1.Investigation of possible rickettsial infection in patients with malaria
Tay, S.T. ; Kho, K.L. ; Vythilingam, I. ; Ooi, C.H. ; Lau, Y.L.
Tropical Biomedicine 2019;36(1):257-262
Rickettsioses are a common health problem in many geographical areas, including
rural areas in Southeast Asia. Co-infection of rickettsioses and malaria has been reported in
Africa, where common reservoir and vectors are available. In this study, blood samples of
Malaysian patients microscopically positive (n=148) and negative (n=88) for malaria parasites
(Plasmodium knowlesi, Plasmodium malariae, Plasmodium falciparum, and Plasmodium
vivax) were screened for the presence of rickettsial DNA, using PCR assays targeting specific
genes. A partial fragment of rickettsial ompB gene was successfully amplified and sequenced
from a patient microscopically positive for Plasmodium spp. and PCR-positive for P. vivax.
BLAST analysis of the ompB sequence demonstrated the highest sequence similarity (99.7%
similarity, 408/409nt) with Rickettsia sp. RF2125 (Genbank accession no. JX183538) and
91.4% (374/409 nt) similarity with Rickettsia felis URRWXCal2 (Genbank accession no.
CP000053). This study reports rickettsial infection in a malaria patient for the first time in the
Southeast Asia region.
2.Genetic diversity of secreted protein with an altered thrombospondin repeat (SPATR) of Plasmodium knowlesi clinical isolates from Malaysia
Azlan, U.W. ; Lau, Y.L. ; Hamid, M.H.A. ; Jelip, J. ; Ooi, C.H. ; Mudin, R.N. ; Jaimin, J.J. ; Fong, M.Y.
Tropical Biomedicine 2022;39(No.4):504-510
The Plasmodium knowlesi secreted protein with an altered thrombospondin repeat (PkSPATR) is an
important protein that helps in the parasite’s invasion into the host cell. This protein has been regarded
as one of the potential vaccine candidates against P. knowlesi infection. This study investigates the
genetic diversity and natural selection of PkSPATR gene of P. knowlesi clinical isolates from Malaysia.
PCR amplification of the full length PkSPATR gene was performed on 60 blood samples of infected P.
knowlesi patients from Peninsular Malaysia and Malaysian Borneo. The amplified PCR products were
cloned and sequenced. Sequence analysis of PkSPATR from Malaysia showed higher nucleotide diversity
(CDS p: 0.01462) than previously reported Plasmodium vivax PvSPATR (p = 0.0003). PkSPATR from
Peninsular Malaysia was observed to have slightly higher diversity (CDS p: 0.01307) than those from
Malaysian Borneo (CDS p: 0.01212). Natural selection analysis on PkSPATR indicated significant purifying
selection. Multiple amino acid sequence alignment revealed 69 polymorphic sites. The phylogenetic
tree and haplotype network did not show any distinct clustering of PkSPATR. The low genetic diversity
level, natural selection and absence of clustering implied functional constrains of the PkSPATR protein.
3.High incidence of Plasmodium knowlesi malaria compared to other human malaria species in several hospitals in Malaysia
Lai, M.Y. ; Rafieqin, N. ; Lee, P.Y.@Lee, Z. ; Amir Rawa, M.S. ; Dzul, S. ; Yahaya, N. ; Abdullah, F.H. ; Othman, N. ; Jelip, J. ; Ooi, C.H. ; Ibrahim, J. ; Aung, M. ; Abdullah, A.H. ; Laili, Z. ; Lau, Y.L.
Tropical Biomedicine 2021;38(No.3):248-253
Through the regional control programme, Malaysia has been successfully reducing the incidence of Plasmodium falciparum and Plasmodium vivax infections. However, the incidence of zoonotic malaria Plasmodium knowlesi infection is increasing and now has been the major cause of malaria in Malaysia especially Malaysian Borneo. The emergence of knowlesi infection has threatened the malaria elimination programme which the government aims to reduce the overall malaria infections by 2020. Unlike other benign human Plasmodium spp., P. knowlesi can cause fatal infections. The aim of this study was to determine the incidence and distribution of five human malaria parasites including P. knowlesi in Peninsular Malaysia and Malaysian Borneo. A total of 112 blood samples were collected from seven states and district hospitals in Peninsular Malaysia and Malaysian Borneo from year 2015 to 2016. The samples were examined by microscopy and further confirmed by nested PCR assay targeting 18S rRNA gene of Plasmodium spp. Following the nested PCR assays, a total of 54 (48.2%) samples were positive for P. knowlesi infections, 12 (10.7%) cases were positive for P. vivax infections, followed by 7 (6.3%) cases of P. falciparum and 4 (3.5%) cases of P. malariae. There were 3 cases (2.7%) of mixed infections (P. knowlesi/P. vivax). However, no cases were identified as P. ovale. A total of 32 (28.6%) cases were found as negative infections. LoopMediated Isothermal Amplification Assay (LAMP) was performed to confirm inconclusive results produced by microscopy and nested PCR. P. knowlesi showed the highest prevalence in Sarawak (n= 30), Sabah (n=13), Pulau Pinang (n=5) and Pahang (n=6). PCR and LAMP was not able to detect a large number of microscopy positive samples due to DNA degradation during storage and shipping. Among all the states involved in this study, the highest prevalence of P. knowlesi infection was found in Sabah and Sarawak.