Binding capacity of luteinizing hormone-releasing hormone and its analogues for pituitary receptor sites.

Competition for luteinizing hormone-releasing hormone (LH-RH) receptor sites by the inhibitory analog [D-Phe², D-Trp³, D-Phe⁶]-LH-RH and by the superactive stimulatory analog [D-Trp⁶]-LH-RH was observed in adenohypophysial homogenates incubated at 4°C. Competition for LH-RH binding sites was less evident with adenohypophysial plasma membranes. The binding affinities of these analogues to LH-RH pituitary receptors can explain at least in part their respective action in blocking ovulation and in inducing a greater release of luteinizing hormone and follicle stimulating hormone than the parent hormone.     

The presence of LHRH-like receptors in Dunning R3327H prostate tumors

Quantitative analyses of LH-RH-like membrane receptors were performed in five tumors from the transplantable Dunning R3372H rat prostatic adenocarcinoma. The binding of D-Trp⁶-LH-RH, an agonist of LH-RH, was observed in all 5 tumors. The antagonist [Ac-Dp-Cl-Phe^1,2,D-Trp³,D-Lys⁶,D-Ala¹⁰]-LH-RH was bound to 4 tumors. The apparent equilibrium dissociation constant (K_d) for D-Trp⁶-LH-RH receptor was from 2.6–3.9 × 10^?10 M. The apparent equilibrium B_max values (maximum number of binding sites) were from 17.2–86.0 fmol/mg membrane protein for D-Trp⁶-LH-RH receptor. The K_d for the antagonist was from 2.4–2.7 × 10^?10 M and the B_max values were from 35.5–66.0 fmol/mg membrane protein. Similar binding studies performed in 6 normal rat prostates showed no binding capacities.     

LH-releasing activity of potent LH-RH analogs in vitro

The LH-releasing activity of eight superactive analogs of LH-RH was measured in pituitary cells in primary culture. Introduction of the C-terminal ethylamide modification into [D-Ala⁶]- and [D-Leu⁶]-LH-RH (two peptides already 3 times more active than LH-RH) increases their activities 10-fold. [D-Phe⁶]- and [D-Trp⁶]-LH-RH are 90 and 100 times more active than LH-RH, respectively. The ethylamide derivatives of these two compounds are however approximately six times less active than the parent peptides.     

Synthesis and biological activity of [D-Trp6] chicken luteinizing hormone-releasing hormone

An agonist of chicken hypothalamic luteinizing hormone-releasing hormone (cLH-RH). [D-Trp⁶] cLH-RH, was synthesized and tested for luteinizing hormone (LH)-releasing activity using dispersed chicken anterior pituitary cells, as well as for binding to rat anterior pituitary membrane receptors. cLH-RH and mammalian LH-RH (mLH-RH) gave identical dose-response curves in stimulating chicken LH release ($\text{ED}{}_{50}\text{=1.6}$ and $\text{1.8×10}{}^{\mathrm{?9}}\text{M}$ respectively) and similar estimates of potency. The [D-Trp⁶] analogs of cLH-RH and mLH-RH stimulated LH release at lower doses ($\text{ED}{}_{50}\text{=7.0}$ and $\text{～7.0×10}{}^{\mathrm{?11}}\text{M}$ respectively) and were approximately 20-fold more potent. In contrast to the activity in the chicken bioassay, cLH-RH bound to rat anterior pituitary membrane receptors with a much lower affinity than did mLH-RH and had a relative potency of 2%. [D-Trp⁶] cLH-RH was approximately 100-fold more potent than cLH-RH in the rat receptor assay while [D-Trp⁶] mLH-RH was 28-fold more active than mLH-RH. These data demonstrate that substitution of Gly⁶ of LH-RH with D-Trp enhances the LH release from chicken pituitary cells to a similar extent to that observed in mammals, and indicate that the approaches used to produce active LH-RH analogs in mammals are likely to be applicable to birds.     

Luteinizing hormone-releasing hormone analogs with increased anti-ovulatory activity

A series of LH-RH antagonist analogs has been developed in which inhibitory activities have been increased to a potentially clinically useful level. The new peptides, which are typified by [N-acetyl-D-p-Cl-Phe^1,2, D-Trp³, D-Phe⁶,D-Ala¹⁰]-LH-RH and [N-acetyl-D-Trp^1,3,D-p-Cl-Phe²,D-Phe⁶, D-Ala¹⁰]-LH-RH, most importantly contain new modification to positions 1, 2 and 10, and induce full blockade of ovulation at single doses as low as 10 μg per rat (50 μg/kg). Various ring substituents on D-Trp or D-Phe in position 1 or other D-amino acid replacements in position 10 did not significantly improve anti-ovulatory activity. Incorporation of N-Me-Leu in position 7 was slightly detrimental to activity.     

Syntheses and biological evaluation of analogs of luteinizing hormone-releasing hormone (LH-RH) modified in position 2, 3, 4 or 5

Syntheses by the conventional methods as well as the chemical, physical and biological properties are described of the following analogs of the LH-releasing hormone (LH-RH): [Leu³]-LH-RH, [Phe³]-LH-RH, [Trp²] [His³]-LH-RH, Des-Trp³-LH-RH, Des-His²-[Phe⁵]-LH-RH, [Ala⁴]-LH-RH, [Phe⁵]-LH-RH and [Ala⁴] [Phe⁵]-LH-RH. $\text{In vivo}$ assays showed that [Leu³]-LH-RH did not release LH in doses as high as 5 – 25 μg, having less than 0.0008% of LH-RH activity, while [Phe³]-LH-RH had 0.43% of the LH-RH activity of natural LH-RH. The LH-RH activities of [Trp²] [His³]-LH-RH, Des-Trp³-LH-RH and Des-His²-[Phe⁵]-LH-RH were extremely low. On the other hand, [Ala⁴]-LH-RH, [Phe⁵]-LH-RH and [Ala⁴] [Phe⁵]-LH-RH had significant LH-RH activity. The structure-activity relationship of LH-RH is discussed on the basis of these findings.     

Synthesis and biological activities of analogs of luteinizing hormone-releasing hormone (LH-RH) substituted in position 1 or 2

Syntheses are described of [Pro¹]-LH-RH, [Orotic acid¹]-LH-RH, [Glu¹]-LH-RH, [Ser²]-LH-RH, [Leu²]-LH-RH, [Gln²]-LH-RH and [Phe²]-LH-RH. The LH-releasing hormone (LH-RH) activity of each of these peptides was compared with that of natural LH-RH $\text{in vivo}$. [Glu¹]-LH-RH and [Phe²]-LH-RH had significant LH-RH activity, while all the other analogs possessed extremely low activities. These findings are briefly discussed in the light of the structure-activity relationship for LH-RH.     

The role of N-acyl groups in the inhibitory activity of LH-RH analogues

Inhibitory analogues of luteinizing hormone-releasing hormone (LH-RH) were prepared with formyl-D-Trp¹, acetyl-D-Trp¹, valeryl-D-Trp¹, tartaryl-D-Trp¹, diacetyl-tartaryl-D-Trp¹, acetyl-Gly¹, and acetyl-Sar¹ successively replacing the position one in the analogue [D-Trp¹, D-p-Cl-Phe², D-Trp³, D-Phe⁶, D-Ala¹⁰]-LH-RH. The formyl-D-Trp¹ and acetyl-D-Trp¹ analogues yielded 100% blockade of ovulation at the 10 μg dose; the others were less potent and inhibited ovulation at the 50 μg dose. The inhibitory potency seems to correlate with the polarity of the acyl group.     

Synthesis and biological activities of pseudopeptide analogues of LH-RH: agonists and antagonists

Using solid phase methods, seven agonist and antagonist analogues of LH-RH have been prepared containing enzyme-resistant CH₂S linkages as selected amide bond replacements. Agonists modified at the 5–6, 6–7 and 9–10 position had 2, < 0.1, and 10% of the $\text{in}\text{vitro}$ activity of LH-RH, respectively. Among potential antagonists, 6–7 position analogues showed only minimal inhibitory activity but N- and C-terminal modified analogues retained substantial LH-RH-LH and FSH inhibitory activity. In addition, a 1–2 position methylene thioether analogue of the parent [Ac-Pro¹, D-Phe², D-Trp^3,6]LH-RH antagonist was completely inhibitory at 30 ng $\text{in}\text{vitro}$ and represents the first such structure-modification that may be at least as active as its corresponding amide linked congener. However, neither 1–2 nor 9–10 methylene thioether position antagonists showed $\text{in}\text{vivo}$ antiovulatory activity at the 250 μg level.     

Synthesis and biological properties of (Leu-6)-LH-RH and (D-Leu-6,desGly-NH210)-LH-RH ethylamide

[Leu⁶,desGly-NH₂¹⁰]-LH-RH ethylamide and [Leu⁶]-LH-RH, two analogs of LH-RH, were prepared by the solid phase method. LH- and FSH-releasing activity of these peptides was assayed against LH-RH by subcutaneous administration in immature male rats. When the integrated levels of LH and FSH over a 6 hr period after the injection were used as parameter of the LH- and FSH-releasing activities, the [Leu⁶]-LH-RH showed LH-releasing activity of 9 times and FSH-releasing activity of 5 times greater than that of LH-RH. [Leu⁶,desGly-NH₂¹⁰]-LH-RH ethylamide showed LH- and FSH-releasing activities of 53.6 and 14.5 times greater, respectively, than that of LH-RH.     

Reduction of testicular luteinizing hormone/human chorionic gonadotropin receptors by [D-Trp6]-luteinizing hormone releasing hormone in hypophysectomized rats.

Adult and immature male rats were hypophysectomized and injected daily with saline or 0.2 or 2 μg of superactive Luteinizing Hormone Releasing Hormone (LHRH) agonist, [D-Trp⁶]-LHRH subcutaneously for seven days - with, or without, concomitant treatment of 1 IU Human Chorionic Gonadotropin (hCG) or 50 IU Pregnant Mare Serum. The administration of [D-Trp⁶]-LHRH reduced Luteinizing Hormone/Human Chorionic Gonadotropin receptors in all cases. The magnitude of this reduction was dose-related. As small a dose as 0.2 μg of the peptide resulted in approximately a 72% reduction of the receptors. The results suggest a direct action of [D-Trp⁶]-LHRH on the testis. It also indicated that reduction of testicular Luteinizing Hormone/Human Chorionic Gonadotropin receptors by the peptide is not necessarily due to the over-stimulation of Luteinizing Hormone (LH) release from the pituitary through a “down regulation” mechanism.     

Release of LH after administration of an analog of synthetic LH-RH in cattle

The $\text{in vivo}$ effect of an analog of LH-RH, (Des-Gly-NH₂¹⁰, Proethylamide⁹)-LH-RH, on LH release, was studied in one bull with azooapermia, and one cow with cystic follicle. The single intravenous injection of 100 μg LH-RH analog caused abrupt and marked increase in serum LH and the high levels of LH were maintained for 3 hours. The highest levels of serum LH were 48 and 114 times as high as the pre-treatment levels in a bull and a cow, respectively. Further studies are being undertaken to evaluate this compound for improving reproductive function in cattle.     

Luteinizing hormone-releasing hormone analogs lacking N-terminal pGlu ring structure

Six analogs of LH-RH lacking N-terminal pGlu ring structure, Gly¹-LH-RH, formyl Gly¹-LH-RH, acetyl Gly¹-LH-RH, propionyl Gly¹-LH-RH, palmitoyl Gly¹-LH-RH and acetyl Ala¹-LH-RH were synthesized. The Gly¹ analog was inactive, whereas acyl Gly¹ analogs except palmitoyl Gly¹ analog showed small but significant LH-RH activity in spite of the lack of the pyrrolidone ring structure. These findings suggest that the -CO-NHCHCO- group is the minimum necessary part of the pGlu residue to exhibit the biological activity.     

A new category of ovulation inhibitors: linear LH-RH analogues having more than ten residues.

A linear analogue of the luteinizing hormone-releasing hormone, longer than a decapeptide, is described for the first time, which is equivalent in potency to the best known inhibitors of ovulation, and which constitutes an important new lead to the design of inhibitors of even greater potency. At a dosage of 200 μg/rat, the undecapeptide [(1, $\text{D}$-Phe², $\text{D}$-Trp³, $\text{D}$-Trp⁶]-LH-RH caused 100% inhibition of ovulation. The related analogues, [(1, $\text{D}$-Phe², $\text{D}$-Trp³, $\text{D}$-Trp⁶]-LH-RH and [(Gly-Pro)¹, $\text{D}$-Phe², $\text{D}$-Trp³, $\text{D}$-Trp⁶]-LH-RH, were less active, $\text{in}\text{vivo}$. All of these undecapeptides inhibited the action of 0.6 ng/ml of LH-RH by greater than 50% at the very low level of 10 ng/ml.     

Isolation and characterization of chicken hypothalamic luteinizing hormone-releasing hormone

A peptide having gonadotropin-releasing activity was isolated in a yield of 2.5 μg from an extract of 2,000 chicken hypothalami. The biopotency was monitored using rat anterior pituitary cell culture system. The peptide differs from mammalian Luteinizing Hormone-Releasing Hormone (LH-RH) in its behavior during chromatographic separation (ionexchange and high performance liquid chromatography) and in its reaction towards anti-LH-RH antiserum directed against the C-terminal region of the LH-RH molecule. The peptide (chicken LH-RH) stimulates secretion of both LH and FSH from rat anterior pituitary cells. The biological potency of this peptide was about 4 % of that of the authentic decapeptide estimated in the rat anterior pituitary system. The amino acid composition is (Ser, Pro, Glx₂, Gly₂, Leu, Tyr, His, Trp), which differs from mammalian LH-RH only in that one Arg residue is replaced by a Glx residue. Based on the behavior on CM cellulose chromatography and the reaction towards anti-LH-RH antiserum, one possible structural candidate for this peptide (chicken LH-RH) is [Gln⁸]-LH-RH.     

Effect of prolonged administration of small doses of LH-RH and LH-RH analogue [D-Ser (But)6] Des Gly-NH210 ethylamide on the release of LH and induction of ovulation in mid-anoestrous ewes

A natural process of LH release and induction of ovulation in anoestrous ewes was simulated by prolonged administration of small doses of LH-RH and its analogue [D-Ser(But)⁶] Des Gly-NH₂¹⁰ ethylamide. In the first series of experiments on 40 Merino ewes infusions of LH-RH were made into the maxillaris interna artery for 6 consecutive days for 6 h each day. Total doses of 24.0, 26.0, 28.0 and 32.0 μg per animal of varying and progressively increasing daily quantities of the hormone were administered in groups I, II, III and IV, respectively. In group V the animals were infused with a total dose of 28.0 μg LH-RH and injected additionally i.m. with 3.0 μg 17β-oestradiol on days 4 and 5 of the infusion of LH-RH. Ovulation did not occur earlier than days 4, 5 and 6 after the beginning of infusions. The highest number of positive reactions occurred in group IV ($\text{8}\text{10}$) and in group V ($\text{7}\text{8}$ animals). The pattern of LH peaks in general was correlated with the time of ovulations. The LH concentrations of the preovulatory peaks in experimental ewes were mostly lower than those in naturally ovulating animals. The corpora lutea were functional during the first 7 days after ovulation.In the second series of experiments on 26 Merino ewes the LH-RH analogue [D-Ser -(But)⁶] Des Gly-NH₂¹⁰ ethylamide was injected i.m. or i.a. for 6 consecutive days. Total doses of 15.5, 9.5 and 7.5 μg of the analogue per animal, administered at varying and progressively increasing daily doses in respective groups, induced several surges of LH in the same individuals for 2 or even 3 consecutive days. Corpora lutea and degenerating follicles in the form of cysts were found in the ovaries of animals of these groups. Very small daily doses ranging from 0.1 μg administered during the first 3 days, to 1.5 μg on day 5 of the treatment, released one surge of LH on day 5 of the treatment in all individuals with peaks ranging from 30.0 to 58.0 ng/ml and induction of ovulation with almost normal luteal function. On the basis of these experiments it is suggested that the evaluation of the effect of active substance (LH-RH or its analogue), its suitability and application of rightly chosen doses to induce the full physiological process of ovulation should be based not only on the release of LH and luteal function but also on tests of the ability of the released ovum to undergo fertilization and its further development.     

Synthesis and biological properties of (D-Ala-6, des-Gly-NH2-10)-LH-RH ethylamide, a peptide with greatly enhanced LH- and FSH- releasing activity

A nonapeptide analog of luteinizing hormone-releasing hormone (LH-RH), [D-Ala⁶, des-Gly-NH₂¹⁰]-LH-RH ethylamide, was prepared by solid-phase methodology. The peptide was assayed against LH-RH in two $\text{in vivo}$ systems and was found to be many times more potent than the naturally occurring hormone. In one of the tests, based on elevation of LH and FSH levels after infusion into immature male rats, the analog showed LH-releasing activity of 1600% and FSH-releasing activity of 1200% compared to LH-RH.     

Antitumor effects of analogs of LH-RH and somatostatin: Experimental and clinical studies

Many clinical approaches for the treatment of hormone-sensitive tumors are being developed based on analogs of LH-RH and somatostatin. Inhibition of the pituitary-gonadal axis forms the basis for oncological applications of LH-RH agonists like [ -Trp⁶]-LH-RH and new LH-RH antagonists free of edematogenic effects such as [Ac- -Nal(2)¹- -Phe(4Cl)²- -Pal(3)³, -Cit⁶, -Ala¹⁰]-LH-RH (SB-75). Agonists and antagonists of LH-RH have been used in patients with prostate cancer and might be also beneficial for the treatment of breast cancer and ovarian, endometrial and pancreatic carcinomas. Some of the effects of LH-RH analogs can be due to direct action since LH-RH receptors have been found in these cancers. The use of sustained delivery systems based on microcapsules of PLG, makes the treatment more efficacious. Octaeptide analogs of somatostatin such as -P s-Trp-NH₂ (RC-160) and related analogs were designed specifically for antitumor activity. These somatostatin analogs, by virtue of having a wide spectrum of activities appear to inhibit various tumors through multiple mechanisms. Direct antiproliferative actions of somatostatin analogs appear to be mediated by specific receptors located on tumor cells. High affinity binding sites for RC-160 and related analogs have been found in human pancreatic, prostate, breast and ovarian cancers and brain tumors such as meningiomas. In vivo administration of analog RC-160 inhibits the growth of Dunning R-3327 prostate cancers in rats, MXT mammary tumors in mice and BOP-induced ductal pancreatic cancers in hamsters. Combination of microcapsules of RC-160 with [ -Trp⁶]-LH-RH results in synergistic potentiation of the inhibition of these cancers. Somatostatin analog RC-160 and LH-RH antagonist SB-75 are the object of further experimental studies and clinical trials aimed at the exploration of their inhibitory effects on the processes of malignant growth.     

Differences in the degradation of hypothalamic releasing factors by rat and human serum

Rat serum is 2–5 fold more active than human serum in cleaving the three hypothalamic releasing hormones, luteinizing hormone releasing hormone (LH-RH), thyrotropin releasing hormone (TRH), and somatostatin. LH-RH was degraded by two distinct enzymatic mechanisms; 1) endopeptidase cleavage, 2) C-terminal cleavage. The C-terminal cleaving enzyme was active in rat serum but present only in trace levels in human. These mechanisms were substantiated by the use of suitably substituted analogs; D-Ala at position 6 of LH-RH prevented cleavage at the -Tyr⁵-D-Ala⁶-Leu⁷-site and the presence of ethylamide (C₂H₅NH₂) at position 10 inhibited significantly the action of the second enzyme. These analogs have an enhanced biological activity $\text{in}$$\text{vivo}$ which correlates well with their decreased rate of degradation. Somatostatin was degraded by endopeptidase cleavage at one or more sites. D-Trip in position 8 blocked cleavage of the -Trp⁸-Lys⁹-bond, reducing significantly the rate of degradation. This also correlates well with the enhanced biological potency of the (D-Trp⁸)-somatostatin analog. TRH was degraded by cleavage of the pyroGlu-His and His-Pro.NH₂ bonds with the release of free His and Pro. The analog (3-Me-His²)-TRH was degraded by a similar mechanism with the release of 3-Me-His.     

D-pGlu1,D-Phe2,D-Trp3,6]-LRF. A potent luteinizing hormone releasing factor antagonist in vitro and inhibitor of ovulation in the rat.

The decapeptide D-pGlu-D-Phe-D-Trp-Ser-Tyr-D-Trp-Leu-Arg-Pro-Gly-NH₂ was synthesized in gram quantities by solid phase techniques on a methyl benzhydrylamine resin. This peptide was purified by ion exchange and partition chromatographies. It was fully characterized by amino acid analysis, tlc in four systems, optical rotation and high pressure liquid chromatography (reversed phase) using a triethyl ammonium phosphate buffer. This peptide was found to inhibit ovulation by 100% in the rat at a subcutaneous dose of 250μg in corn oil when administered at noon on the day of proestrus. Furthermore, it was found to be long acting since 1.5mg blocked ovulation in 9 out of 10 rats when administered as early as 19 hrs before the afternoon of proestrus. [D-pGlu¹, D-Phe², D-Trp^3,6]-LRF reduces the amount of LH normally secreted in response to LRF by 50% at a molar ratio (IDR₅₀) of 3/1 ([antagonist])/[LRF]). Three other analogs, equally well-characterized and with the D-pGlu¹ modification, i.e. [D-pGlu¹, D-Phe², Pro³, D-Trp⁶]-LRF, [D-pGlu¹, D-Phe², Phe³, D-Trp⁶]-LRF and [D-pGlu¹, D-Phe^2,6, D-Trp³]-LRF were found to be somewhat less potent ($\text{IDR}{}_{50}\text{=}\text{150}\text{1}\text{,}\text{60}\text{1}\text{,}\text{5}\text{1}$) respectively.