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Cucurbitacin-E; Curvularia lunata Secondary Metabolite as a BRCA 1 and 2 Regulator in Mice Associated Breast Cancer
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Background:
Cucurbitacin-induced apoptosis and inhibition of cell growth can render
several cancers ineffective. The microbial transformation of cucurbitacin-E-glucoside to cucurbitacin-
E was carried out by Curvularia lunata (NRRL 2178). Moreover, in vitro anticancer activity
against the MCF-7 cell line as well as in vivo anticancer activity against dimethylbenz (a)
anthracene (DMBA)-induced breast cancer in mice using cucurbitacin-E was evaluated.
Methods:
The cucurbitacin-E-glucoside was biotransformed by Curvularia lunata to cucurbitacin-
E, and the isolated compound was tested in vitro against the MCF-7 cell line, and its IC50 was
calculated. LD50 of cucurbitacin-E was estimated in mice, and its protective activity against
DMBA-induced cancer in mice was studied. Breast cancer induction was done by a single-dose
subcutaneous administration of DMBA (50 mg). Plasma ALT, AST, ALP, and LDH, as well as
GSH, SOD, GPx, MDA, TNF-α, IL-6, and tumor suppressor P53 assays, were used to assess cucurbitacin-
E's capacity to protect the liver and breast against DMBA-induced toxicity. Moreover,
by assessing the gene expression of tumor suppressor genes (BRCA 1 and 2) and conducting histopathological
analysis, the suppressive effect of cucurbitacin-E was examined.
Results:
The IC50 value of cucurbitacin-E against MCF-7 cell lines equals 72.15 ± 0.64 μg/ml.
LD50 of cucurbitacin-E given orally in adult mice is equal to 1200 mg/kg b.w. The levels of
plasma ALT, AST, ALP, and LDH were decreased significantly in DMBA-treated mice when
administered with cucurbitacin-E at 1/50 LD50 (24 mg/kg/b.w.) and 1/20 LD50 (60 mg/kg/b.w.).
In breast tissue, the levels of GSH, SOD, GPx, and P53 were significantly increased, as were decreased
levels of TNF-α, IL-6, P53, and MDA. Conversely, there was a downregulation in the
mRNA expression levels of BRCA1 and BRCA2. The histopathological analysis revealed that
cucurbitacin-E management improved the tissue architecture of breast tumors.
Conclusions:
These findings demonstrate the ability of cucurbitacin-E to inhibit cancer cells in
the rat breast by controlling oxidative stress and inflammatory biomarkers, as well as downregulating
the mRNA expression levels of BRCA1 and BRCA2.
Bentham Science Publishers Ltd.
Title: Cucurbitacin-E; Curvularia lunata Secondary Metabolite as a BRCA 1 and 2 Regulator in Mice Associated Breast Cancer
Description:
Background:
Cucurbitacin-induced apoptosis and inhibition of cell growth can render
several cancers ineffective.
The microbial transformation of cucurbitacin-E-glucoside to cucurbitacin-
E was carried out by Curvularia lunata (NRRL 2178).
Moreover, in vitro anticancer activity
against the MCF-7 cell line as well as in vivo anticancer activity against dimethylbenz (a)
anthracene (DMBA)-induced breast cancer in mice using cucurbitacin-E was evaluated.
Methods:
The cucurbitacin-E-glucoside was biotransformed by Curvularia lunata to cucurbitacin-
E, and the isolated compound was tested in vitro against the MCF-7 cell line, and its IC50 was
calculated.
LD50 of cucurbitacin-E was estimated in mice, and its protective activity against
DMBA-induced cancer in mice was studied.
Breast cancer induction was done by a single-dose
subcutaneous administration of DMBA (50 mg).
Plasma ALT, AST, ALP, and LDH, as well as
GSH, SOD, GPx, MDA, TNF-α, IL-6, and tumor suppressor P53 assays, were used to assess cucurbitacin-
E's capacity to protect the liver and breast against DMBA-induced toxicity.
Moreover,
by assessing the gene expression of tumor suppressor genes (BRCA 1 and 2) and conducting histopathological
analysis, the suppressive effect of cucurbitacin-E was examined.
Results:
The IC50 value of cucurbitacin-E against MCF-7 cell lines equals 72.
15 ± 0.
64 μg/ml.
LD50 of cucurbitacin-E given orally in adult mice is equal to 1200 mg/kg b.
w.
The levels of
plasma ALT, AST, ALP, and LDH were decreased significantly in DMBA-treated mice when
administered with cucurbitacin-E at 1/50 LD50 (24 mg/kg/b.
w.
) and 1/20 LD50 (60 mg/kg/b.
w.
).
In breast tissue, the levels of GSH, SOD, GPx, and P53 were significantly increased, as were decreased
levels of TNF-α, IL-6, P53, and MDA.
Conversely, there was a downregulation in the
mRNA expression levels of BRCA1 and BRCA2.
The histopathological analysis revealed that
cucurbitacin-E management improved the tissue architecture of breast tumors.
Conclusions:
These findings demonstrate the ability of cucurbitacin-E to inhibit cancer cells in
the rat breast by controlling oxidative stress and inflammatory biomarkers, as well as downregulating
the mRNA expression levels of BRCA1 and BRCA2.
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