Synergistic interactions between interferon? and carboplatin on SK-MEL 28 human melanoma cell growth inhibition in vitro

1995 ◽  
Vol 121 (2) ◽  
pp. 84-88 ◽  
Author(s):  
B. H�bner ◽  
K. Eckert ◽  
C. Garbe ◽  
H. R. Maurer
Keyword(s):  
Cell Growth ◽  
Growth Inhibition ◽  
Melanoma Cell ◽  
Human Melanoma ◽  
Human Melanoma Cell ◽  
Cell Growth Inhibition ◽  
Synergistic Interactions

scholarly journals SUN-LB27 Interleukin-8 - a Possible Target for Melanoma Treatment? In-Vitro Studies Based on Human Melanoma Cell Models

2020 ◽  
Vol 4 (Supplement_1) ◽  
Author(s):  
Pandurangan Ramaraj
Keyword(s):  
Cell Growth ◽  
Melanoma Cell ◽  
In Vitro Study ◽  
Human Melanoma ◽  
Human Melanoma Cell ◽  
Melanoma Treatment ◽  
Pre Treatment ◽  
Melanoma Growth

Abstract Previous clinical studies showed that menstruating females were better protected in melanoma than post-menopausal women and men of any age. In addition, epidemiological studies showed an increased male mortality in melanoma. But these studies did not correlate with steroid status in females. Our in-vitro study showed female sex hormone progesterone significantly inhibited human melanoma cell growth. Further in-vitro study showed that progesterone action was mediated by a specific suppression of pro-inflammatory cytokine IL-8. Our research also showed that addition of IL-8 (1 ng/ml) to melanoma cells stimulated cell growth (117%) and suppression of IL-8 by curcumin (100 μM) pre-treatment suppressed human melanoma cell growth (26%) in-vitro. This observation prompted us to check the effect of male sex hormones androstenedione (AD) and testosterone (T) on melanoma cell growth. AD and T also suppressed cell growth and IL-8 secretion, but not as significantly as that of progesterone. However, addition of progesterone (10 μM) along with androgens showed an additive effect on the inhibition of melanoma cell growth and suppression of IL-8 secretion. As steroids (P, AD, T) targeted IL-8 for their action, it was decided to check whether vitamin-D3 also targeted IL-8 secretion and cell growth. Active form of vit-D3 (25 μM) also suppressed IL-8 secretion and cell growth. But, addition of progesterone (50 μM) along with D3 significantly suppressed cell growth and IL-8 secretion. This brought IL-8 into focus as a key molecule regulating melanoma cell growth. In order to check whether IL-8 was the molecule involved in regulating melanoma cell growth, IL-8 rescue experiment after curcumin (25 μM) pre-treatment was carried out. IL-8 (100 ng/ml) was able to rescue cell growth completely after pre-treatment with curcumin, suggesting IL-8 was the molecule involved in regulating melanoma cell growth. Literature also suggested important role for IL-8 in regulating melanoma cell growth. Conditional expression of IL-8 in nude mouse by Dr. Singh et al., indicated in-vivo role of IL-8 in melanoma growth and metastasis. Conclusion: Both, in-vitro and in-vivo studies suggested an important role for IL-8 in regulating melanoma growth and metastasis. So, IL-8 could be targeted to arrest melanoma growth and metastasis in-vivo. Hence, IL-8 could be a potential target for melanoma treatment.

scholarly journals A Review of Progesterone Effects on Human Melanoma Cell Growth In-Vitro

2021 ◽  
Author(s):  
Pandurangan Ramaraj
Keyword(s):  
Cell Growth ◽  
Steroid Hormones ◽  
Melanoma Cell ◽  
Clinical Studies ◽  
Melanoma Cells ◽  
Human Melanoma ◽  
Human Melanoma Cell ◽  
And Migration ◽  
Post Menopausal

Progesterone, a female sex hormone not only has a role in reproduction, but also in protecting females in melanoma. A survey of steroid hormones actions steroid hormones actions survey on melanoma cells and literature survey showed that progesterone inhibited mouse and human melanoma cell growth significantly in-vitro. Progesterone not only inhibited cell growth, but also affected adhesion and migration functions (essential for metastasis) in-vitro. This observation correlated with the clinical studies where they had shown showed an increased survival and delayed metastasis in menstruating females in melanoma. Further, progesterone level in menstruating females (1000–1500 ng/dL) compared to post-menopausal females (20–100 ng/dL) also correlated with previous clinical studies. Progesterone action on melanoma cells, as reported by other researchers also supported the findings from this lab. Hence, progesterone could be the steroid hormone protecting menstruating females in melanoma. Moreover, our recent studies showed that progesterone suppressed pro-inflammatory cytokine IL-8 secretion by the melanoma cells, which decreased melanoma cell growth in-vitro. Hence, progesterone apart from reproductive function may also be involved in protecting menstruating females in melanoma.

In vitro synergy of paclitaxel (Taxol) and vinorelbine (navelbine) against human melanoma cell lines

1997 ◽  
Vol 33 (3) ◽  
pp. 463-470 ◽  
Author(s):  
A. Photiou ◽  
P. Shah ◽  
L.K. Leong ◽  
J. Moss ◽  
S. Retsas
Keyword(s):  
Cell Lines ◽  
Melanoma Cell ◽  
Human Melanoma ◽  
Human Melanoma Cell ◽  
Melanoma Cell Lines

scholarly journals Effect of β-carotene-rich tomato lycopene β-cyclase (tlcy-b) on cell growth inhibition in HT-29 colon adenocarcinoma cells

2008 ◽  
Vol 102 (2) ◽  
pp. 207-214 ◽  
Author(s):  
Paola Palozza ◽  
Diana Bellovino ◽  
Rossella Simone ◽  
Alma Boninsegna ◽  
Francesco Cellini ◽  
...  
Keyword(s):  
Cell Growth ◽  
Growth Inhibition ◽  
Colon Adenocarcinoma ◽  
Human Colon ◽  
Cell Growth Inhibition ◽  
Adenocarcinoma Cells ◽  
Ht 29 ◽  
Colon Adenocarcinoma Cells ◽  
Β Carotene

Lycopene β-cyclase (tlcy-b) tomatoes, obtained by modulating carotenogenesis via genetic engineering, contain a large amount of β-carotene, as clearly visible by their intense orange colour. In the present study we have subjected tlcy-b tomatoes to an in vitro simulated digestion and analysed the effects of digestate on cell proliferation. To this aim we used HT-29 human colon adenocarcinoma cells, grown in monolayers, as a model. Digested tomatoes were diluted (20 ml, 50 ml and 100 ml/l) in culture medium and added to the cells for different incubation times (24 h, 48 h and 72 h). Inhibition of cell growth by tomato digestate was dose-dependent and resulted from an arrest of cell cycle progression at the G0/G1 and G2/M phase and by apoptosis induction. A down-regulation of cyclin D1, Bcl-2 and Bcl-xl expression was observed. We also found that heat treatment of samples before digestion enhanced β-carotene release and therefore cell growth inhibition. To induce with purified β-carotene solubilised in tetrahydrofuran the same cell growth inhibition obtained with the tomato digestate, a higher amount of the carotenoid was necessary, suggesting that β-carotene micellarised during digestion is utilised more efficiently by the cells, but also that other tomato molecules, reasonably made available during digestion, may be present and cooperate with β-carotene in promoting cell growth arrest.

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