereal propolis fraction (DEEP) exhibited the strongest cytostatic activity. The
sec- ondary
fractions of ethyl
acetate and butanol of DEEP presented a good activity. Inter- mediate
activity was
verified in
the CHCl
3 /DEEP
fraction. The killing
action of propolis on HeLa cells was tested
by Ban
et al
(1983). A concentration of 10 mg/ml caused 50% inhibition of colony-forming ability. In assessing the killing
action of propolis, flavonoids were
also tested. HeLa cells
were found
to be
more sensitive to quercetin and rhamnetin, but less sensitive to
galangin. Grunberger et
al (1988)
described caffeic acid phenethyl ester (CAPE)
as the
compound partially respon-
sible for the cytostatic properties of propo- lis. The effect of CAPE on
human cancer
cell lines was
tested in
breast carcinoma (MCF-7)
and melanoma (SK-MEL-28 and
SK-MEL-170) cell lines in culture. A dose of 10 μg/ml of CAPE completely inhibited the
incorporation of
[ 3 H]thymidine into the DNA of breast carcinoma. More dramatic effects were
observed in the melanoma, colon (HT 29)
and renal carcinoma cell lines, but the
CAPE effect on
normal fibroblasts and
melanocytes was
significantly less.
Because the cytostatic action of CAPE is more
effective in transformed cells,
it is rea-
sonable to
assume that it is responsible for
the claimed carcinostatic properties of propolis. The antitumoral activity of caffeic acid derivatives, eg, methyl
ferulate, methyl acetyl ferulate, methyl acetyl isoferulate and methyl diacetyl caffeate, was
reported by Inayama et
al, 1984.
The effect of other caffeic acid derivatives has been investigated by König (1988). Ross
(1990) reported that
the cyto-
toxic effect of propolis in vitro against Chi-
nese hamster ovary cancer cell lines was due
to naphthalene derivatives in propolis. In vitro tests of extracts of Brazilian propolis
from A mellifera on human
hepatocellular carcinoma, KB and HeLa cell lines showed that the cytotoxic effects
were caused
by quercetin, caffeic acid and phenyl
ester con-
stituents of propolis (Matsuno, 1992). Scheller et
al (1989c)
reported a cytotoxic activity of
propolis in mice bearing Ehrlich
carcinoma in vivo. Antiprotozoan activity Scheller et al (1977b) reported antiproto- zoan activity of propolis (EEP) in vitro on
3 strains of Trichomonas vaginalis. EEP solu- tions in
vitro presented a lethal
activity on strains at a concentration of 150 mg/ml. The
antiprotozoan activity of
propolis was
verified in
experimental animals
infected with Eimeria magna, E
E per-
forans treated with 3% EEP and other antiprotozoan drugs. The coccidiostatic effect of propolis was
higher than other drugs (Hollands et al,
1988a). Propolis preparations were classified as a good
coc- cidiostat against Chilomonas paramecium (Hollands etal, 1988b).
Torres et al (1990) evaluated the effect of EEP on the
growth of the protozoan parasite Giardia lamblia in vitro. At an EEP concentration of 11.6 mg/ml there
was a 98%
inhibition effect.
Other properties Many other
biological and
pharmacological properties of propolis have been described by
various authors, including regeneration of cartilaginous tissue (Scheller et al, 1977a),
bone tissue (Stojko
et al, 1978)
and dental pulp
(Scheller et al, 1978; Magro Filho and Perri de Carvalho, 1990), anaesthetic activ- ity (Paintz and Metzner, 1979), hepato- protective activity (Giurgea et al, 1985, 1987; Hollands et al, 1991; Tushevskii et al,
1991), increasing the number of plaque-forming cells in the spleen
of populations of immu- nized males (Scheller et
al, 1988),
immunomodulatory action
(Benková et
al, 1989;
Dimov et al, 1991, 1992), immuno-
genic properties (Scheller et al,
1989d), liver
detoxifying action,
choleretic and antiulcer action in vitro (Kedzia et al,
1990), antioxi-
dant activity (Yanishlieva and
Marinova, 1986;
Krol et al, 1990; Scheller et al, 1990; Dobrowolski et al, 1991; Misic et al, 1991; Olinescu, 1991; Volpert and Elstner, 1993a, 1993b),
anticaries in rats
(Ikeno et al,
1991), protection agent against gamma irradiation in mice (Scheller et al,
1989b), antileish- maniosis in
hamster (Sartori et al, 1994),
antitrypanosomal agent
(Higashi et al,
1991) and inhibition of dihydrofolate reductase activity (Strehl et al, 1994). Toxicity
As propolis use increases, its side-effects are observed more frequently (Wanscher, 1976; Petersen, 1977; Monti
et al, 1983; Ayala
et al, 1985; Machácková, 1985; Rudzki
et al, 1985; Tosti
et al, 1985; Cirasino
et al, 1987; Hausen
et al, 1987b; Sartoris
et al, 1987; Young,
1987; Hay
and Greig,
1990). Propolis contains some
compounds which
cause toxicity. Beekeeper’s dermati- tis due to propolis is well known and an apparent association between sensitivity to propolis and to
poplar resins has been observed (Hausen
et al, 1987a, b).
Hausen et al (1987b) described the inci- dence
of nearly
200 cases
of allergic con- tact
dermatitis due to
propolis. They
identified a substance 1,1-dimethylallyl caffeic acid (LB-1) responsible for the
allergy. They
also described the sensitizing properties of LB-
1 in
guinea pigs provoked by several propo- lis samples, demonstrating that this com-
pound is the main sensitizer in propolis. The
flavonoid tectochrysin was considered a sec- ond
allergen, although Schmalle et al (1986) stated that tectochrysin was a
very weak sensitizer. Hashimoto et al (1988) verified
the allergenic properties of phenylethyl and prenyl
esters of caffeic acids from propolis. Observations of propolis used orally
sug- gest
that intestinal absorption could play
an important role in propolis sensitization. Lim- iting
the extent
of oral administration may be useful in preventing propolis allergy (Angelini et al, 1987; Hausen
et al, 1987a, 1988;
Kleinhans, 1987; Trevisan and Kokelj, 1987;
Machácková, 1988).
Therapeutic activity
Propolis has been used since ancient times in the remedies in folk medicine in many parts of the world (Ghisalberti, 1979). It has
a long
tradition of medicinal use in many
parts of the world. Many European coun- tries
are interested in natural products to heal diseases and propolis is
an important product used for this purpose. It is found in pharmaceutical and
cosmetic products, such as
anti-acne lotion,
face creams,
ointments, lotions and solutions (Debuyser, 1983;
Leje- une
et al, 1988; Pons and Cueto, 1988,
1989; Goetz, 1990).
Propolis in
dermatology Bolshakova (1975) treated 110 patients infected with Trichophyton on
the hairy
zone of the head with 50% propolis (as an unguent). In 97 patients, it was
found to
pro- duce excellent results. Other examples of the
treatment of
dermatological diseases
were described when propolis was
used as an antiseptic (Bolshakova, 1975;
Gafar et al, 1986), antimycotic (Holderna and
Kedzia, 1987;
Millet-Clerc et al,
1987), bacteriostatic (Soboleva et al, 1990; Dobrowolski et al,
1991; Stark
and Glinski, 1993; Ventura Coll et al, 1993),
antiviral (Giurcaneanu et al, 1988;
Vachy et al,
1990) and
fungistatic (Millet-Clerc et al, 1987) agent. Many other propolis applications in dermatology have been described. It has been used for wound healing, tissue regeneration, treatment of burns, neurodermatitis, microbial eczema,
contact dermatitis, leg ulcers,
psoriasis, mor-
phea, herpes simplex and
genitalis, pruri- tus
ani, dermatophytes, trophic ulcers, pulp
gangrene and as an
astringent (Bolshakova, 1975; Molnar-Toth, 1975; Scheller et al,
1977a, 1978; Ghisalberti, 1979; Korsun, 1983;
Gafar et al, 1986; Hausen et al,
1987a; Giurcaneanu et al, 1988; Ponce de
Leon and Benitez, 1988; Goetz, 1990;
Fierro Morales, 1994). Propolis in otorhinolaryngologic (ORL) diseases
Matel et al (1973) described the treatment of 126
subjects suffering of external otitis,
chronic mesotympanic otitis and tympan
perforation with
propolis solutions (5-10%) which had a positive therapeutic result in
most cases.
Propolis effects in other ORL diseases were reported: acute inflamma- tions of the ear
(Kachnii, 1975;
Palos et al,
1989), treatment of mesotympanitis (Pop- nikolov et
al, 1973), pharyngitis (Doroshenko, 1975), tuberculosis (Karimova and
Rodionova, 1975),
chronic bronchitis (Chuhrienko et al, 1989; Scheller et al, 1989a), rhinopharyngolaryngitis (Isakbaev, 1986), pharyngolaryngitis (Lin et al,
1993a) vasomotor catarrh treatment (Zommer- Urbanska et al, 1987)
and rhinitis (Nuñez et al, 1988/1989). Propolis in
gynecological diseases
Zawadzki and Scheller (1973)
investigated 90
cases of
therapeutic activity of
3% EEP in
cases of
vagina and
uterus cervix inflam- mation caused
by S pyogenes. They observed that more than 50% of the cases
responded well
to treatment with EEP. The action of propolis to treat inflammatory and distrophic lesions of the female genital
sys- tem
caused by protozoan and fungi
has been studied. Some 137
cases of
diffuse inflam- mations, ulcerations and ex-ulcerations of cervix uteri diseases were investigated by Roman et al (1989). After 20-25 d of asso-
ciated treatment (allopathic and
apithera- peutic)
very good
results were
obtained in 53 cases, good results in 24, and
satisfactory in 28 cases. The results obtained by Roman
et al (1989) confirm that propolis potentiates the antiseptic, antifungal and antit- rychomonas actions of
specific chemical
medicines. Stojko
and Stojko
(1993) also
reported the
use of
propolis preparations for
treatment of
gynecological disorders. Propolis in
stomatology Mirayes
et al
(1988) described a clinical
assay with an
extract of
propolis that showed its efficacy against giardiasis. Some 138 patients were studied, 48 children and 90 adults, and treated with propolis (in children, concentration of 10% and adults 20%).
At these
concentrations, 52%
of the children showed
a cure. In
adults, the
propolis effect
was the
same as tinidazole, an antiproto- zoan drug.
When the propolis concentra- tion
was elevated to 30%,
there was a
higher efficacy (60% cure versus 40%
Yüklə 0,68 Mb. Dostları ilə paylaş:
|