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EFFECTS OF THE NEW ANTIFUNGAL THIO HALO-BENZENE DERIVATIVE 2,4-DITHIO-PHENOXY-1-IODO-4-BROMO BENZENE MOLECULE ON RAT LIVER AND KIDNEY TISSUE OXIDATIVE EVENTS

Year 2017, Volume: 30 Issue: 3, 237 - 244, 20.09.2017

Abstract

Nowadays, fluconazole is a
widely used antifungal drug. Besides its similarities with the carbon structure
of fluconazole, the newly synthesized
2,4-dithio-phenoxy-1-iodo-4-bromo
benzene
is also more active than
low concentrated fluconazole.
During and after the drug use,
oxidative events occur in the organism.
In this study, effects of previously proved as an antibacterial
and antifungal molecule
2,4-dithio-phenoxy-1-iodo-4-bromo
benzene
(C18H12S2IBr) on mammal liver
tissue and mammal kidney using biochemical methods.
80 male and
female Wistar albino rats between the range of 150-200 gr have been used for
this study.  Total 16 rats have been used
as subjects in this experiment and each group consisted of 8 males and 8
females. Rats have been given fluconazole as well as 2,4-dithio-phenoxy-1-iodo-4-bromo benzene orally, each dissolved
in alcohol, once in a week for 4 weeks. All subjects separated into 5 groups: a
control group, alcohol control, fluconazole group (0.28 mgr/100 gr) and two
different doses of 2,4-dithio-phenoxy-1-iodo-4-bromo
benzene (0.112 mg/100 gr and 0.056 mg/100 gr). Liver tissues obtained
from subjects using cervical dislocation and preserved at -30oC
until examination. Kidney malondialdehyde (MDA), glutathione (GSH), nitric
oxide (NO), vitamin C levels (AA) and myeloperoxidase activities (MPO) studied
using spectrophotometric methods. Thio halo-benzene derivative 2,4-dithio-phenoxy-1-iodo-4-bromo benzene
reduced female MDA levels -the indicator of lipid peroxidation-, and also
decreased neutrophil infiltration. As for male rats, no statistically
significant differences have been found on other parameters, excluding GSH
levels. Thereby it is concluded that this newly synthesized antifungal compound
does not cause any damage on female liver tissue. When the effects of newly
synthesized thio halo-benzene derivative 2,4-dithio-phenoxy-1-iodo-4-bromo benzene and fluconazole on the
lipid peroxidation indicator MDA compared, it has been found that it increases
the capacity of kidney tissue antioxidants and there were significantly low
statistics. It is concluded that this newly synthesized antifungal compound
does not cause any oxidative damage in male kidney tissues when comparing with
fluconazole.

References

  • [7] Koçkaya, E. A., Kılıç, A., Selmanoğlu, G., Akay, M. T., Loğoğlu, E., Öktemer, A., “Evaluation of the Effects of Newly Synthesized 2,4-Dithiophenoxy-1-iodo-4-bromo Benzene That Has Anti-Fungal and Anti-Bacterial Activities on Rats. 6th International Congress of Turkish Society of Toxicology”, 2-5 November, Antalya, Turkey (2006).
Year 2017, Volume: 30 Issue: 3, 237 - 244, 20.09.2017

Abstract

References

  • [7] Koçkaya, E. A., Kılıç, A., Selmanoğlu, G., Akay, M. T., Loğoğlu, E., Öktemer, A., “Evaluation of the Effects of Newly Synthesized 2,4-Dithiophenoxy-1-iodo-4-bromo Benzene That Has Anti-Fungal and Anti-Bacterial Activities on Rats. 6th International Congress of Turkish Society of Toxicology”, 2-5 November, Antalya, Turkey (2006).
There are 1 citations in total.

Details

Journal Section Chemistry
Authors

Elif Loğoğlu

Eda Çınar Avar This is me

Şule Coşkun Cevher

Publication Date September 20, 2017
Published in Issue Year 2017 Volume: 30 Issue: 3

Cite

APA Loğoğlu, E., Çınar Avar, E., & Coşkun Cevher, Ş. (2017). EFFECTS OF THE NEW ANTIFUNGAL THIO HALO-BENZENE DERIVATIVE 2,4-DITHIO-PHENOXY-1-IODO-4-BROMO BENZENE MOLECULE ON RAT LIVER AND KIDNEY TISSUE OXIDATIVE EVENTS. Gazi University Journal of Science, 30(3), 237-244.
AMA Loğoğlu E, Çınar Avar E, Coşkun Cevher Ş. EFFECTS OF THE NEW ANTIFUNGAL THIO HALO-BENZENE DERIVATIVE 2,4-DITHIO-PHENOXY-1-IODO-4-BROMO BENZENE MOLECULE ON RAT LIVER AND KIDNEY TISSUE OXIDATIVE EVENTS. Gazi University Journal of Science. September 2017;30(3):237-244.
Chicago Loğoğlu, Elif, Eda Çınar Avar, and Şule Coşkun Cevher. “EFFECTS OF THE NEW ANTIFUNGAL THIO HALO-BENZENE DERIVATIVE 2,4-DITHIO-PHENOXY-1-IODO-4-BROMO BENZENE MOLECULE ON RAT LIVER AND KIDNEY TISSUE OXIDATIVE EVENTS”. Gazi University Journal of Science 30, no. 3 (September 2017): 237-44.
EndNote Loğoğlu E, Çınar Avar E, Coşkun Cevher Ş (September 1, 2017) EFFECTS OF THE NEW ANTIFUNGAL THIO HALO-BENZENE DERIVATIVE 2,4-DITHIO-PHENOXY-1-IODO-4-BROMO BENZENE MOLECULE ON RAT LIVER AND KIDNEY TISSUE OXIDATIVE EVENTS. Gazi University Journal of Science 30 3 237–244.
IEEE E. Loğoğlu, E. Çınar Avar, and Ş. Coşkun Cevher, “EFFECTS OF THE NEW ANTIFUNGAL THIO HALO-BENZENE DERIVATIVE 2,4-DITHIO-PHENOXY-1-IODO-4-BROMO BENZENE MOLECULE ON RAT LIVER AND KIDNEY TISSUE OXIDATIVE EVENTS”, Gazi University Journal of Science, vol. 30, no. 3, pp. 237–244, 2017.
ISNAD Loğoğlu, Elif et al. “EFFECTS OF THE NEW ANTIFUNGAL THIO HALO-BENZENE DERIVATIVE 2,4-DITHIO-PHENOXY-1-IODO-4-BROMO BENZENE MOLECULE ON RAT LIVER AND KIDNEY TISSUE OXIDATIVE EVENTS”. Gazi University Journal of Science 30/3 (September 2017), 237-244.
JAMA Loğoğlu E, Çınar Avar E, Coşkun Cevher Ş. EFFECTS OF THE NEW ANTIFUNGAL THIO HALO-BENZENE DERIVATIVE 2,4-DITHIO-PHENOXY-1-IODO-4-BROMO BENZENE MOLECULE ON RAT LIVER AND KIDNEY TISSUE OXIDATIVE EVENTS. Gazi University Journal of Science. 2017;30:237–244.
MLA Loğoğlu, Elif et al. “EFFECTS OF THE NEW ANTIFUNGAL THIO HALO-BENZENE DERIVATIVE 2,4-DITHIO-PHENOXY-1-IODO-4-BROMO BENZENE MOLECULE ON RAT LIVER AND KIDNEY TISSUE OXIDATIVE EVENTS”. Gazi University Journal of Science, vol. 30, no. 3, 2017, pp. 237-44.
Vancouver Loğoğlu E, Çınar Avar E, Coşkun Cevher Ş. EFFECTS OF THE NEW ANTIFUNGAL THIO HALO-BENZENE DERIVATIVE 2,4-DITHIO-PHENOXY-1-IODO-4-BROMO BENZENE MOLECULE ON RAT LIVER AND KIDNEY TISSUE OXIDATIVE EVENTS. Gazi University Journal of Science. 2017;30(3):237-44.