INTRODUCING IN VITRO EXPERIMENTS OF OXYGEN BUBBLES SHOCKWAVES TRIGGERING INTRACELLULAR LIPIDS LUMINESCENCE: IMPLICATIONS IN CANCER ETIOLOGY
Journal: INTERNATIONAL JOURNAL OF RESEARCH -GRANTHAALAYAH (Vol.7, No. 4)Publication Date: 2019-04-30
Authors : Abraham A. Embi Bs MBA;
Page : 355-364
Keywords : VIntracellular Lipids Membrane; Cancer Genesis; Lipid Droplets Luminescence; DNA Damage; H2O2 Breakdown; Bursting Oxygen Bubbles; Cancer Immortality; DNA Lipid Bonding.;
Abstract
Background The main purpose of this manuscript is to introduce a mechanism supporting a previously hypothesized factor in cancer origin, where endogenous energy emission during cell respiration was identified as additional factor in cancer origin. Recent published reports identify the pressure profile of shockwaves as causing lipid droplets membrane deformation. Lipid metabolism has been highlighted to have a key role in cancer metabolism, and metastasis; for example, several publications have suggested targeting lipid metabolism of cancer cells as a strategy to control metastasis. New studies have revealed that lipid layers are responsible for the storage and discharge of static electricity. This manuscript introduces shockwaves from oxygen bubbles bursts as a mechanism causing intracellular lipids discharge or static electricity. The effect causes shape changes of lipid droplets up to a light emission stage. Materials and Methods Cheek cells intracellular material, including DNA strands and lipid droplets were precipitated in a test tube by following written instructions on DNA precipitation published online by The University of Michigan. The DNA precipitate was transferred onto a clean glass slide and covered by a similar one and dubbed a sandwich (SDW). A slide assembly was developed where the effect of oxygen bubbles cavitation-induced shockwaves on the trapped DNA precipitate and lipid droplets were recorded. Microphotographs and video recordings were stored in a computer via a video-microscope. Results Lipid droplets exposed to prolonged shockwaves energy were documented to undergo recurrent expanding architectural deformation up to a final contracting phase where light was emitted. Conclusions Intracellular lipid droplets are ubiquitously present in cells; and recent research has shown their expanded roles in cellular signaling in both mitotic and non-mitotic cells. In cancer, one highlighted key role is the potential of lipid metabolism in metastatic colonization. Data introduced in this manuscript demonstrates a direct consequence of ROS (H2O2) decomposition (via oxygen bubbles bursts) as a trigger for lipid cells emission of light radiation, thus supporting a previously proposed biophysical mechanism in cancer origin.
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