TY - JOUR
T1 - Hypericin-mediated photodynamic therapy of pituitary tumors
T2 - preclinical study in a GH4C1 rat tumor model.
AU - Cole, Chad D.
AU - Liu, James K.
AU - Sheng, Xiaoming
AU - Chin, Steven S.
AU - Schmidt, Meic H.
AU - Weiss, Martin H.
AU - Couldwell, William T.
PY - 2008/5
Y1 - 2008/5
N2 - OBJECTIVE: Hypericin-mediated photodynamic therapy (PDT) is receiving greater interest as a potential treatment for a variety of tumors and nonmalignant disorders. PDT involves systemic administration of a photosensitizer that selectively accumulates within tumor tissue followed by focal light activation. In the presence of molecular oxygen, a photochemical reaction generates a reactive oxygen species that induces apoptosis in target cells. The purpose of this preclinical study was to evaluate the efficacy of hypericin-mediated PDT for treatment of pituitary adenoma in a rodent model. METHODS: Wistar-Furth rats were implanted with a pituitary adenoma rat cell line, GH4C1. Tumor masses were allowed to develop over 28 days; rats with tumors of comparable sizes were then assigned to three treatment groups: control (neither hypericin nor light); light only; and hypericin and light. Hypericin was administered in four doses (1 mg/kg) at 28-h intervals prior to light exposure, wherein those rats treated with light were exposed to a light source four hours after the last hypericin dose. Tumor size was measured up to 12 days after treatment. RESULTS: Over the short interval examined, hypericin-mediated PDT was not effective against large tumors greater than 1 cm(3), but this treatment significantly slowed tumor growth for tumors less than 1 cm(3). Histological evaluation and TUNEL assay of the treated tumor identified apoptotic clusters on the periphery of the PDT-treated specimens. CONCLUSIONS: Hypericin-mediated PDT shows promise in its effectiveness in the treatment of residual small tumor rests.
AB - OBJECTIVE: Hypericin-mediated photodynamic therapy (PDT) is receiving greater interest as a potential treatment for a variety of tumors and nonmalignant disorders. PDT involves systemic administration of a photosensitizer that selectively accumulates within tumor tissue followed by focal light activation. In the presence of molecular oxygen, a photochemical reaction generates a reactive oxygen species that induces apoptosis in target cells. The purpose of this preclinical study was to evaluate the efficacy of hypericin-mediated PDT for treatment of pituitary adenoma in a rodent model. METHODS: Wistar-Furth rats were implanted with a pituitary adenoma rat cell line, GH4C1. Tumor masses were allowed to develop over 28 days; rats with tumors of comparable sizes were then assigned to three treatment groups: control (neither hypericin nor light); light only; and hypericin and light. Hypericin was administered in four doses (1 mg/kg) at 28-h intervals prior to light exposure, wherein those rats treated with light were exposed to a light source four hours after the last hypericin dose. Tumor size was measured up to 12 days after treatment. RESULTS: Over the short interval examined, hypericin-mediated PDT was not effective against large tumors greater than 1 cm(3), but this treatment significantly slowed tumor growth for tumors less than 1 cm(3). Histological evaluation and TUNEL assay of the treated tumor identified apoptotic clusters on the periphery of the PDT-treated specimens. CONCLUSIONS: Hypericin-mediated PDT shows promise in its effectiveness in the treatment of residual small tumor rests.
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U2 - 10.1007/s11060-007-9514-0
DO - 10.1007/s11060-007-9514-0
M3 - Article
C2 - 18228116
AN - SCOPUS:48049122702
SN - 0167-594X
VL - 87
SP - 255
EP - 261
JO - Journal of neuro-oncology
JF - Journal of neuro-oncology
IS - 3
ER -