Aminolevulinic Acid (ALA) as a Prodrug in Photodynamic Therapy of Cancer

被引：197

作者：

Wachowska, Malgorzata ^{[1
]}

Muchowicz, Angelika ^{[1
]}

Firczuk, Malgorzata ^{[1
]}

Gabrysiak, Magdalena ^{[1
]}

Winiarska, Magdalena ^{[1
]}

Wanczyk, Malgorzata ^{[1
]}

Bojarczuk, Kamil ^{[1
]}

Golab, Jakub ^{[1
,2
]}

机构：

[1] Med Univ Warsaw, Dept Immunol, Ctr Biostruct Res, PL-02097 Warsaw, Poland

[2] Polish Acad Sci, Inst Phys Chem, Dept 3, PL-01224 Warsaw, Poland

来源：

MOLECULES | 2011年 / 16卷 / 05期

关键词：

5-aminolevulinic acid; photodynamic therapy; cancer; laser; singlet oxygen; PROTOPORPHYRIN IX ACCUMULATION; TOPICAL METHYL AMINOLEVULINATE; BASAL-CELL CARCINOMA; 5-AMINOLEVULINIC ACID; IN-VITRO; HEME OXYGENASE; SUBCELLULAR-LOCALIZATION; ACTINIC KERATOSES; INDUCED PPIX; ENDOGENOUS PROTOPORPHYRIN;

D O I：

10.3390/molecules16054140

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Aminolevulinic acid (ALA) is an endogenous metabolite normally formed in the mitochondria from succinyl-CoA and glycine. Conjugation of eight ALA molecules yields protoporphyrin IX (PpIX) and finally leads to formation of heme. Conversion of PpIX to its downstream substrates requires the activity of a rate-limiting enzyme ferrochelatase. When ALA is administered externally the abundantly produced PpIX cannot be quickly converted to its final product - heme by ferrochelatase and therefore accumulates within cells. Since PpIX is a potent photosensitizer this metabolic pathway can be exploited in photodynamic therapy (PDT). This is an already approved therapeutic strategy making ALA one of the most successful prodrugs used in cancer treatment.

引用

页码：4140 / 4164

页数：25

共 154 条

[1] IN-VIVO KINETICS AND SPECTRA OF 5-AMINOLEVULINIC ACID-INDUCED FLUORESCENCE IN AN AMELANOTIC MELANOMA OF THE HAMSTER [J].

ABELS, C ;

HEIL, P ;

DELLIAN, M ;

KUHNLE, GEH ;

BAUMGARTNER, R ;

GOETZ, AE .

BRITISH JOURNAL OF CANCER, 1994, 70 (05) :826-833

[2]

Ackroyd R, 1999, PHOTOCHEM PHOTOBIOL, V70, P656, DOI 10.1562/0031-8655(1999)070<0656:AAPODB>2.3.CO

[3]

[4] Evaluation of the penetration of 5-aminolevulinic acid through basal cell carcinoma: a pilot study [J].

Ahmadi, S ;

McCarron, PA ;

Donnelly, RF ;

Woolfson, AD ;

McKenna, K .

EXPERIMENTAL DERMATOLOGY, 2004, 13 (07) :445-451

[5] Biosynthesis of heme in mammals [J].

Ajioka, Richard S. ;

Phillips, John D. ;

Kushner, James P. .

BIOCHIMICA ET BIOPHYSICA ACTA-MOLECULAR CELL RESEARCH, 2006, 1763 (07) :723-736

[6] Mechanism of cell death by 5-aminolevulinic acid-based photodynamic action and its enhancement by ferrochelatase inhibitors in human histiocytic lymphoma cell line U937 [J].

Amo, Takashi ;

Kawanishi, Noriaki ;

Uchida, Masataka ;

Fujita, Hirofumi ;

Oyanagi, Eri ;

Utsumi, Toshihiko ;

Ogino, Tetsuya ;

Inoue, Keiji ;

Shuin, Taro ;

Utsumi, Kozo ;

Sasaki, Junzo .

CELL BIOCHEMISTRY AND FUNCTION, 2009, 27 (08) :503-515

[7]

ANDERSON PM, 1979, J BIOL CHEM, V254, P6924

[8] Influence of light fluence rate on the effects of photodynamic therapy in an orthotopic rat glioma model [J].

Angell-Petersen, E ;

Spetalen, S ;

Madsen, SJ ;

Sun, CH ;

Peng, Q ;

Carper, SW ;

Sioud, M ;

Hirschberg, H .

JOURNAL OF NEUROSURGERY, 2006, 104 (01) :109-117

[9] Skin cancer: preventive photodynamic therapy in patients with face and scalp cancerization. A randomized placebo-controlled study [J].

Apalla, Z. ;

Sotiriou, E. ;

Chovarda, E. ;

Lefaki, I. ;

Devliotou-Panagiotidou, D. ;

Ioannides, D. .

BRITISH JOURNAL OF DERMATOLOGY, 2010, 162 (01) :171-175

[10] Review article: The potential role for photodynamic therapy in the management of upper gastrointestinal disease [J].

Barr, H ;

Dix, AJ ;

Kendall, C ;

Stone, N .

ALIMENTARY PHARMACOLOGY & THERAPEUTICS, 2001, 15 (03) :311-321

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