TY - JOUR
T1 - Identifying the structure-activity relationship of leelamine necessary for inhibiting intracellular cholesterol transport
AU - Gowda, Raghavendra
AU - Inamdar, Gajanan S.
AU - Kuzu, Omer
AU - Dinavahi, Saketh S.
AU - Krzeminski, Jacek
AU - Battu, Madhu Babu
AU - Voleti, Sreedhara R.
AU - Amin, Shantu
AU - Robertson, Gavin P.
N1 - Funding Information:
NIH grants R01 CA-136667-02, RO1 CA-1138634-02, RO1 CA-127892-01A and The Foreman Foundation for Melanoma Research (Gavin Robertson), The Geltrude Foundation for Melanoma Research (Gavin Robertson), The Penn State Melanoma and Skin Cancer Center (Raghavendra Gowda), Gilbert Memorial Fund (Raghavendra Gowda), The James Paul Sutton Medical Research Fund (Raghavendra Gowda), The Penn State Chocolate Tour Cancer Research Fund (Raghavendra Gowda & Gavin Robertson).
PY - 2017
Y1 - 2017
N2 - Leelamine is an anticancer chemotherapeutic agent inhibiting intracellular cholesterol transport. Cell death mediated by leelamine occurs due to the lysosomotropic property of the compound, its accumulation in the lysosome, and inhibition of cholesterol transport leading to lack of availability for key processes required for functioning of cancer cells. The present study dissects the structure-activity-relationship of leelamine using synthesized derivatives of leelamine and abietic acid, a structurally similar compound, to identify the moiety responsible for anti-cancer activity. Similar to leelamine, all active derivatives had an amino group or a similar moiety that confers a lysosomotropic property to the compound enabling its accumulation in the lysosome. Active derivatives inhibited intracellular cholesterol transport and hindered xenografted melanoma tumor development without obvious systemic toxicity. In silico studies suggested that active derivatives accumulating in lysosomes bound to NPC1, a protein responsible for cholesterol export from the lysosome, to inhibit its activity that then caused accumulation, and lack of cholesterol availability for other key cellular activities. Thus, active derivatives of leelamine or abietic acid maintained lysosomotropic properties, bound to NPC1, and disrupted cellular cholesterol transport as well as availability to retard tumor development.
AB - Leelamine is an anticancer chemotherapeutic agent inhibiting intracellular cholesterol transport. Cell death mediated by leelamine occurs due to the lysosomotropic property of the compound, its accumulation in the lysosome, and inhibition of cholesterol transport leading to lack of availability for key processes required for functioning of cancer cells. The present study dissects the structure-activity-relationship of leelamine using synthesized derivatives of leelamine and abietic acid, a structurally similar compound, to identify the moiety responsible for anti-cancer activity. Similar to leelamine, all active derivatives had an amino group or a similar moiety that confers a lysosomotropic property to the compound enabling its accumulation in the lysosome. Active derivatives inhibited intracellular cholesterol transport and hindered xenografted melanoma tumor development without obvious systemic toxicity. In silico studies suggested that active derivatives accumulating in lysosomes bound to NPC1, a protein responsible for cholesterol export from the lysosome, to inhibit its activity that then caused accumulation, and lack of cholesterol availability for other key cellular activities. Thus, active derivatives of leelamine or abietic acid maintained lysosomotropic properties, bound to NPC1, and disrupted cellular cholesterol transport as well as availability to retard tumor development.
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U2 - 10.18632/oncotarget.16002
DO - 10.18632/oncotarget.16002
M3 - Article
C2 - 28423677
AN - SCOPUS:85018397039
SN - 1949-2553
VL - 8
SP - 28260
EP - 28277
JO - Oncotarget
JF - Oncotarget
IS - 17
ER -