TY - JOUR
T1 - Mechanism of tumor destruction following photodynamic therapy with hematoporphyrin derivative, chlorin, and phthalocyanine
AU - Nelson, J. Stuart
AU - Liaw, Lih Huei
AU - Orenstein, Arie
AU - Roberts, W. Gregory
AU - Berns, Michael W.
PY - 1988/12/21
Y1 - 1988/12/21
N2 - The effect of photodynamic therapy on the tumor microvasculature in the first few hours after treatment was studied at the light and electron microscopy levels. BALB/c mice with EMT-6 tumor received ip injections of hematoporphyrin derivative, chlorin, or phthalocyanine, and 24 hours later, the tumors were treated with light at 100 J/cm2 at the appropriate therapeutic wavelength for each photsensitizer. Animals were killed and their tumors removed at time 0, 30 minutes, 1 hour, and 2, 4, 6, 8, 12, 16, and 24 hours after treatment. The results indicate that for all three sensitizers the effects of photodynamic therapy leading to rapid necrosis of tumor tissue are not the result of direct tumor cell kill but are secondary to destruction of the tumor microvasculature. The first observabloe signs of destruction occur in the subendothelial zone of the tumor capillary wall. This zone, composed of dense collagen fibers and other connective tissue elements, is destroyed in the first few hours after phototherapy. However, the ultrastructural changes seen in this zone are different for the hematoporphyrin derivative, compared with chlorin and phthalocyanine. Binding of photosensitizers to the elements in this zone as wel as altered permeability and transport through the endothelial cell layer because of the increased intraluminal pressure may be key features of tumor destruction.
AB - The effect of photodynamic therapy on the tumor microvasculature in the first few hours after treatment was studied at the light and electron microscopy levels. BALB/c mice with EMT-6 tumor received ip injections of hematoporphyrin derivative, chlorin, or phthalocyanine, and 24 hours later, the tumors were treated with light at 100 J/cm2 at the appropriate therapeutic wavelength for each photsensitizer. Animals were killed and their tumors removed at time 0, 30 minutes, 1 hour, and 2, 4, 6, 8, 12, 16, and 24 hours after treatment. The results indicate that for all three sensitizers the effects of photodynamic therapy leading to rapid necrosis of tumor tissue are not the result of direct tumor cell kill but are secondary to destruction of the tumor microvasculature. The first observabloe signs of destruction occur in the subendothelial zone of the tumor capillary wall. This zone, composed of dense collagen fibers and other connective tissue elements, is destroyed in the first few hours after phototherapy. However, the ultrastructural changes seen in this zone are different for the hematoporphyrin derivative, compared with chlorin and phthalocyanine. Binding of photosensitizers to the elements in this zone as wel as altered permeability and transport through the endothelial cell layer because of the increased intraluminal pressure may be key features of tumor destruction.
UR - http://www.scopus.com/inward/record.url?scp=0024211756&partnerID=8YFLogxK
U2 - 10.1093/jnci/80.20.1599
DO - 10.1093/jnci/80.20.1599
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AN - SCOPUS:0024211756
SN - 0027-8874
VL - 80
SP - 1599
EP - 1605
JO - Journal of the National Cancer Institute
JF - Journal of the National Cancer Institute
IS - 20
ER -