Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: DrugBank:EXPT01586 (
G418
)
2,237
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Human
MCAM
/MUC18 has been shown to increase metastasis of human melanoma cells in xenograft mouse systems. To be more relevant to understanding the progression of clinical melanoma and for designing better preclinical therapeutic trials, it is highly desirable to establish a syngeneic mouse model for studying the mechanisms of
MCAM
/MUC18-mediated tumorigenesis and metastasis of melanoma cells. To reach this goal, we transfected the mouse
MCAM
/MUC18 (moMCAM/MUC18) cDNA into two
MCAM
/MUC18-minus, low-metastatic mouse melanoma K1735 sublines, K1735-10 (tumor(-)/met(low)) and K1735-3 (tumor(+)/met(low)), and selected for
G418
-resistant clones, which expressed different levels of moMCAM/MUC18, and used for testing the effect of
MCAM
/MUC18 overexpression on their in vitro growth rate, motility, and invasiveness and in vivo subcutaneous tumor growth and pulmonary metastasis in syngeneic mice. Enforced expression of moMCAM/MUC18 did not significantly affect in vitro growth rate, but it increased the in vitro motility and invasiveness of clones derived from both sublines. Ectopic expression of moMCAM/MUC18 did not alter the nontumorigenicity of the K1735-10 clones per cells nor significantly affect the subcutaneous tumor growth of the K1735-3 clones per cells. The moMCAM/MUC18-expressing K1735-10 clones were able to establish only microscopic lung modules in 86% of the mice. In contrast, the moMCAM/MUC18-expressing K1735-3 clones could induce numerous large lung nodules (3-4 mm in diameter) in all the mice. We concluded that increased moMCAM/MUC18 expression in the two K1735 sublines minimally affected their tumorigenicity, but it augmented their in vitro motility and invasiveness and increased their pulmonary metastasis in the syngeneic C3H mice.
...
PMID:Enforced expression of MCAM/MUC18 increases in vitro motility and invasiveness and in vivo metastasis of two mouse melanoma K1735 sublines in a syngeneic mouse model. 1901 Aug 15
Ectopic expression of
MCAM
/MUC18, a cell adhesion molecule in the immunoglobulin-like gene superfamily, induces two moMCAM/MUC18-minus, non-metastatic mouse melanoma K1735 sublines, K3 (tumor
+
/met
low
) and K10 (tumor
-
/met
low
), to metastasize to lungs in a syngeneic C3H mouse model. In this report, we extended investigation of effects of moMCAM/MUC18 expression on tumorigenesis and metastasis in another lowly metastatic, however highly tumorigenic moMCAM/MUC18-minus mouse melanoma K1735 subline, K9 (tumor
+++
/met
low
). We transfected this subline with the moMCAM/MUC18 cDNA, selected for
G418
-resistant clones with different expression levels of moMCAM/MUC18, and used them for testing effects of
MCAM
/MUC18 expression on in vitro growth rate, motility, and invasiveness, in vivo subcutaneous tumor growth, and pulmonary metastasis in syngeneic C3H brown mice. Similar to K3 and K10 cells, increased expression of
MCAM
/MUC18 in K9 cells did not significantly affect in vitro growth rate, but increased in vitro motility and invasiveness. Surprisingly, increased expression of
MCAM
/MUC18 in K9 cells decreased their induction of tumorigenesis and suppressed their establishment of pulmonary nodules in syngeneic C3H brown mice. We concluded that increased
MCAM
/MUC18 expression in K9 subline increased in vitro epithelial-to-mesenchymal transition; however, it suppressed in vivo tumorigenicity and metastasis. Thus
MCAM
/MUC18 acts as a tumor and metastasis suppressor for the K9 subline, different from its role in other K1735 sublines, K3 and K10. Different intrinsic co-factors in different K1735 sublines, which modulate the functions of
MCAM
/MUC18 in the cells that interact differently to the tumor microenvironment, may render sublines manifest differently in tumorigenicity and metastasis in vivo.
...
PMID:Ectopic expression of MCAM/MUC18 increases in vitro motility and invasiveness, but decreases in vivo tumorigenesis and metastasis of a mouse melanoma K1735-9 subline in a syngeneic mouse model. 2751 May 63
