Low-intensity ultrasound inhibits melanoma cell proliferation in vitro and tumor growth in vivo

HDAC8, c MYC and MYCN are involved in the tumorigenesis of neuroblastoma. A mouse Neuroblastoma (NB) tumor model was used to understand the role of miRNA, miR-665 in NB tumorigenesis and cellular differentiation. During cellular differentiation of NB cells there is an up regulated miRNA-665. We found that HDAC 8, c MYC and MYCN are the direct targets of mimic miR-665 which was validated by luciferase reporter plasmid with 3’ UTR and ELISA. Mimic miR-665 inhibited cell proliferation, arrested cells in G1 stage and decreased S Phase in cell cycle. miR-665 increased the acetylation of histones and activated Caspase 3. This is the first report to recognize miRNA 665 as a suppressor miRNA of NB. The effects of miR-665 were confirmed with the transfection of siRNA for HDAC8 and siRNA for MYC. Individual siRNA- HDAC8 or siRNA-MYC inhibited 40–50% of cell proliferation in vitro, however, the treatment with the combination of both siRNA-MYC + siRNA- HDAC8 inhibited 86% of cell proliferation. Indicating that both the targets c MYC and HDAC 8 should be reduced to obtain a significant inhibition of cell proliferation. Intratumoral treatment of xenograft tumors in mice with the combination of siRNA-MYC + siRNA- HDAC8 reduced the levels of target c-MYC protein by 64% and target HDAC 8 protein by 85% and the average tumor growth reduced by 80% compared to control tumors treated with NC-siRNA. Our results suggest the potential therapeutic effect of suppressor miR-665 and the combination of siRNA-MYC + siRNA-HDAC8 for neuroblastoma treatment.

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Inhibition of Cancer Cell Proliferation in vitro and Tumor Growth in vivo by Hydrophis spiralis Sea Snake Venom

International Journal of Cancer Research ◽

10.3923/ijcr.2007.186.190 ◽

2007 ◽

Vol 3 (4) ◽

pp. 186-190

Author(s):

R. Karthikeya ◽

S. Karthigaya ◽

M. Sri Balasubash ◽

S. Vijayalaks ◽

S.T. Somasundar ◽

...

Keyword(s):

Cell Proliferation ◽

Tumor Growth ◽

Cancer Cell ◽

Snake Venom ◽

Cancer Cell Proliferation ◽

Sea Snake ◽

Proliferation In Vitro

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Calreticulin and Calreticulin Fragments Are Endothelial Cell Inhibitors That Suppress Tumor Growth

Blood ◽

10.1182/blood.v94.7.2461.419a26_2461_2468 ◽

1999 ◽

Vol 94 (7) ◽

pp. 2461-2468 ◽

Cited By ~ 129

Author(s):

Sandra E. Pike ◽

Lei Yao ◽

Joyce Setsuda ◽

Karen D. Jones ◽

Barry Cherney ◽

...

Keyword(s):

Amino Acids ◽

Cell Proliferation ◽

Endothelial Cell ◽

Tumor Growth ◽

Angiogenesis Inhibitors ◽

Full Length ◽

Endothelial Cell Proliferation ◽

Proliferation In Vitro

Several angiogenesis inhibitors are fragments of larger proteins that are themselves not active as angiogenesis inhibitors. Vasostatin, the N-terminal domain of calreticulin inclusive of amino acids 1-180, is an angiogenesis inhibitor that exerts antitumor effects in vivo. In the present study, we examined whether the full-length calreticulin molecule shares the antiangiogenic and antitumor activities of vasostatin. Similar to vasostatin, calreticulin selectively inhibited endothelial cell proliferation in vitro, but not cells of other lineages, and suppressed angiogenesis in vivo. When inoculated into athymic mice, calreticulin inhibited Burkitt tumor growth comparably with vasostatin. Calreticulin lacking the N-terminal 1-120 amino acids inhibited endothelial cell proliferation in vitro and Burkitt tumor growth in vivo comparably with vasostatin. An internal calreticulin fragment encompassing amino acids 120-180 also inhibited endothelial cell proliferation in vitro and angiogenesis in vivo comparably with calreticulin and vasostatin. These results suggest that the antiangiogenic activities of vasostatin reside in a domain that is accessible from the full-length calreticulin molecule and localize to calreticulin N-terminal amino acids 120-180. Thus, calreticulin and calreticulin fragments are inhibitors of angiogenesis that directly target endothelial cells, inhibit angiogenesis, and suppress tumor growth. This information may be critical in designing targeted inhibitors of pathological angiogenesis that underlies cancer and other diseases.

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Inhibition of Hep2 and HeLa cell proliferation in vitro and EAC tumor growth in vivo by Lapemis curtus (Shaw 1802) venom

Toxicon ◽

10.1016/j.toxicon.2007.08.012 ◽

2008 ◽

Vol 51 (1) ◽

pp. 157-161 ◽

Cited By ~ 8

Author(s):

R. Karthikeyan ◽

S. Karthigayan ◽

M. Sri Balasubashini ◽

S.T. Somasundaram ◽

T. Balasubramanian

Keyword(s):

Cell Proliferation ◽

Tumor Growth ◽

Hela Cell ◽

Proliferation In Vitro

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Nuclear Localization of BRAFV600E Is Associated with HMOX-1 Upregulation and Aggressive Behavior of Melanoma Cells

Cancers ◽

10.3390/cancers14020311 ◽

2022 ◽

Vol 14 (2) ◽

pp. 311

Author(s):

Mourad Zerfaoui ◽

Eman Toraih ◽

Emmanuelle Ruiz ◽

Youssef Errami ◽

Abdallah S. Attia ◽

...

Keyword(s):

Cell Proliferation ◽

Nuclear Localization ◽

Melanoma Cell ◽

Braf Inhibitor ◽

Melanoma Cells ◽

Heme Oxygenase 1 ◽

Biological Targets ◽

Melanoma Cell Proliferation

Background: Previously, we have demonstrated that nuclear BRAFV600E is associated with melanoma aggressiveness and vemurafenib resistance. However, the underlying mechanisms of how nuclear localization of BRAFV600E promotes cell aggressiveness have not yet been investigated. Despite therapeutic advancements targeting cutaneous melanoma, unknown cellular processes prevent effective treatment for this malignancy, prompting an urgent need to identify new biological targets. This study aims to explore the association of inducible heme oxygenase 1 (HMOX-1) with nuclear BRAFV600E in promoting melanoma aggressiveness. Methods: Proteomics analysis was performed to identify the interacting partner(s) of nuclear BRAFV600E. Immunohistochemistry was applied to evaluate the levels of HMOX-1 and nuclear BRAFV600E expression in melanoma and adjacent healthy tissues. Immunofluorescence assessed the nuclear localization of BRAFV600E in vemurafenib-resistant A375R melanoma cells. Further study of HMOX-1 knockdown or BRAFV600E overexpression in melanoma cells suggested a role for HMOX-1 in the regulation of cell proliferation in vivo and in vitro. Finally, Western blot analysis was performed to confirm the pathway by which HMOX-1 mediates Akt signaling. Results: Proteomics results showed that HMOX-1 protein expression was 10-fold higher in resistant A375R cells compared to parental counterpart cells. In vitro and in vivo results illustrate that nuclear BRAFV600E promotes HMOX-1 overexpression, whereas HMOX-1 reduction represses melanoma cell proliferation and tumor growth. Mechanistic studies revealed that HMOX-1 was associated with nuclear BRAFV600E localization, thus promoting melanoma proliferation via a persistent activation of the AKT pathway. Conclusions: Our results highlight a previously unknown mechanism in which the nuclear BRAFV600E/HMOX-1/AKT axis plays an essential role in melanoma cell proliferation. Targeting HMOX-1 could be a novel method for treating melanoma patients who develop BRAF inhibitor resistance.

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