Prostate Cancer in Rats at Nontoxic Doses Growth of Androgen-independent Dunning R-3327-AT1 Targeted Cytotoxic Analogue of Somatostatin AN-238 Inhibits Updated

Receptors for somatostatin (SST) that are found on prostate cancers might be used for targeting of chemotherapeutic agents. Thus, doxorubicin derivative 2-pyrrolinodoxorubicin (AN-201) can be linked to SST analogue RC-121 (D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Thr-NH2) to form targeted cytotoxic SST analogue AN-238. In this study, we evaluated the effects of AN-238 on the growth of SST receptor (SSTR)-positive androgen-independent Dunning R-3327-AT-1 prostate cancers in Copenhagen rats. The dose range and tumor growth-inhibitory effects of AN-238 and AN-201 were investigated in preliminary experiments. Administration of cytotoxic radical AN-201 at single i.v. doses of 110, 125, and 150 nmol/kg resulted in 0, 77.7, and 100% mortality, respectively, within 6-10 days. Four weeks after the injection of 110 nmol/kg AN-201, mean tumor volume was reduced by 35.1% (P < 0.05), as compared with controls. In contrast, a single i.v. injection of analogue AN-238 at a dose of 300 nmol/kg was nontoxic and remarkably potent in inhibiting the growth of Dunning AT-1 tumors, resulting in a 85.9% (/' < 0.01) reduction in tumor volume after 4 weeks. Treatment with AN-238 extended the survival time of tumor-bearing rats from 52.0 ±3.75 to 91.8 ±3.70 days, corresponding to a 76.5% (P < 0.01) increase. In a comprehensive experiment, we compared the effects of radical AN-201 at 115 nmol/kg, analogue AN-238 at 115 and 300 nmol/kg, carrier SST analogue RC-121 at 300 nmol/kg, and a mixture of AN-201 and RC-121 at doses of 300 nmol/kg administered i.v. Administration of AN-201 at 115 nmol/kg led to 90.0% mortality in 12 days, but animals treated with 115 nmol/kg of AN-238 showed no signs of toxicity, their tumor volume was reduced by 40.0% (/' < 0.05), and their tumor weight was reduced by 42.8% (P < 0.01) after 4 weeks, as com pared with controls. The dose of 300 nmol/kg of AN-238 was also nontoxic and diminished tumor volume by 80.9% (/' < 0.01) and tumor weight by 82.0% (P < 0.01). No reduction in tumor growth or toxic effects was observed with carrier RC-121, but after the injection of unconjugated mixture of AN-201 and RC-121 at doses of 300 nmol/kg, all rats died within 4 days. Specific high-affinity receptors for SST were found on Dunning R-3327-AT-1 tumor membranes by radioligand binding assay and were identified by reverse transcription-PCR as SSTR2. Our study indicates that cytotoxic SST analogue AN-238 can be targeted to SSTRs on tumors and produces a powerful inhibition of the growth of DunningAT-1 rat prostate cancer at doses that are nontoxic, whereas its cytotoxic component, 2-pyrrolinodoxorubicin, is toxic and ineffective.

[1]  T. Visser,et al.  A new radiolabelled somatostatin analogue [111In-DTPA-D-Phe1]RC-160: preparation, biological activity, receptor scintigraphy in rats and comparison with [111In-DTPA-D-Phe1]octreotide , 1994, European Journal of Nuclear Medicine.

[2]  A. Schally,et al.  Hypothalamic and Other Peptide Hormones , 2003 .

[3]  E. Hofsli [The somatostatin receptor family--a window against new diagnosis and therapy of cancer]. , 2002, Tidsskrift for den Norske laegeforening : tidsskrift for praktisk medicin, ny raekke.

[4]  A. Schally,et al.  Synthesis and biological evaluation of cytotoxic analogs of somatostatin containing doxorubicin or its intensely potent derivative, 2-pyrrolinodoxorubicin. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[5]  J. Mueller‐Brand,et al.  Yttrium-90-labelled somatostatin-analogue for cancer treatment , 1998, The Lancet.

[6]  A. Schally,et al.  Mechanisms of Antineoplastic Action of Somatostatin Analogs , 1998, Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine.

[7]  M. Salvatore,et al.  Different expression patterns of somatostatin receptor subtypes in cultured epithelial cells from human normal prostate and prostate cancer. , 1997, The Journal of clinical endocrinology and metabolism.

[8]  K. Torii,et al.  Quantitation of mouse and rat beta-actin mRNA by competitive polymerase chain reaction using capillary electrophoresis. , 1997, Analytical biochemistry.

[9]  A. Schally,et al.  High yield conversion of doxorubicin to 2-pyrrolinodoxorubicin, an analog 500-1000 times more potent: structure-activity relationship of daunosamine-modified derivatives of doxorubicin. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[10]  P. Smith-Jones,et al.  Somatostatin analogues for somatostatin-receptor-mediated radiotherapy of cancer. , 1996, Digestion.

[11]  S. Nilsson,et al.  Metastatic hormone-refractory prostatic adenocarcinoma expresses somatostatin receptors and is visualized in vivo by [111In]-labeled DTPA-D-[Phe1]-octreotide scintigraphy. , 1995, Cancer research.

[12]  G. Millot,et al.  Somatostatin receptors in prostate tissues and derived cell cultures, and the in vitro growth inhibitory effect of BIM-23014 analog , 1995, Molecular and Cellular Endocrinology.

[13]  J. Reubi,et al.  Somatostatin receptors in human prostate and prostate cancer. , 1995, The Journal of clinical endocrinology and metabolism.

[14]  L. Kvols,et al.  Therapy of neuroendocrine tumors with radiolabeled MIBG and somatostatin analogues. , 1995, Seminars in nuclear medicine.

[15]  R. Bashirzadeh,et al.  Detection of somatostatin receptor subtype 2 (SSTR2) in established tumors and tumor cell lines: Evidence for SSTR2 heterogeneity , 1994, Peptides.

[16]  A. Schally,et al.  Inhibitory effects of analogs of luteinizing hormone‐releasing hormone on the growth of the androgen‐independent dunning R‐3327‐AT‐1 rat prostate cancer , 1994, International journal of cancer.

[17]  A. Schally,et al.  Effect of somatostatin analog RC‐160 and bombesin/gastrin releasing peptide antagonist RC‐3095 on growth of PC‐3 human prostate‐cancer xenografts in nude mice , 1993, International journal of cancer.

[18]  R. Bianchi,et al.  Direct inhibitory effect of somatostatin on the growth of the human prostatic cancer cell line LNCaP: possible mechanism of action. , 1993, The Journal of clinical endocrinology and metabolism.

[19]  A. Schally,et al.  Somatostatin analog RC-160 and bombesin/gastrin-releasing peptide antagonist RC-3095 inhibit the growth of androgen-independent DU-145 human prostate cancer line in nude mice. , 1993, Cancer letters.

[20]  L. Mahan,et al.  Molecular cloning and expression of a pituitary somatostatin receptor with preferential affinity for somatostatin: 28. , 1992, Molecular pharmacology.

[21]  P. Boyle,et al.  Screening for prostate cancer--necessity or nonsense? , 1993, European journal of cancer.

[22]  M. Soloway,et al.  Experience with weekly doxorubicin (adriamycin) in hormone-refractory stage D2 prostate cancer. , 1992, Urology.

[23]  H. Lübbert,et al.  Expression cloning of a rat brain somatostatin receptor cDNA. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[24]  L. Kvols,et al.  In vitro detection of somatostatin receptors in human tumors. , 1992, Metabolism: clinical and experimental.

[25]  A. Schally,et al.  Effect of microcapsules of luteinizing hormone‐releasing hormone antagonist SB‐75 and somatostatin analog RC‐160 on endocrine status and tumor growth in the dunning R‐3327H rat prostate cancer model , 1992, The Prostate.

[26]  T. Visser,et al.  In vivo application of [111In-DTPA-D-Phe1]-octreotide for detection of somatostatin receptor-positive tumors in rats. , 1991, Life sciences.

[27]  E. Crawford Hormonal Therapy of Prostatic Carcinoma , 1990, Cancer.

[28]  A. Schally,et al.  Evaluation of receptors for somatostatin in various tumors using different analogs. , 1990, The Journal of clinical endocrinology and metabolism.

[29]  A. Schally Oncological applications of somatostatin analogues. , 1988, Cancer research.

[30]  D. Raghavan Non-hormone chemotherapy for prostate cancer: principles of treatment and application to the testing of new drugs. , 1988, Seminars in oncology.

[31]  W. Fair,et al.  Treatment of advanced prostatic cancer. , 1987, The Urologic clinics of North America.

[32]  G A McPherson,et al.  Analysis of radioligand binding experiments. A collection of computer programs for the IBM PC. , 1985, Journal of pharmacological methods.

[33]  J. Isaacs Hormonally responsive versus unresponsive progression of prostatic cancer to antiandrogen therapy as studied with the Dunning R-3327-AT and -G rat adenocarcinomas. , 1982, Cancer research.

[34]  D Rodbard,et al.  Ligand: a versatile computerized approach for characterization of ligand-binding systems. , 1980, Analytical biochemistry.