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Research & Reviews: Journal ofPharmaceutical Analysis | ISSN : 2320-0812

Euro Pharma Chemistry & Future Pharma 2019

June 27-28, 2019 | Amsterdam, Netherlands

12th World congress on

Joint Event

4

th

Pharmaceutical Chemistry Conference Future Pharma

Volume 08

Farah Djazia Drissi et al., Pharmaceutical Analysis 2019, Volume 08

Farah Djazia Drissi

Tlemcen University, Algeria

Co-Authors

F Lahfa

1

and

N Fabre

2

1

Tlemcen University, Algeria

2

Université de Toulouse, France

UHPLC-HRMS/MS based profiling of Citrullus colocynthis

Farah Djazia Drissi

1

, F Lahfa

1

and

N Fabre

2

1

Tlemcen University, Algeria

Université de Toulouse, France

Background:

Citrullus colocynthis Schrad, also known as colocynth, is a very

common fruit in traditional medicine; it is recognized by different pharmacologic

activities in traditional Algerian medicine (i.e., purgative, anti-inflammatory,

antidiabetic, analgesic, and antiepileptic. Some of these activities were confirmed

in modern phytotherapy (Shaheen, et al., 2014). Several scientific studies carried

out on crude extracts of pulp and seed of colocynth have demonstrated the

antimitotic effect (Sari-Hassoun, et al., 2016), antidiabetic (Ebrahimi, et al.,

2016), antiparasitic (Cheraghi Niroumand, et al., 2016), larvicidal (Hamid, et al.,

2016) as well as a preventive effect against obesity (Alhawiti, 2018). However,

the bioactive chemicals compounds responsible of those activities are not

isolated and identified yet. Starting from two fractions of ethyl acetate from pulp

and seed obtained at the Lapsaab laboratory in Tlemcen (Algeria), our objective

at the PharmaDev laboratory was first to better know the chemical composition

in cucurbitacins of these two extracts and secondly to compare the chemical

profiles of the seed and the pulp. We were then able to isolate and identify five

molecules likely to be responsible for one of the activities mentioned previously.

Materials & Methods:

The dereplication part was carried out using a UHPLC-

HRMS chain and the raw formulas were obtained via the softwre Xcalibur 3.0.

The isolation of the molecules was done by different chromatographic methods:

SPE, CC, MPLC and HPLC. Isolated molecules were identified by MS and 300

MHz NMR.

Results:

The LC-MS and TLC results showed that the chemical profiles of the

seed and pulp ethyl acetate extracts are similar, that would explain why both are

active on the same targets. We have also demonstrated the heterogeneity of the

cucurbitacins, around 20 cucurbitacins have been identified in each fraction and

some of them have never been described in C. colocynthis. The major compound

isolated from the two extracts is elaterinid. Other cucurbitacins and a benzoic

acid derivative have been isolated and identified: cucurbitacin E, cucurbitacin I,

glycosylated cucurbitacin I and 4-hydroxybenzaldehyde.

Conclusion:

Our data first demonstrate the similarity in the cucurbitacin

composition of the seed and the pulp. These results suggest that the various

biological activities of the colocynth could be due to the action of one or many

cucurbitacins.

Biography

Farah Djazia Drissi is pursuing her PhD in Abou Bekr Belkaîd University, Tlemcen, Algeria. In

2016, she has received a Master’s degree in Biochemistry; the main research of the Master

Thesis was the Study of the Dedifferentiation of the Beta Cells in Alpha Cells in Diabetes

Type 2. For her Doctoral Research, she takes a multidisciplinary approach that encompasses

the fields of Biochemistry, Molecular Biology, Chemistry, as well as the Pharmacognosy. Her

research focuses on the phytochemical study and the research of biological activity of the fruit

Citrullus colocynthis.

drissi.djazia@gmail.com