Insulin-like growth factor (IGF)-I controls prostate fibromuscular development: IGF-I inhibition prevents both fibromuscular and glandular development in eugonadal mice.

Although antiandrogen therapy has been shown effective in treating prostatic tumors, it is relatively ineffective in treating benign prostatic hyperplasia (BPH). In an attempt to understand better the role of androgens in the development of the normal prostate and BPH, we studied the relative effects of testosterone and IGF-I on the development of the two compartments of the prostate in castrated IGF-I((-/-)) male mice. Here we report that IGF-I stimulated the development of the fibromuscular compartment, but testosterone inhibited it (stromal epithelial ratio 2.17 vs. 0.83, respectively; P < 0.001). Testosterone also impaired IGF-I induced insulin receptor substrate-1 phosphorylation and cell division, and increased apoptosis in fibromuscular tissue. In sharp contrast IGF-I and testosterone both stimulated the development of the glandular compartment individually and together. The combined effects were either additive or synergistic on compartment size, cell division, insulin receptor substrate-1 phosphorylation, and probasin production. Together they also had a greater inhibitory effect on apoptosis in gland tissue. To determine whether IGF-I inhibition would inhibit both fibromuscular and glandular compartments, we tested the effect of IGF binding protein-1 on prostate development in two different models: castrated Ames dwarf mice and eugonadal normal male mice. IGF binding protein-1 blocked bovine GH-induced fibromuscular and glandular development in both. It also inhibited epithelial cell division and increased apoptosis in both prostate compartments in the eugonadal mice. The observed discordance between IGF-I and testosterone control of prostate compartment development might explain the relative failure of 5alpha-reductase inhibition in BPH and why testosterone inhibition might theoretically reduce gland volume but increase fibromuscular tissue. The work also provides a rationale for considering IGF-I inhibition as therapy for BPH to reduce the size of both prostate compartments.

Pathobiology of pituitary adenomas and carcinomas.

OBJECTIVE: To examine relationships between pituitary tumors and lesion size, invasiveness, resectability, deoxyribonucleic acid ploidy, cell cycle profile, mitotic activity, and immunoreactivity for MIB-1, proliferating cell nuclear antigen (PCNA), p27Kip1, and p53. PATIENTS AND METHODS: One hundred fifty-three adenomas of most pathological subtypes, including 20 medically treated and prolactin and growth hormone-containing tumors, as well as 10 premetastatic tumors and 13 pituitary carcinomas, were studied. RESULTS: Significant (P < 0.05) differences were noted between functional versus nonfunctional adenomas (percent aneuploidy, percent S phase, p27Kip1 labeling indices [LI], male sex, tumor size, and frequency of visual disturbance); Cushing's versus silent adrenocorticotropin adenomas (percent hypertetraploidy, p53 LI, tumor size, visual disturbance, and resectability); untreated versus medically treated prolactin cell adenomas (MIB-1 LI, p53 LI, and resectability); untreated versus medically treated growth hormone-containing adenomas (percent diploidy, percent S phase, MIB-1 LI, p53 LI, and p27 LI); untreated prolactin cell adenomas versus premetastatic tumors (percent hypertetraploidy, PCNA LI, p53 LI, invasiveness, and resectability); untreated growth hormone-containing adenomas versus premetastatic tumors (percent diploidy, percent S phase, PCNA LI, p53 LI, invasiveness, and resectability); Cushing's adenomas versus premetastatic tumors (percent diploidy, percent hypertetraploidy, percent S phase, MIB-1 LI, p53 LI, tumor size, invasiveness, visual disturbance, and resectability); Nelson's adenomas versus premetastatic tumors (p53 LI, tumor size, invasiveness, and resectability); silent adenomas as a whole versus nonfunctional adenomas (percent nondiploid, percent S phase, invasiveness, and respectability); silent adrenocorticotropin adenomas I and II versus silent adenoma Subtype III (invasiveness); silent adrenocorticotropin adenoma Subtypes I and II versus premetastatic tumors (MIB-1 LI and invasiveness); silent adenoma Subtype III versus premetastatic tumors (PCNA and p53 LI); and premetastatic tumors versus metastatic pituitary carcinomas (MIB-1 LI). CONCLUSION: Only trends toward differences were noted between Cushing's versus Nelson's adenomas and between prolactinomas of reproductive female patients versus those of menopausal female patients and male patients. Too few "atypical adenomas" were encountered to permit their comparison with premetastatic tumors, but our results suggest that most pituitary carcinomas arise by malignant transformation from adenomas.

Pituitary carcinoma: a clinicopathological review.

Pituitary carcinomas are rare tumors; less than 100 well-documented cases have been reported to date. Such tumors are aggressive and associated with a high mortality rate. The molecular events leading to the development of pituitary carcinomas are largely unknown. Recent studies have only begun to shed light on the probable mechanisms of tumor initiation and progression. A review of the clinicopathological and molecular genetic characteristics of pituitary carcinomas is presented.

Acromegaly and pheochromocytoma: report of a rare coexistence.

OBJECTIVE: To describe a patient with the rare coexistence of acromegaly and pheochromocytoma. METHODS: We report a case of a 57-year-old woman, who was initially examined because of polyarthritis, she was also diagnosed with type 2 diabetes mellitus and hypertension at age 56 years. Her history, clinical findings, laboratory results, and management are summarized, and etiologic hypotheses are discussed. RESULTS: The patient had recurrent headaches and reported an increasing size of her shoes and gloves during the previous 4 years. Enlargement of her hands and feet and a bilateral temporal field defect were noted on examination. Laboratory studies revealed high levels of insulin-like growth factor I (IGF-I) and growth hormone (GH). Magnetic resonance imaging (MRI) showed a 3-cm sellar mass with impingement on the optic chiasm. The plasma level of growth hormone-releasing hormone (GHRH) was normal. She underwent transsphenoidal adenomectomy. Histologic examination confirmed a pituitary adenoma, immunoreactive for GH. Postoperatively, her headaches and arthritic pain diminished, and her levels of IGF-I and GH normalized; however, labile hypertension persisted. The urinary metanephrines and plasma catecholamines were increased. A 3-cm left adrenal mass, seen on abdominal MRI, was removed laparoscopically, after which urinary metanephrines normalized and both the diabetes and the hypertension resolved. Histopathologic analysis confirmed the diagnosis of pheochromocytoma. Immunohistochemical staining was negative for GHRH. CONCLUSION: The finding of a pheochromocytoma and acromegaly could be a fortuitous coexistence of two separate endocrine tumors; however, the probability of such an event is extremely low. A cause-and-effect relationship has been suggested because of previous reports of GHRH production by pheochromocytomas. Some investigators have also suggested that this coexistence might be a multiple endocrine neoplasia variant. Our patient had no evidence of GHRH production, nor did we document any familial autosomal dominant transmission pattern.

The Pituitary in Gigantism.

To compare the pituitary pathology of gigantism to that of acromegaly, 19 surgically resected lesions were studied from 10 males and 9 females, ages 13-49 (mean, 19 yr) with excessive height (>/=95th percentile), onset of disease prior to puberty, elevated growth hormone (GH) levels despite glucose suppression, and a pathologically confirmed GH-producing pituitary mass. One patient had MEN-I. The lesions included 18 adenomas and 1 case of pure hyperplasia. The median, mean, and range of serum GH and prolactin (PRL) levels were 64, 235, 5-1000 ng/mL and 47, 146, 29-770 ng/mL, respectively. Of the 8 adenoma specimens accompanied by nontumoral pituitary (i.e., tissue wherein the presence of hyperplasia was assessable), 3 (37%) demonstrated both. Of the 18 tumors, 78% were macroadenomas and 22% were grossly invasive; their immunophenotypes included GH (5%), GH and PRL (19%), and GHPRL and a glycoprotein hormone, usually TSH and/or a-subunit (76%). Of the 10 adenoma-containing lesions subject to electron microscopy (EM), 2 consisted of GH cells alone; 2 of mammosomatotroph (MS) cells alone; 1 of GH and MS cells; 1 of GH and PRL cells; 2 of GH, PRL, and MS cells; 1 of GH, PRL, and glycoprotein cells; and 1 was a subtype 3 adenoma. Ultrastructurally, GH cells and/or MS cells predominated in these lesions. Immuno-EM of one CH and PRL cell and of one GH-PR-MS tumor showed GH and PRL to be present not only in single cells but within the same granules. Nine of 12 adenoma-associated lesions subject to combined in situ hybridization (ISH) and immunostaining showed double labeling for PRL (or GH) mRNA and for GH (or PRL), respectively, features indicating MS differentiation. In the 4 lesions exhibiting hyperplasia, either alone (1) or in association with adenoma (3), EM showed MS cells in 3, and immuno-EM as well as combined immunohistochemistry and ISH showed double labeling for GH and PRL in both of the 2 cases studied. In summary, although in terms of their tinctorial characteristics and tumor size, the lesions of giants resemble those of acromegalics, those of the former are less often invasive and glycoprotein hormone containing, and more often contain ultrastructurally distinctive MS cells. The high frequency of adenoma with hyperplasia (37%) and the occurrence of hyperplasia alone (6%) is of particular notice since this finding is rare in patients with acromegaly. Hyperplasia is, however, seen in ectopic GH-releasing hormone production and the McCune-Albright syndrome. We conclude that the presence of MS is not rare in the pituitary lesions of patients with gigantism. Their presence may be a reflection of either hypothalamic dysfunction or of an intrinsic abnormality of pituitary cells,