The type I insulin-like growth factor receptor regulates cancer metastasis independently of primary tumor growth by promoting invasion and survival.

The type I insulin-like growth factor receptor (IGF1R) regulates multiple aspects of malignancy and is the target of several drugs currently in clinical trials. Although the function of IGF1R in proliferation and survival is well studied, the regulation of metastasis by IGF1R is not as clearly delineated. Previous work showed that disruption of IGF1R signaling by overexpression of a dominant-negative IGF1R inhibited metastasis. To establish a clinically applicable approach to inhibition of metastasis by targeting IGF1R, we examined the effect of an inhibitory antibody against IGF1R, EM164 and its humanized version, AVE1642, on metastasis of cancer cells. EM164 and AVE1642 did not affect primary tumor growth of MDA-435A/LCC6 cells but inhibited metastasis of these cells. Consistent with this inhibition in the formation of metastatic nodules, disruption of IGF1R also resulted in a decreased number of circulating tumor cells in blood of tumor-bearing mice. Disruption of IGF1R with a dominant-negative construct or antibody inhibited invasion across Matrigel in vitro. When tumor cells were directly injected into the circulation through the lateral tail vein of mice, IGF1R disruption also resulted in significant reduction of pulmonary nodules, suggesting that regulation of invasion is not the only function of IGF1R signaling. Further, disruption of IGF1R rendered cells more susceptible to anoikis. Thus, IGF1R regulated metastasis independently of tumor growth. The multiple phenotypes regulated by IGF1R must be considered during development of this therapeutic strategy as inhibition of metastasis independent of inhibition of tumor growth is not easily assessed in phase II clinical trials.

Fluorescent tumour imaging of type I IGF receptor in vivo: comparison of antibody-conjugated quantum dots and small-molecule fluorophore.

BACKGROUND: The type I insulin-like growth factor receptor (IGF1R) is a transmembrane tyrosine kinase involved in cancer proliferation, survival, and metastasis. METHODS: In this study, we used two different fluorescent technologies (small-molecule fluorophores and quantum dot (QD) nanoparticles) to detect receptor expression and its downregulation by antibodies in vivo. RESULTS: After conjugation with AVE-1642, a humanised anti-IGF1R monoclonal antibody, both QDs (705 nm) or Alexa 680 (small-molecule fluorophore) detected expression and downregulation of IGF1R in vitro. To examine their utility in vivo, either AVE-1642 conjugates were intravenously delivered to mice bearing xenograft tumours of mouse embryo fibroblasts expressing human IGF1R or MCF-7 human breast cancer cells. Quantum dot fluorescence was mainly localised to the reticuloendothelial system in several organs and engulfed by macrophages, with only very small amount of QDs detected in the xenograft tumours. Depletion of macrophages by clodronate liposomes did not alter the nonspecific uptake of QDs. In contrast, AVE-1642-conjugated Alexa 680 solely targeted to xenograft tumour and was able to detect IGF1R downregulation, with little nonspecific targeting to other tissues or organs in mice. CONCLUSION: Taken together, our data suggest that small-molecule fluorophores, not QDs, are suitable to detect the expression and downregulation of IGF1R in vivo.

Deletion of estrogen receptors reveals a regulatory role for estrogen receptors-beta in bone remodeling in females but not in males.

To determine the contributions of estrogen receptor (ER)alpha and ERbeta in bone growth and remodeling in male and female mice, we generated and analyzed full knockouts for each receptor, and a double ER knockout. Although suppression of the ligand to the ERs (i.e., estradiol) after menopause or gonadectomy in females led to a catastrophic increase in bone turnover and concomitant bone loss, deletion of one or both ERs failed to show such an effect. Complete deletion of ERalpha led to a decrease, not an increase, in bone turnover and an increase, not a decrease, in trabecular bone volume in both male and female animals. Deletion of ERbeta led to different responses in males, where bone was unaffected, and in females, where bone resorption was decreased and trabecular bone volume increased. In contrast, deletion of both ERs led to a profound decrease in trabecular bone volume in females, which was associated with a decrease, not an increase, in bone turnover. Finally, deletion of ERalpha, but not ERbeta, led to major changes in circulating levels of estradiol and/or testosterone, indirectly affecting bone remodeling and bone mass. Thus, only ERalpha was shown to regulate bone remodeling in males, whereas in females both receptor subtypes influenced this process and could, at least under basal knockout conditions, compensate for each other.

Effects of 17 beta-estradiol and trimegestone alone, and in combination, on the bone and uterus of ovariectomized rats.

Trimegestone is a novel norpregnane progestin, which is being developed, in combination with 17 beta-estradiol, for the treatment of menopausal symptoms and prevention of postmenopausal osteoporosis. A model of osteoporosis in the ovariectomized rat has been used to evaluate the effects of 17 beta-estradiol and trimegestone, alone and in combination, on bone and uterus in these animals. Two treatment protocols were investigated, preventive with treatment starting immediately after ovariectomy and curative with treatment starting 1 or 6 months after ovariectomy. 17 beta-Estradiol was administered subcutaneously at a dose of 10 micrograms/kg/day with trimegestone or norethisterone being administered orally at a dose of 1 mg/kg/day; treatment was given 5 days per week. Treatment on both protocols was for 6 months. Given alone, 17 beta-estradiol maintained bone mass, either partially or completely, when given on the preventive protocol, or on the curative protocol with treatment starting 1 month after ovariectomy; it did not restore bone mass when given on the curative protocol with 6 months lapsing between ovariectomy and start of treatment. Trimegestone did not block the beneficial effects of 17 beta-estradiol on bone. 17 beta-Estradiol induced uterine hypertrophy on all these protocols and this was blocked completely by trimegestone. Trimegestone administered alone had no effect on bone or uterus but, when given in combination with 17 beta-estradiol, it did not inhibit the effect of 17 beta-estradiol in maintaining bone mass but completely blocked its uterotropic effect. Norethisterone at a similar dose did not inhibit the effects of 17 beta-estradiol on bone but also did not block its uterotropic effect.

Effect of trimegestone alone or in combination with estradiol on bone mass and bone turnover in an adult rat model of osteopenia.

The effects of trimegestone (1 mg/kg/day orally), a novel norpregnane progestin, and 17 beta-estradiol (10 micrograms/kg/day subcutaneously), alone and in combination, on bone mass and turnover were investigated using an experimental model of osteoporosis involving ovariectomized rats. An equivalent dose (1 mg/kg/day orally) or norethisterone was used as a reference progestin. Six-month-old rats were ovariectomized and left untreated for 2 months to allow the development of osteopenia. Treatment with a progestin, alone or in combination with estradiol, was then started and continued for 2 months. Bone was assessed by a combination of static and dynamic histomorphometric measurements, by densitometry and by the use of biochemical markers of bone turnover. Ovariectomy induced a pronounced uterine atrophy, which was reversed by estradiol. Trimegestone effectively counteracted the uterotropic effect of estradiol, whilst norethisterone showed a less pronounced antagonistic effect. A severe osteopenia was established in the initial 2 months after ovariectomy, and further bone loss occurred during the 2-month treatment period in animals not receiving estradiol. This effect was associated with a marked increase in both biochemical and dynamic histomorphometric markers of bone turnover, reflecting in an imbalance between resorption and formation. 17 beta-estradiol given alone prevented further bone loss, but neither trimegestone nor norethisterone alone had a beneficial effect on bone mass and turnover. When given in combination with 17 beta-estradiol, however, trimegestone significantly improved its effect on bone mass and turnover. This effect was more potent than that induced by combined 17 beta-estradiol and norethisterone therapy. We conclude that trimegestone, when combined with 17 beta-estradiol, is a more effective progestin than norethisterone in preventing bone loss in adult ovariectomized rats.

Bone homeostasis in growth hormone receptor-null mice is restored by IGF-I but independent of Stat5.

Growth hormone (GH) regulates both bone growth and remodeling, but it is unclear whether these actions are mediated directly by the GH receptor (GHR) and/or IGF-I signaling. The actions of GH are transduced by the Jak/Stat signaling pathway via Stat5, which is thought to regulate IGF-I expression. To determine the respective roles of GHR and IGF-I in bone growth and remodeling, we examined bones of wild-type, GHR knockout (GHR(-/-)), Stat5ab(-/-), and GHR(-/-) mice treated with IGF-I. Reduced bone growth in GHR(-/-) mice, due to a premature reduction in chondrocyte proliferation and cortical bone growth, was detected after 2 weeks of age. Additionally, although trabecular bone volume was unchanged, bone turnover was significantly reduced in GHR(-/-) mice, indicating GH involvement in the high bone-turnover level during growth. IGF-I treatment almost completely rescued all effects of the GHR(-/-) on both bone growth and remodeling, supporting a direct effect of IGF-I on both osteoblasts and chondrocytes. Whereas bone length was reduced in Stat5ab(-/-) mice, there was no reduction in trabecular bone remodeling or growth-plate width as observed in GHR(-/-) mice, indicating that the effects of GH in bone may not involve Stat5 activation.

Osteoblasts are a new target for prolactin: analysis of bone formation in prolactin receptor knockout mice.

Bone development is a multistep process that includes patterning of skeletal elements, commitment of hematopoietic and/or mesenchymental cells to chondrogenic and osteogenic lineages, and further differentiation into three specialized cell types: chondrocytes in cartilage and osteoblasts and osteoclasts in bone. Although PRL has a multitude of biological actions in addition to its role in the mammary gland, very little is known about its effect on bone. Mice carrying a germline null mutation for the PRL receptor gene have been produced in our laboratory and used to study the role of PRL in bone formation. In -/- embryos, we observed an alteration in bone development of calvaria. In adults, histomorphometric analysis showed that the absence of PRL receptors leads to a decrease in bone formation rate using double calcein labeling and a reduction of bone mineral density, measured by dual energy x-ray absorptiometry. In addition, serum estradiol, progesterone, testosterone, and PTH levels were analyzed. We also established that osteoblasts, but not osteoclasts, express PRL receptors. This suggests that an effect of PRL on osteoblasts could be required for normal bone formation and maintenance of bone mass. Thus, the PRL receptor knockout mouse model provides a new tool to investigate the involvement of PRL in bone metabolism.

Pharmacological profile of RU 58642, a potent systemic antiandrogen for the treatment of androgen-dependent disorders.

The pharmacological profile of RU 58642, a new non-steroidal antiandrogen was investigated both in vitro and in vivo. In vitro, the compound displays a strong and specific affinity for androgen receptor. In vivo, its antiandrogenic activity was evaluated in castrated rat supplemented with testosterone propionate and in intact animals on prostate, seminal vesicles weight and serum levels of testosterone by oral and subcutaneous route. In castrated rats RU 58642 induced a significant decrease in prostate weight at a dose as low as 0.3 mg/kg whatever the route of administration. In intact rats its activity was compared to that of other non-steroidal antiandrogens such as flutamide, nilutamide and bicalutamide. RU 58642 proved to be significantly more potent than the reference compounds in reducing prostate weight: 3-30 times orally and 3-100 times subcutaneously, and thus the most potent antiandrogen to date to our knowledge. These results suggest that this compound may be very useful in the treatment of systemic androgen-dependent diseases.

Non-steroidal antiandrogens: synthesis and biological profile of high-affinity ligands for the androgen receptor.

New N-substituted arylthiohydantoin antiandrogens were synthesized. These compounds presented exceptionally high relative binding affinities (RBAs) for the rat androgen receptor (AR): up to 3 times that of testosterone (T) and 100 times the RBAs of non-steroidal antiandrogens such as flutamide, Casodex and Anandron. Furthermore, unlike available markers for AR, they were totally devoid of any binding to the other steroid receptors. RU 59063, the molecule with the highest RBA, was tritiated. When it was compared to [3H]T for the assay of rat, mouse, hamster and human AR, it gave rise to the same number of binding sites but its K alpha (6 x 10(9) M-1) for rat and human AR were, respectively 3 and 8 times higher than that of T. Moreover RU 59063, unlike T, was devoid of any specific binding to human plasma. In vivo, these compounds displayed antiandrogenic activity while being devoid of any agonistic effect. Thus, RU 56187, given orally in castrated male animals, prevented in a dose-dependent manner the effects of 3 mg/kg testosterone propionate (TP) on mouse renal ornithine decarboxylase (acute test) and of 0.5 mg/kg TP on rat prostate weight (chronic test). In these two models, its ED50 was 0.6 and 1 mg/kg, respectively. In the intact rat, when given alone, it inhibited dose-dependently the effect of endogenous androgens on the seminal vesicles (ED50 approximately 1 mg/kg) and prostate (ED50 approximately 3 mg/kg) weights. These results suggest that these new compounds may be useful as specific markers for the androgen receptor as well as for the treatment of androgen-dependent diseases or disorders such as prostate cancer, acne, hirsutism and male pattern baldness.