ABSTRACT
Malaria, a parasitic infectious disease, remains one of the world’s foremost health concerns,
even more so in developing countries. Much progress has been made in fighting the disease,
particularly in Southern Africa where four countries (Namibia included) have targeted
malaria elimination by 2020. Challenges such as the absence of a vaccine, resistance to
insecticides, and particularly the emergence of resistance to current antimalarial treatment
regimens threaten to undermine the current successes in malaria control efforts. Secondly,
the lack of access and acceptance of conventional antimalarial treatment by populations in
malaria endemic areas reduces the feasibility of eliminating and consequently eradicating
malaria. Local communities in Namibia use plant-based medicines to treat malaria and
malaria associated symptoms based on traditional observations or beliefs over decades. As
to whether these plants are efficacious for the indication and cause toxicity is yet to be
validated scientifically. The aims of this study were, therefore, to evaluate the biological
activities of the extracts of two Namibian plant species to provide a scientific rationale for
their traditional uses.
Guibourtia coleosperma and Diospyros chamaethamnus, which are used to alleviate
symptoms of malaria in Namibia, were investigated using phytochemical analyses, and in
vitro and in vivo bioassays. Extracts were prepared by using solvent extraction of varying
polarities to obtain a wide range of metabolites. Ground plant material was macerated in
distilled water (aqueous extracts) and dichloromethane-methanol (1:1v/v) (organic extracts)
respectively. The extracts were dried in vacuo, and examined for six classes of compounds
known to have antiplasmodial activity using TLC. GC-MS was used to identify compounds in the plant extracts related to biological activity, using a BP5MS column. Radical
scavenging abilities of the plant extracts were ascertained by the 2,2-Diphenyl-1-picrylhydrazyl
(DPPH) method. In vitro antimalarial activity was determined by reconstituting the
plant extracts in water and DMSO at varying concentrations, and incubating extracts with
Plasmodium falciparum D10 infected RBCs for 48 hours. Subsequently, growth inhibition
of the P. falciparum parasites was determined using parasitaemia. In vitro assays to
determine cytotoxic effects were conducted with the plant extracts using a fibroblast cell line
(W138). In vivo inhibition of the growth of P. berghei in Swiss albino mice (20±4 g) was
evaluated using optical microscopy on blood smears. Survival curves post-infection were
also used to determine suppressive and prophylactic activities of extracts. The plant extracts
were also evaluated for their toxicity in healthy mice using a dose escalation method with a
starting dose of 300 mgkg-1.
The crude extracts contained alkaloids, anthraquinones, flavonoids, steroids and
terpenoids. Secondary metabolites with antiplasmodial, antibacterial and antioxidant
properties were tentatively identified as 3,5-dihydroxy-6-methyl-2,3-dihydro-4H-pyran-4-
one, phloroglucinol, stigmasterol, glycerol 2-hexadecanoate, α-amyrin, 9,12-octadecdenoic
acid (Z,Z)-, hexadecanoic acid, oleic acid, lanosterol, spiculesporic acid, squalene,
campesterol and vitamin E. Antioxidant activity results showed that the extracts of D.
chamaethamnus yielded the highest antioxidant activities with IC50 values of ranging from
7.63 to 10.74 μg/mL, whilst the extracts G. coleosperma yielded antioxidant activities with
IC50 values of ranging from 22.03 to 36.05 μg/mL. Moderate in vitro antiplasmodial activity
(IC50 < 50 μg/ml) against P. falciparum D10 was observed for the two plants ranging from
18.30 to 31.61 μg/mL. All plant extracts showed no cytotoxicity with IC50 values above 100 μg/mL, except for the organic extract of D. chamaethamnus (CC50=29.73). The organic
extracts for both D. chamaethamnus and G. coleosperma (800 mgkg-1) exhibited significant
(P< 0.05) blood schizonticidal activity in the 4-day early infection test with parasite growth
inhibition of 44.66 and 29.59 %, respectively. This dose also prolonged the survival of the
mice by 50 and 58 % (i.e. with 6 and 7 days), respectively. The plant extracts also exhibited
prophylactic activity in the mice inhibiting parasitaemia with 56.13 (D. chamaethamnus)
and 55.48 % (G. coleosperma) at the highest dose (800 mgkg-1) and increasing survival by
155.6 and 22.2 % (i.e. with 14 and 3 days), respectively. Oral administration of crude
extracts at the highest dose of 2000 mgkg-1 resulted in no mortalities or evidence of adverse
effects, indicating that D. chamaethamnus and G. coleosperma extracts were non-toxic.
The study showed promising antimalarial activities of D. chamaethamnus and G.
coleosperma. The results show that the ethnomedicinal use of these plants to treat symptoms
of malaria is rational and safe. This is a step in the right direction towards incorporating their
use in mainstream health care policies as alternative treatment options for malaria.
Identification of bioactive compounds to standardize extracts should the next step. Further
studies should also include the optimization of doses to improve efficacy, and studies to
assess the antiplasmodial activities of the two plants in combination treatments as used in an
ethnomedicinal setting. Lastly, this study has shown that the plant extracts can also be used
as a prophylactic. This is new knowledge should be shared with indigenous communities to
maximize the medicinal use of these plants
Key words: medicinal plants, Diospyros chamaethamnus, Guibourtia coleosperma, malaria,
phytochemical screening, antimalarial compounds, in vitro antiplasmodial activity, in vivo
antiplasmodial activity, cytotoxicity, acute oral toxicity
DU, C (2021). Ethnopharmacological Assessment Of Guibourtia Coleosperma And Diospyros Chamaethamnus Extracts As Alternative Treatment Options For Malaria. Afribary. Retrieved from https://track.afribary.com/works/ethnopharmacological-assessment-of-guibourtia-coleosperma-and-diospyros-chamaethamnus-extracts-as-alternative-treatment-options-for-malaria
DU, CHARWAN "Ethnopharmacological Assessment Of Guibourtia Coleosperma And Diospyros Chamaethamnus Extracts As Alternative Treatment Options For Malaria" Afribary. Afribary, 28 Apr. 2021, https://track.afribary.com/works/ethnopharmacological-assessment-of-guibourtia-coleosperma-and-diospyros-chamaethamnus-extracts-as-alternative-treatment-options-for-malaria. Accessed 24 Nov. 2024.
DU, CHARWAN . "Ethnopharmacological Assessment Of Guibourtia Coleosperma And Diospyros Chamaethamnus Extracts As Alternative Treatment Options For Malaria". Afribary, Afribary, 28 Apr. 2021. Web. 24 Nov. 2024. < https://track.afribary.com/works/ethnopharmacological-assessment-of-guibourtia-coleosperma-and-diospyros-chamaethamnus-extracts-as-alternative-treatment-options-for-malaria >.
DU, CHARWAN . "Ethnopharmacological Assessment Of Guibourtia Coleosperma And Diospyros Chamaethamnus Extracts As Alternative Treatment Options For Malaria" Afribary (2021). Accessed November 24, 2024. https://track.afribary.com/works/ethnopharmacological-assessment-of-guibourtia-coleosperma-and-diospyros-chamaethamnus-extracts-as-alternative-treatment-options-for-malaria