1 May 2011 Image-guided genomic analysis of tissue response to laser-induced thermal stress
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The cytoprotective response to thermal injury is characterized by transcriptional activation of "heat shock proteins" (hsp) and proinflammatory proteins. Expression of these proteins may predict cellular survival. Microarray analyses were performed to identify spatially distinct gene expression patterns responding to thermal injury. Laser injury zones were identified by expression of a transgene reporter comprised of the 70 kD hsp gene and the firefly luciferase coding sequence. Zones included the laser spot, the surrounding region where hsp70-luc expression was increased, and a region adjacent to the surrounding region. A total of 145 genes were up-regulated in the laser irradiated region, while 69 were up-regulated in the adjacent region. At 7 hours the chemokine Cxcl3 was the highest expressed gene in the laser spot (24 fold) and adjacent region (32 fold). Chemokines were the most common up-regulated genes identified. Microarray gene expression was successfully validated using qRT- polymerase chain reaction for selected genes of interest. The early response genes are likely involved in cytoprotection and initiation of the healing response. Their regulatory elements will benefit creating the next generation reporter mice and controlling expression of therapeutic proteins. The identified genes serve as drug development targets that may prevent acute tissue damage and accelerate healing.
© (2011) Society of Photo-Optical Instrumentation Engineers (SPIE)
Mark A. Mackanos, Mark A. Mackanos, Mike W. Helms, Mike W. Helms, Flora Kalish, Flora Kalish, Christopher H. Contag, Christopher H. Contag, } "Image-guided genomic analysis of tissue response to laser-induced thermal stress," Journal of Biomedical Optics 16(5), 058001 (1 May 2011). https://doi.org/10.1117/1.3573387 . Submission:

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