B. Valcaccia scite author profile

Pure antiandrogens, like flutamide, antagonize androgen action both peripherally and centrally at the hypothalamic-pituitary axis, which leads to an increase in LH and testosterone secretion. A new non-steroidal antiandrogen ICI 176,334 [2RS)-4'-cyano-3-(4-fluorophenylsulphonyl)-2-hydroxy-2-methyl-3'- trifluoromethyl)propion-anilide) has now been discovered which causes regression of the accessory sex organs but does not increase serum concentrations of LH and androgens. ICI 176,334 binds to rat prostate androgen receptors with an affinity around fourfold that of hydroxyflutamide. When administered s.c. concurrently with testosterone propionate (200 micrograms/kg) for 7 days to immature castrated rats, ICI 176,334 (10 mg/kg) significantly (P less than 0.001) inhibited growth of the seminal vesicles and ventral prostate gland. Oral administration of ICI 176,334 at doses of 1, 5 and 25 mg/kg for 14 days to adult rats caused a dose-related reduction in accessory sex organ weights but had no effect on the testes. None of these doses caused a significant increase in serum LH and testosterone. Flutamide was around fourfold less potent and significantly increased serum LH and testosterone at the higher doses. ICI 176,334 was well tolerated. ICI 176,334 should, therefore, prove useful for the treatment of androgen-responsive benign and malignant diseases.

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Non-steroidal antioestrogens—Receptor binding and biological response in rat uterus, rat mammary carcinoma and human breast cancer cells

Wakeling¹,

Valcaccia²,

Newboult³

et al. 1984

Journal of Steroid Biochemistry

108

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Potent agonist and antagonist analogues of luliberin containing an azaglycine residue in position 10

Dutta

Furr

Giles

et al. 1978

Biochemical and Biophysical Research Communications

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Synthesis and biological activity of highly active .alpha.-aza analogs of luliberin

Dutta¹,

Furr²,

Giles³

et al. 1978

J. Med. Chem.

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Analogues of luliberin containing an alpha-azaamino acid in position 6, 9, or 10 (I--XIV) have been synthesized by the solution method of peptide synthesis. Two nonaza analogues, [D-Phe6]- and [D-Ser(But)6,des-Gly-NH2(10),Pro-ethylamide9]luliberin, were also synthesized for comparison. The ovulation-inducing activity of the compounds was evaluated in androgen-sterilized constant-estrus rats. A combination of D-amino acid replacement in position 6 with an azaglycine residue at position 10 resulted in highly active compounds which were superior to the corresponding nonaza analogues. The most active compoungs, [D-Phe6,Azgly10-a1-, [D-Tyr(Me)6,Azgly10]-, and [D-Ser(But)6,Azgly10]luliberin, were about 100 times as potent as luliberin. N-Methylleucine substitution in position 7 in these compounds resulted in decreased activity; [D-Phe6,MeLeu7,Azgly10]- and [D-Tyr(Me)6,MeLeu7,Azgly10]luliberin were only 50 times as active as luliberin. The presence of either an azaproline residue in position 9, an azaphenylalanine or azaglycine residue in positions 6 and 10, or a tert-butyl ether protecting group on the hydroxyl group of the tyrosine residue in position 5 resulted in compounds with significantly reduced biological activity.

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Prolonged Suppression of Rat Testis Function by a Depot Formulation of Zoladex,® a GnRH Agonist

Ward

Furr

Valcaccia

et al. 1989

Journal of Andrology

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A sustained-release formulation of a potent gonadotropin-releasing hormone (GnRH) agonist, Zoladex (D-Ser(But),6 Aza Gly10-GnRH; ICI 118,630; goserelin), was administered subcutaneously (3.6 mg/depot) to male rats once every 28 days for 2-24 wk to determine the extent to which pituitary-testis function could be suppressed and whether suppression was maintained throughout the period of treatment. Administration of Zoladex resulted in sustained decreases in weight of the testis, epididymis, seminal vesicles and prostate gland. The decreases were apparent within 2 wk of initiating treatment. Patchy degeneration of the seminiferous tubules and atrophy of the Leydig cells were observed, but did not progress beyond the degree observed after 1 month of treatment. Serum and testis testosterone were markedly depressed after 2 wk of treatment, as was testis [125I]hCG binding. Serum gonadotropins were also reduced by treatment. Serum androgen binding protein (ABP) was elevated, testis ABP content remained unchanged, and epididymal ABP content was reduced. The changes are consistent with the hypothesis that this compound affects both the anterior pituitary gland and the testis. These findings indicate that depot delivery systems are a convenient way to administer GnRH analogs for sustained treatment schedules.

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B. Valcaccia

Ici 176,334: A Novel Non–steroidal, Peripherally Selective Antiandrogen

Non-steroidal antioestrogens—Receptor binding and biological response in rat uterus, rat mammary carcinoma and human breast cancer cells

Potent agonist and antagonist analogues of luliberin containing an azaglycine residue in position 10

Synthesis and biological activity of highly active .alpha.-aza analogs of luliberin

Prolonged Suppression of Rat Testis Function by a Depot Formulation of Zoladex,® a GnRH Agonist

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