Sadam Makhamra scite author profile

Sadam Makhamra

2Publications

16Citation Statements Received

24Citation Statements Given

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Al-Quds University

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Sesamin from Cuscuta palaestina natural plant extracts: Directions for new prospective applications

Abu‐Lafi

Makhamra

Rayan³

et al. 2018

PLoS ONE

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The aim of this study is to disclose the potential bioactive components of Cuscuta palaestina, a native parasitic natural plant of flora palaestina and to open direction towards new prospective application. GC-MS analysis identified 18 components in the methanolic extract of C. palaestina for the first time. The most appealing among them are Sesamin and two other phytosterols (Campesterol and Stigmasterol), all of which are documented in the scientific literature for their anticancer activity. Quantitation of Sesamin extracted from C. palaestina by HPLC-PDA with the use of three organic solvents showed that the Sesamin content in the methanolic extract was the highest. Following the disclosure of Sesamin presence in C. palaestina, we raised the question of whether it is produced naturally in C. palaestina or acquired from the host plant. The quantitation of Sesamin in C. palaestina was performed while being with five different host plants, and was compared with the amount of Sesamin in C. palaestina grown alone. The findings reveal that Sesamin is an endogenous secondary metabolite in C. palaestina. Thus, further studies are required to prove if C. palaestina can be used as an alternative source of anticancer phytochemicals, mainly Sesamin, and if proteins in the Sesamin production pathway could be valid biological targets for the development of novel and selective pesticides for control/ eradication of C. palaestina and maybe some other Cuscuta species. As well, the findings from this study raise a big question of whether inferring Sesamin production in C. palaestina could reduce its attack ability to host plants.

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Preparative HPLC fractionation of Cinnamomum cassia Water Extract and their in-vitro Antimalarial Activities

Akkawi¹,

Abu‐Lafi²,

Attieh³

et al. 2017

J App Pharm Sci

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Due to the development of antimalarial resistance strains of Plasmodium falciparum, the search for new antimalarial drugs is immediately needed. Such drugs might work by obstructing the heme detoxification pathway in the malaria parasite, a vital requirement for parasite existence in host erythrocytes. The present study is aimed to investigate the antimalarial activity of four preparative HPLC fractions from Cinnamomum cassia water extract using semi-quantitative in vitro micro-assay that is based on the inhibition of ferriprotoporphyrin IX (FP) biomineralization. A reversed phase C18 inch preparative column and wateracetonitrile binary solvent mixture mobile phase were used to collect the fractions at 275 nm. UHPLC-MS revealed that the major compounds in water crude Cinnamomum cassia extract are coumarin and cinnamic acid. Containing coumarin as a major compound, fraction 2 showed superior efficacy compared to chloroquine and 2 -mercaptopyrimidine positive controls. Fraction 3 which contains cinnamic acid showed moderate activity, while fraction 4 was the least potent.

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Sadam Makhamra

Sesamin from Cuscuta palaestina natural plant extracts: Directions for new prospective applications

Preparative HPLC fractionation of Cinnamomum cassia Water Extract and their in-vitro Antimalarial Activities

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