Receptors for D-Trp6-luteinizing hormone-releasing hormone, somatostatin, and insulin-like growth factor I in MXT mouse mammary carcinoma

Membrane receptors for D-Trp6-luteinizing hormone-releasing hormone (D-Trp6-LH-RH), somatostatin-14 (SS-14), and insulin-like growth factor I (IGF-I) were estimated in MXT mammary cancers of mice using sensitive multipoint micromethods. The receptors were characterized in untreated animals and following in vivo treatment with microcapsules of the agonist D-Trp6-LH-RH and the somatostatin analog RC-160, which strongly inhibited tumor growth. In the control group, D-Trp6-LH-RH was bound to the single class of saturable, specific, noncooperative receptor sites (Kd, = 29.3 +/- 8.48 x 10(-9) M; Bmax = 4.55 +/- 0.31 pmol/mg membrane protein). Treatment with D-Trp6-LH-RH alone or in combination with RC-160 produced down-regulation of membrane receptors for D-Trp6-LH-RH on MXT mammary tumor cells. RC-160 alone and ovariectomy were without effect on D-Trp6-LH-RH receptors. On the membrane surface of MXT mammary cells, we found one class of high affinity, specific, saturable binding sites for SS-14 (Kd = 4.4 +/- 1.9 x 10(-9) M; Bmax = 0.58 +/- 0.21 pmol/mg membrane protein). Treatment with RC-160 alone or combined with D-Trp6-LH-RH significantly increased both the dissociation binding constant (Kd = 18.6 +/- 3.5 x 10(-9) and 10.1 +/- 0.7 x 10(-9) M, respectively) and the binding capacity (Bmax = 13.98 +/- 1.7 and 21.00 +/- 4.0 pmol/mg membrane protein, respectively). We also found specific binding sites (Kd = 3.01 +/- 0.15 x 10(-9) M; Bmax = 2.24 +/- 0.96 pmol/mg membrane protein) for IGF-I in the membrane fractions of MXT mammary cancers. Chronic treatment with D-Trp6-LH-RH and RC-160 alone or in combination, as well as ovariectomy, significantly decreased the dissociation binding constant of IGF-I membrane receptors on MXT mammary cells. Our results strongly suggest an important role of LH-RH, SS-14, and IGF-I in the growth of MXT mammary carcinoma. Changes in characteristics of receptors after treatment with analogs of LH-RH and SS-14 along with tumor growth inhibition provide additional support for the direct effect of these peptides on tumor cells. A possible significance of these findings as applied to a clinical environment is discussed.     

Biological activity and receptor binding characteristics to various human tumors of acetylated somatostatin analogs.

Several somatostatin analogs with recently synthesized acetylated N terminus were assayed in vivo for their effects on sodium pentobarbital-stimulated growth hormone (GH) levels in fed male rats and gastrin-releasing peptide (14-27)-stimulated gastrin levels in fasted male rats. The binding characteristics of these analogs to somatostatin receptors were also examined in various human tumors and normal tissues. The analog RC-101-I, injected at a dose of 0.1 micrograms/100 g body wt, significantly suppressed GH release (P less than 0.01) for at least 2 hr. Analog RC-160-II caused the longest inhibition of GH release, greater than that induced by nonacetylated parent analog RC-160, with GH levels showing significant suppression (P less than 0.01) for more than 3 hr. Analogs RC-160-II and RC-101-I and RC-160, injected at a dose of 1.0 micrograms/100 g body wt, significantly (P less than 0.01) suppressed gastrin-releasing peptide (14-27)-stimulated serum gastrin. Analog RC-101-I was active in this test at a dose of 0.1 micrograms/100 g body wt. RC-160-II showed significant binding to somatostatin-14 receptors in all investigated tissues (human colon, human colon cancer, breast cancer, human pancreas and pancreatic cancer, human prostate and prostate cancer, and rat cerebral cortex), but there were marked variations in binding affinities among various normal and cancerous tissues. The highest affinity was found in membranes of colon cancer (Ka = 18.4 nM-1) and breast cancer (Ka = 12.46 nM-1). The binding affinity of RC-160-II to somatostatin receptors in membranes of the breast cancer was similar to that of RC-160. RC-101-I showed higher binding affinity to somatostatin-14 receptors than RC-160 in human breast, pancreatic, and prostate cancer. With the exception of breast cancer tissue, the binding affinity of RC-101-I was significantly lower than that of RC-160-II in membranes of all investigated tissues. It can be concluded that acetylated somatostatin analogs RC-101-I and RC-160-II possess prolonged and enhanced biological activities in suppressing serum GH and gastrin in rats. Significant variations in binding affinities for these analogs in different tissues and various tumors suggest that differences may exist between somatostatin receptors in normal versus malignant tissues. This raises the possibility that some of these analogs could be used more selectively in the treatment of various neoplasms.     

New approaches to the therapy of various tumors based on peptide analogues.

The discovery of hypothalamic hormones was briefly reviewed. The development of new hormonal methods for the therapy of various cancers based on analogues of hypothalmic hormones is then presented. My group isolated luteininzing hormone-releasing hormone (LH-RH), also known as Gn-RH, from pig hypothalmi, elucidated its amino acid sequence, and synthesized it in 1971. The interest in medical applications of LH-RH led to the synthesis of LH-RH analogues by various groups. LH-RH agonists substituted in positions 6 or 10 including Decapeptyl, Leuprolide and Zoladex are much more active than LH-RH and on continuous administration produce inhibition of pituitary and gonads. Chronic administration of LH-RH agonists is being utilized for the treatment of prostate and breast cancer. Octapeptide analogues of somatostatin have various applications in Oncology. In 1980 we developed a new endocrine therapy for advanced prostate cancer based on agonists of LH-RH, which is now preferred by 70-90% of prostate cancer patients for primary treatment. LH-RH antagonists such as Cetrorelix can be used for therapy of BPH. On the basis of the presence of specific receptors for hypothalamic peptides on human cancers, we developed targeted cytotoxic analogues of LH-RH, somatostatin, and bombesin/GRP linked to doxorubicin or 2-pyrrolinodoxorubicin. These analogues inhibit the growth of experimental human prostate, breast, ovarian and endometrial cancer, renal cell carcinoma, pancreatic, colorectal and gastric cancers, small cell lung carcinoma (SCLC) and non-SCLC, brain tumors, melanomas, and lymphomas. Cytotoxic LH-RH analogues are now in clinical trials. Recently we demonstrated that growth hormone-releasing hormone (GH-RH) also serves as an autocrine growth factor in many cancers. Antagonistic analogues of GH-RH synthesized in our laboratory inhibit the growth of diverse tumors. The discovery of LH-RH and somatostatin has led to clinical use of their analogues in the field of cancer treatment and GH-RH antagonists also show a great promise.     

Antitumor effects of analogs of hypothalamic hormones in endocrine-dependent cancers

A new approach to the treatment of endocrine-dependent tumors based on analogs of hypothalamic hormones is in the early stages of development, but appears promising and significant. Administration of hypothalamic hormones can mimic hypophysectomy and gonadectomy, and is essentially devoid of side effects. A successful use of agonistic analogs of LH-RH for treatment of endocrine-dependent prostate cancer has been documented in several hundred patients. Experimental studies suggest that agonists and/or antagonists of LH-RH might be useful for treatment of breast cancer and pituitary tumors. Our work in animal models also indicates that analogs of somatostatin, alone or combined with LH-RH agonists, could be considered for therapy of chondrosarcomas, osteosarcomas, and pancreatic cancer. Experiments are in progress on the use of LH-RH analogs for treatment of ovarian cancer, neoplasms of the female genital tract, and for protection against gonadal damage during chemotherapy. These investigations should extend the concepts of endocrine treatment of cancers.     

Growth factor-receptor pathway interfering treatment by somatostatin analogs and suramin: Preclinical and clinical studies

Interference in growth factor mediated pathways is a new strategy in the treatment of cancer. Somatostatin analogs can inhibit hormone and growth factor secretion, while suramin can block the binding of several growth factors to their receptors. In addition, somatostatin analogs can cause direct growth inhibitory effects after binding to tumoral somatostatin receptors. We tested the efficacy and endocrine effects of chronic treatment with three somatostatin analogs (Sandostatin,^® RC-160 and CGP 15–425) or suramin in several tumor models and in patients with various types of cancer. Treatment with somatostatin analogs caused growth inhibition of breast cancer cells (MCF-7) in vitro, and of rat transplantable pancreatic (50–70% inhibition) and prostatic Dunning tumors (12% inhibition). No tumor growth inhibition was observed with respect to DMBA-induced rat mammary tumors, a transplantable color tumor and a rhabdomyosarcoma in rats. In 34 patients with metastatic pancreatic or gastrointestinal adenocarcinomas chronic Sandostatin treatment caused stable disease in 27% of the patients, but no objective remissions. Somatostatin receptors were found in the responding MCF-7 mammary tumor cells, rat pancreatic tumors and in 20–45% of human breast cancer specimens [J. Steroid Biochem. Molec. Biol. 37 (1990) 1073–1077], but not in rat DMBA-mammary tumors or in 10 human pancreatic adenocarcinomas. Suramin caused significant dose-dependent growth inhibition of human breast cancer cells in vitro and of rat pancreatic tumors in vivo in the presence of plasma levels up to 150 μg/ml. In a preliminary clinical study concerning 11 patients with various tumor types we observed significant hematological, biochemical, endocrine and clinical side effects, but no objective remissions in spite of relevant peak plasma suramin concentrations of 270–330 μg/ml. In conclusion: somatostatin analogs and suramin can cause growth inhibition of various experimental tumors in vitro and in vivo, but the clinical values has to be established for several types of cancer, especially with respect to suramin and suramin-like compounds.     

Comparison of somatostatin and its highly potent hexa- and octapeptide analogs on exocrine and endocrine pancreatic secretion

The effects on pancreatic responses of highly potent cyclic hexapeptide (cyclo (N-Me-Ala-Phe-D-Trp-Lys-Thr-Phe)) (Veber analog) and octapeptide analogs of somatostatin such as D-Phe-Cys-Phe-D-Trp-Lys-Thr-Cys-Thr-ol (SMS 201-995), D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Thr-NH2 (RC-121), and D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160) have been compared with somatostatin tetradecapeptide (SS-14) and atropine. The parameters evaluated were pancreatic responses to secretin and meat feeding in conscious dogs with chronic pancreatic fistula and amylase release from the dispersed pancreatic acini. The analogs were administered intravenously or intraduodenally. The cyclic hexapeptide and octapeptide analogs, given iv in graded doses against a constant background stimulation with secretin, produced similar and dose-dependent inhibition of pancreatic HCO3- and protein secretion. Analogs RC-121, RC-160, and the Veber analog were about two to four times more active than SS-14 in suppressing HCO3- secretion and equipotent in reducing protein secretion, but SMS 201-995 was only about half as potent as somatostatin in inhibiting HCO3-. RC-160 was effective in inhibiting secretin-induced protein secretion at lower doses than other analogs. In tests with feeding, SMS 201-995, the Veber analog, RC-121, and RC-160 were more potent inhibitors of exocrine pancreatic secretion of HCO3- and protein and exhibited more prolonged inhibitory effects than SS-14. The Veber analog, RC-121, and RC-160 were also more effective after intraduodenal administration. Atropine also caused significant inhibition of both HCO3- and protein responses to secretin and meal feeding. All four analogs decreased the postprandial insulin and pancreatic polypeptide release to a similar degree as SS-14. Neither SS-14 nor the analogs tested significantly affected basal or caerulein-, gastrin-, secretin-, or bethanechol-stimulated amylase release from the dispersed canine pancreatic acini. Atropine reduced amylase release induced by bethanechol, but not that stimulated by caerulein, gastrin, or secretin. This indicated that the analogs, as somatostatin, are ineffective as secretory inhibitors in vitro. We conclude that cyclic hexapeptide and octapeptide analogs are more potent and longer acting inhibitors of pancreatic secretion than somatostatin-14 in vivo.     

An inhibitor of urokinase and tissue plasminogen activators in Dunning R3327H prostate tumors of rats treated with D-Trp6-LH-RH

The antifibrinolytic activity of cytosol from Dunning R3327H rat prostate tumors was studied. The prostate tumors from rats treated with D-Trp6-LH-RH had 2.5 times lower plasminogen activator activity than tumors from untreated rats. This was due to the presence of an inhibitor of plasminogen activator as well as a reduction in residual activity of plasminogen activator(s). Only the cytosolic extracts from prostate tumors of rats treated with D-Trp6-LH-RH contained this inhibitor. The purified inhibitor (m.w. 21,000), formed a complex with urokinase and partially purified plasminogen activator(s) from prostate tumors of untreated as well as D-Trp6-LH-RH treated rats. The increase in antifibrinolytic activity after treatment with LH-RH analogs may be an important factor in reducing the invasiveness of the prostate tumor.     

New approaches to treatment of various cancers based on cytotoxic analogs of LHRH,somatostatin and bombesin

The development of targeted cytotoxic analogs of hypothalamic peptides for the therapy of various cancers is reviewed and various oncological studies on experimental tumors are summarized. Novel therapeutic modalities for breast, prostate and ovarian cancer consist of the use of targeted cytotoxic analogs of LH-RH containing doxorubicin (DOX) or 2-pyrrolino-DOX. The same radicals have been incorporated into cytotoxic analogs of somatostatin which can be also targeted to receptors for this peptide in prostatic, mammary, ovarian, renal and lung cancers, brain tumors and their metastases. A targeted cytotoxic analog of bombesin containing 2-pyrrolino-DOX has also been synthesized and successfully tried in experimental models of prostate cancer, small cell lung carcinoma and brain tumors. The development of these new classes of peptide analogs should lead to a more effective treatment for various cancers.     

Effects of highly potent octapeptide analogs of somatostatin on growth hormone, insulin and glucagon release

Biological activities of highly potent octapeptide analogs of somatostatin (SS), D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160) and D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Thr-NH2 (RC-121), were investigated in male rats. When analog RC-160 was administered to rats in which serum growth hormone (GH) levels were elevated by pentobarbital anesthesia, a dose-related inhibition of GH was obtained at dose range of 0.1 to 2.5 micrograms/kg. The time course of GH inhibition by RC-160, RC-121 and SS-14 was studied in rats treated with phenobarbital, morphine and chlorpromazine. Analogs RC-160 and RC-121 induced a prolonged inhibition of GH levels, in contrast to SS-14, whose effect was short-lived. The analogs suppressed the GH level for more than 2 hr, the peak inhibition being seen 30 to 60 min after the injection. The effects of analogs RC-160 and RC-121 on insulin secretion were observed in rats, in which insulin levels had been elevated by intravenous administration of glucose (500 mg/rat). Administration of RC-160 suppressed insulin secretion, dose-dependently, maximum but not complete inhibition being achieved at a dose of 100 micrograms/kg. In this model, RC-160 and RC-121, in doses of 30 micrograms/kg, induced a similar inhibition of insulin release as 200 micrograms/kg of SS-14, whose action of SS-14 was transient. The effect of analog RC-160 on glucagon release was studied in rats with glucagon levels elevated by hypoglycemia. RC-160 suppressed the secretion of glucagon, the inhibition being dose-dependent in the range of 0.1 to 2 micrograms/kg. Doses of 2 and 10 micrograms/kg of this analog completely suppressed the hypoglycemia-induced glucagon release. These results indicate that analogs RC-160 and RC-121 possess prolonged and enhanced biological activities, the former analog showing a high selectivity in inhibiting GH and glucagon release in vivo as compared with that of insulin secretion.     

Characterization of pancreatic somatostatin binding sites with a I-somatostatin 28 analog

Somatostatin binding to guinea pig pancreatic acinar cell plasma membranes was characterized with an iodinated stable analog of somatostatin 28 (S₂₈): ¹²⁵I-[Leu⁸, DTrp²²,Tyr²⁵] S₂₈. The binding was highly dependent on calcium ions. In 0.2 mM free Ca²⁺ medium, binding at 37°C was saturable, slowly reversible and exhibited a single class of high affinity binding sites (K_D=0.05±0.01 nM, B_max=157±33 fmol/mg protein). Dissociation of bound radioactivity occurred with biphasic kinetics. Rate of dissociation increased when dissociation was measured at a time before equilibrium binding was reached. In 30 nM free Ca²⁺ medium, binding affinity and maximal binding capacity were decreased by about 4-fold. Decreasing calcium concentrations increased the amount of rapidly dissociating form of the receptor. Somatostatin 14 antagonist, Des AA^1,2[AzaAla^4–5,DTrp⁸,Phe^12–13]-somatostatin was active at the membrane level in inhibiting the binding. We conclude that using ¹²⁵I-[Leu⁸,DTrp²²,Tyr²⁵]S₂₈ as radioligand allows us to characterize a population of specific somatostatin receptors which are not different from those we previously described with the radioligand ¹²⁵I-[Tyr¹¹]-somatostatin. Somatostatin receptors could exist in two interconvertible forms. Calcium ions are an essential component in the regulation of the conformational change of somatostatin receptors.     

Characterization of muscarinic acetylcholine receptors on the rat pancreatic gastrin-producing cell line B6 RIN

The mechanisms of cholinergic stimulation of gastrin cells were studied in the rat pancreatic cell line B6 RIN. Carbachol induced an increase in intracellular Ca²⁺ and stimulated gastrin release in a dose-dependent manner over the range 10⁻⁵-10⁻³ M. These effects were completely abolished by atropine, suggesting the implication of muscarinic cholinergic receptors. The binding properties of these receptors were investigated. [N-Methyl-³H]scopolamine ([³h]nms) binding on cell homogenates was time-dependent, saturable and consistent with a single high-affinity binding class (K_d = 39.5 pM, and B_max = 7.9 fmol/mg DNA). Carbachol competitively inhibited [³H]NMS binding. The potency of inhibition of [³H]NMS binding by subtype selective antagonists was hexahydrodifenidol> pirenzepine> AF-DX 116. These results suggest the M₃, muscarinic receptors may be involved in the carbachol-induced gastrin release from B6 RIN cells.     

Superactive somatostatin analog decreases plasma glucose and glucagon levels in diabetic rats

The action of the new analog of somatostatin, D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160), on plasma glucagon and glucose levels was evaluated in streptozotocin-diabetic rats. The effect of this analog on the insulin-induced hypoglycemia in diabetic rats was also investigated in order to evaluate the risk of exacerbating hypoglycemia. Administration of analog RC-160, in a dose of 25 micrograms/kg b. wt. SC, inhibited plasma glucagon secretion and decreased plasma glucose levels. This effect also occurred when plasma glucagon and glucose levels were first elevated by arginine infusion, 1000 mg/kg/hr for 30 min. Subcutaneous injection of regular insulin, 15 U/kg b. wt., produced hypoglycemia with a progressive increase in glucagon levels. Analog RC-160 completely suppressed the hypoglycemia-induced glucagon release for up to 150 min after injection of the analog or insulin. A greater decrease in the plasma glucose level was observed in the group treated with insulin and the analog than in the group injected only with insulin. These results indicate that somatostatin analog RC-160 can produce a marked and prolonged inhibition of glucagon release and a decrease in the plasma glucose level in diabetic rats. This analog may be useful as an adjunct to insulin in the treatment of diabetic patients, although caution should be exercised, to prevent hypoglycemia when using somatostatin analogs together with insulin.     

Luteinizing hormone-releasing hormone analogs: their impact on the control of tumorigenesis

The development of the luteinizing hormone-releasing hormone (LH-RH) agonists and antagonists and the principles of their clinical use were reviewed. In the 28 years that have elapsed since the elucidation of the structure of LH-RH, various applications in gynecology, reproductive medicine, and oncology have been established for LH-RH agonists and antagonists. These clinical applications are based on inhibition of the pituitary and the gonads. The advantage of the LH-RH antagonists is due to the fact that they inhibit the secretion of gonadotropins and sex steroids immediately after the first injection and thus achieve rapid therapeutic effects in contrast to the agonists, which require repeated administration. LH-RH antagonists should find applications in the treatment of benign gynecologic disorders and benign prostatic hypertrophy and in assisted reproduction programs. The primary treatment of advanced androgen-dependent prostate cancer is presently based on the use of depot preparations of LH-RH agonists, but antagonists like Cetrorelix already have been tried successfully. Antagonists of LH-RH might be more efficacious than agonists in treatment of patients with breast cancer as well as ovarian and endometrial cancer. Recently, practical cytotoxic analogs of LH-RH that can be targeted to LH-RH receptors on tumors have been synthesized and successfully tested in experimental cancer models. Targeted cytotoxic LH-RH analogs show a great promise for therapy of prostate, breast, and ovarian cancers.     

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.     

Reduction of LH-RH pituitary and estradiol uterine binding sites by a superactive analog of luteinizing hormone-releasing hormone

The ability of the Luteinizing Hormone-Releasing Hormone (LH-RH) analogs to displace LH-RH from its pituitary receptors was evaluated $\text{in}\text{vitro}$. The two superactive analogs tested showed higher potency than the antagonists and LH-RH itself, D-Trp⁶-LH-RH being the most potent. The LH-RH specific binding activity in the pituitary fluctuated throughout the age of the rats. The highest number of LH-RH binding sites were seen on day 35 of age (276 fmol × 10^?2/pit) and an increment was induced by 0.05 μg D-Trp⁶-LH-RH (400 fmol × 10^?2/pit). However, 1 μg D-Trp⁶-LH-RH reduced the binding of LH-RH at all the times studied. In the control animals the number of estradiol binding sites increased on day 42 of age, and 0.05 μg D-Trp⁶-LH-RH augmented them on day 35 of age. On the contrary, 1 μg D-Trp⁶-LH-RH diminished the estradiol uterine receptors at all the times studied. Similar results were obtained in the ovariectomized-hypophysectomized rats on day 35 of age. Our studies demonstrated a biphasic action of D-Trp⁶-LH-RH on LH-RH pituitary receptors and a direct effect on uterus which could be mediated through the uterine estradiol receptors.     

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.     

The binding of bombesin and somatostatin and their analogs to human colon cancers.

Specific receptors for bombesin/gastrin-releasing peptide, somatostatin, and EGF were investigated in 15 human colon cancer specimens. Eight of 15 clinical specimens (15%) of colon cancer showed the presence of somatostatin receptors. Octapeptide somatostatin analogs, RC-160 and RC-121, showed 10 times higher binding affinity for somatostatin receptors on colon cancer membranes than somatostatin. Analysis of 125I-Tyr4-bombesin binding data revealed the presence of specific binding sites in six (40%) specimens of human colon cancer. Scatchard analysis of 125I-labeled bombesin indicated a single class of receptors in three specimens with an apparent Kd value of 2.5 nM and two classes of receptors with high (Kd = 0.4 +/- 0.2 nM) and low affinity (Kd = 1.6 +/- 0.4 microM) in three other specimens. The 125I-Tyr4-bombesin binding capacities in the colon cancers for high affinity binding sites were from 6 to 228 fmol/mg protein and for low affinity binding sites 76 +/- 15 pmol/mg protein. None of the membrane preparations made from normal colonic mucosa specimens showed specific binding for 125I-Tyr4-bombesin. Five pseudononapeptide (psi 13-14) bombesin (6-14) antagonists, with different modifications at Positions 6 and 14, synthesized in our laboratory, inhibited the binding of 125I-Tyr4-bombesin in nanomolar concentrations. No correlation was found between the degree of differentiation and the presence of binding sites for somatostatin or bombesin. Specific binding of EGF was detected in 80% of colon cancer specimens. EGF binding capacity in colon cancer membranes was on average twice as high as in normal colon mucosa (50 +/- 21 vs 28 +/- 14 fmol/mg protein, respectively). Specific binding sites for somatostatin and EGF, but not bombesin, were also demonstrated in human colon cancer cell line HT-29. In HCT-116 colon cancer line only EGF receptors were found. These receptor findings and our in vivo studies on inhibition of colon cancer growth support the merit of continued evaluation of somatostatin analogs and bombesin/gastrin-releasing peptide antagonists in the management of colonic carcinoma.     

Effect of somatostatin analogs on gastric acid secretion in dogs and rats

The effects of several superactive analogs of somatostatin on gastric acid response to various exogenous and endogenous stimulants were investigated in conscious dogs and rats with gastric fistulae (GF). The inhibition was compared to that induced by somatostatin-14 (S-S-14) at two dose levels. Several octapeptide analogs of somatostatin including D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160) and D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Thr-NH2 (RC-121), which were superactive in tests on suppression of GH levels, were 4-5 times more potent than S-S-14 in inhibiting desglugastrin-stimulated gastric acid secretion in GF dogs. The analog RC-160 also reduced the rise in serum gastrin levels and gastric acid secretion induced by sham feeding (SF) in dogs with gastric and esophageal fistulae (EF), but did not decrease food consumption. Gastric acid secretion induced by histamine (80 micrograms/kg/h) in dogs was not affected by 1-5 micrograms/kg/h of analog RC-121 or by 5 micrograms/kg/h of S-S-14. Analogs RC-160, RC-121, and RC-98-I (D-Trp-Cys-Phe-D-Trp-Lys-Thr-Cys-Thr-NH2) and others also powerfully inhibited desglugastrin-induced potent as S-S-14 in dogs but its activity was higher in rats. The results indicate that octapeptide analogs which are superactive in GH-inhibition tests are also more potent than S-S-14 in suppressing gastric acid secretion. These findings may be of clinical value.     

A radioimmunoassay specific for [Gln]LH-RH: Application in the confirmation of the structure of chicken hypothalamic luteinizing hormone-releasing hormone

In the first report on the chemical structure of a nonmammalian LH-RH, chicken hypothalamic LH-RH was demonstrated to be [Gln⁸]LH-RH [2–4]. However, these studies and subsequent reports [7,8] did not totally exclude the possibility of a reverse sequence of the two amino acids Leu-Gln. In view of the recently described structure of salmon brain LH-RH as [Trp⁷,Leu⁸]LH-RH [9], we undertook to confirm our earlier conclusion that chicken LH-RH is [Gln⁸]LH-RH and not [Gln⁷,Leu⁸]LH-RH. The immunologic, chromatographic and biological properties of natural chicken hypothalamic LH-RH were compared with those of the two synthetic peptides, [Gln⁸]LH-RH and [Gln⁷,Leu⁸]LH-RH. A radioimmunoassay highly specific for [Gln⁸]LH-RH was developed. Natural chicken LH-RH cross-reacted fully with the antiserum which requires the COOH-terminal Gln⁸ to Gly¹⁰-NH₂ for binding, while [Gln⁷,Leu⁸]LH-RH showed less than 0.1% cross-reaction. On a high resolution reverse phase high performance liquid chromatography system, natural chicken LH-RH co-eluted with [Gln⁸]LH-RH and was well separated from [Gln⁷,Leu⁸]LH-RH. In a chicken anterior pituitary cell bioassay, natural chicken LH-RH and [Gln⁸]LH-RH were equipotent in stimulating luteinizing hormone release, while the relative potency of [Gln⁷,Leu⁸]LH-RH was 4.4%. These data, in particular the use of a specific [Gln⁸]LH-RH antiserum, provide conclusive evidence that chicken LH-RH is [Gln⁸]LH-RH.     

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.