Your search keyword '"Cunha G"' showing total 12 results

1. Whole-Mount Autoradiography Study of DNA Synthetic Activity during Postnatal Development and Androgen-Induced Regeneration in the Mouse Prostate1

Author

Sugimura, Y., Cunha, G. R., Donjacour, A. A., Bigsby, R. M., and Brody, J. R.

Abstract

Ventral and dorsolateral prostatic lobes (VP and DLP), obtained from mice at different ages and at different intervals after castration or treatment of castrated males with testosterone propionate (TP), were microdissected into two-dimensional arrays and incubated in vitro with 14C-thymidine. Labeled whole-mount specimens were fixed and dried onto glass slides, dipped into photographic emulsion, and processed autoradiographically. The morphological pattern of DNA synthetic activity was similar in the VP and DLP. During early postnatal periods (10–15 days after birth), DNA synthetic activity was highest at the distal ductal tips (near the capsule) and considerably lower in proximal ducts (near the urethra). At 30 days of age, DNA synthesis was almost totally confined to the distal ducts, with exceedingly low labeling in the proximal ductal areas. In the prostate of the intact or castrated adult, DNA synthesis was nearly absent throughout the gland, but silver grains were still observed on the ductal tips. During androgen-induced prostatic regeneration, DNA synthesis was detectable only in distal ducts 24 h after TP was administered. Labeling intensity reached a maximum on the third day of TP treatment in both distal and proximal ductal areas, thereafter, it subsided to focal labeling confined mostly to distal ducts. These results demonstrate that levels of DNA synthetic activity vary considerably within the prostate on a regional basis. Explanation of this heterogeneity in DNA synthetic activity within the prostate gland is fundamental to understanding the mechanism of androgenic regulation of prostatic growth and development.

Published

1986

2. Morphological and Histological Study of Castration-Induced Degeneration and Androgen-Induced Regeneration in the Mouse Prostate1

Author

Sugimura, Y., Cunha, G. R., and Donjacour, A. A.

Abstract

Degenerative and regenerative changes in the ductal architecture of the ventral and dorsolateral prostates (VP and DLP) of the adult mouse were investigated in microdissected specimens over a time-course of 14 days following castration and subsequently during 14 days of administration of testosterone propionate. After castration, about 35% of the ductal tips and branch-points were lost in distal regions (usually near the capsule) in both prostatic lobes. By contrast, in more proximal regions of the prostate (closer to the urethra), the ducts survived in an atrophic condition. The ductal morphology that had been lost in the distal regions completely regenerated after testosterone propionate was administered to the castrated males. In the VP, androgen replacement simply returned the gland to its former size with moderate ductal distension; in the DLP, excessive epithelial infoldings and ductal distension were elicited in the distal regions of the ducts after 14 days of treatment with testosterone propionate. These results suggest that androgenic responsiveness and dependency are different in distal versus proximal ducts. Distal ducts are exquisitely androgen-dependent and androgen-sensitive; in proximal regions, androgen-dependency is not as strict.

Published

1986

3. Morphogenesis of Ductal Networks in the Mouse Prostate1

Author

Sugimura, Y., Cunha, G. R., and Donjacour, A. A.

Abstract

Postnatal growth and development of the glandular architecture of the ventral and dorsolateral lobes of the mouse prostate (VP and DLP) were investigated by microdissection techniques that permitted precise quantification of the numbers of primary ducts emerging from the urethra, the terminal ductal tips, and ductal branch-points. At birth both the right and left lobe of the VP consisted of 1–3 main ducts that had already undergone secondary and tertiary branching. In contrast, at birth the more complex DLP had 9–12 unbranched main ducts per lobe on both the right and left sides. During the first 15 days after birth, 80.7% of tips and 76.4% of branch-points of the adult gland formed in the VP, and 70.4% of tips and 53.6% of the branch-points formed in the DLP. Ductal branching was completed by 60 to 90 days. The DLP developed in three stages: first, formation of unbranched main ducts (first 10 days); second, distal branching of each main duct resulting in 3–5 terminal branches per main duct (10–15 days after birth); third, elaboration of intraductal mucosal infolding in distal ducts after 30 days of age. Ducts of the lateral prostate (LP), a ventrolateral subdivision of the DLP, initiated branching morphogenesis between 1 to 5 days after birth. The LP grew into and became embedded within the capsule of the VP, which may explain why the ductal architecture of these two lobes are similar. These heretofore unrecognized differences in the organogenesis and morphology of the mouse VP and DLP and the striking morphological heterogeneity both between and within the lobes of the mouse prostate may be morphological manifestations of functional heterogeneities within the prostate.

Published

1986

4. Regulation of progesterone receptors and decidualization in uterine stroma of the estrogen receptor-alpha knockout mouse.

Author

Kurita T, Lee K, Saunders PT, Cooke PS, Taylor JA, Lubahn DB, Zhao C, Mäkelä S, Gustafsson JA, Dahiya R, and Cunha GR

Subjects

Animals, Epithelium chemistry, Estradiol pharmacology, Estrogen Receptor alpha, Female, Fulvestrant, Immunohistochemistry, Mice, Mice, Knockout, Mice, Nude, Myometrium chemistry, Myometrium metabolism, Organ Culture Techniques, Ovariectomy, Progesterone pharmacology, RNA, Messenger, Receptors, Estrogen analysis, Receptors, Estrogen physiology, Signal Transduction, Stromal Cells chemistry, Stromal Cells metabolism, Uterus chemistry, Decidua physiology, Estradiol analogs & derivatives, Gene Expression Regulation drug effects, Receptors, Estrogen deficiency, Receptors, Progesterone genetics, Uterus metabolism

Abstract

Regulation of progesterone receptor (PR) in uterine stroma (endometrial stroma plus myometrium) by estrogen was investigated in estrogen receptor-alpha (ERalpha) knockout (alphaERKO) mice. 17 beta-Estradiol (E(2)) increased PR levels in uterine stroma of ovariectomized alphaERKO mice, and ICI 182 780 (ICI) inhibited this E(2)-induced PR expression. Estrogen receptor-beta(ER beta) was detected in both uterine epithelium and stroma of wild-type and alphaERKO mice by immunohistochemistry. In organ cultures of alphaERKO uterus, both E(2) and diethylstilbestrol induced stromal PR, and ICI inhibited this induction. These findings suggest that estrogen induces stromal PR via ERbeta in alphaERKO uterus. However, this process is not mediated exclusively by ERbeta+, because in ERbeta knockout mice, which express ERalpha, PR was up-regulated by E(2) in uterine stroma. In both wild-type and alphaERKO mice, progesterone and mechanical traumatization were essential and sufficient to induce decidual cells, even though E(2) and ERalpha were also required for increase in uterine weight. Progesterone receptor was strongly expressed in decidual cells in alphaERKO mice, and ICI did not inhibit decidualization or PR expression. This study suggests that up-regulation of PR in endometrial stroma is mediated through at least three mechanisms: 1) classical estrogen signaling through ERalpha, 2) estrogen signaling through ERbeta, and 3) as a result of mechanical stimulation plus progesterone, which induces stromal cells to differentiate into decidual cells. Each of these pathways can function independently of the others.

Published

2001

5. Paracrine regulation of epithelial progesterone receptor and lactoferrin by progesterone in the mouse uterus.

Author

Kurita T, Lee KJ, Cooke PS, Lydon JP, and Cunha GR

Subjects

Animals, Blotting, Northern, Down-Regulation drug effects, Epithelium physiology, Estradiol pharmacology, Estrogen Antagonists pharmacology, Female, Image Processing, Computer-Assisted, Immunohistochemistry, Mice, Mice, Nude, Ovariectomy, Paracrine Communication drug effects, RNA, Messenger biosynthesis, Recombinant Proteins metabolism, Stromal Cells drug effects, Stromal Cells metabolism, Uterus drug effects, Lactoferrin biosynthesis, Paracrine Communication physiology, Progesterone pharmacology, Receptors, Progesterone biosynthesis, Uterus metabolism

Abstract

The objective of this study was to determine whether uterine stromal and/or epithelial progesterone receptor (PR) is required for the antagonism by progesterone (P(4)) of estradiol-17beta (E(2)) action on expression of PR and lactoferrin in uterine epithelium. Uterine tissue recombinants were prepared with epithelium (E) and stroma (S) from wild-type (wt) and PR knockout (PRKO) mice: wt-S+wt-E and PRKO-S+wt-E. P(4) action on epithelial PR expression was studied in wt-S+wt-E and PRKO-S+wt-E tissue recombinants. E(2) down-regulated epithelial PR in both types of tissue recombinants, but P(4) blocked E(2)-induced down-regulation of epithelial PR only in wt-S+wt-E tissue recombinants. Thus, P(4) requires stromal PR to inhibit E(2)-induced down-regulation of epithelial PR. Epithelial PR is not sufficient in itself. The inhibitory effect of P(4) on lactoferrin expression was studied in 4 types of tissue recombinants (wt-S+wt-E, PRKO-S+wt-E, wt-S+PRKO-E, and PRKO-S+PRKO-E). E(2) induced lactoferrin in all 4 types of tissue recombinants. P(4) blocked E(2)-induced lactoferrin expression only in wt-S+wt-E tissue recombinants. In wt-S+PRKO-E tissue recombinants, P(4) inhibited lactoferrin expression only partially. P(4) failed to block E(2)-induced lactoferrin expression in PRKO-S+wt-E and PRKO-S+PRKO-E tissue recombinants. Thus, both epithelial and stromal PR are essential for full P(4) inhibition of E(2)-induced lactoferrin expression.

Published

2000

6. Paracrine regulation of epithelial progesterone receptor by estradiol in the mouse female reproductive tract.

Author

Kurita T, Lee KJ, Cooke PS, Taylor JA, Lubahn DB, and Cunha GR

Subjects

Animals, Blotting, Northern, Cells, Cultured, Epithelium physiology, Female, Image Processing, Computer-Assisted, Immunohistochemistry, Mice, Mice, Inbred BALB C, Mice, Knockout, RNA biosynthesis, Recombination, Genetic, Uterus physiology, Vagina physiology, Estradiol physiology, Genitalia, Female physiology, Paracrine Communication physiology, Receptors, Progesterone physiology

Abstract

Regulation of progesterone receptor (PR) by estradiol-17beta (E(2)) in mouse uterine and vaginal epithelia was studied. In ovariectomized mice, PR expression was low in both vaginal stroma and epithelium, but high in uterine epithelium. E(2) induced PR in vaginal epithelium and stroma, but down-regulated PR in uterine epithelium. Analysis of estrogen receptor alpha (ERalpha) knockout (ERKO) mice showed that ERalpha is essential for E(2)-induced PR expression in both vaginal epithelium and stroma, and for E(2)-induced down-regulation, but not constitutive expression of PR in uterine epithelium. Regulation of PR by E(2) was studied in vaginal and uterine tissue recombinants made with epithelium and stroma from wild-type and ERKO mice. In the vaginal tissue recombinants, PR was induced by E(2) only in wild-type epithelium and/or stroma. Hence, in vagina, E(2) induces PR directly via ERalpha within the tissue. Conversely, E(2) down-regulated epithelial PR only in uterine tissue recombinants constructed with wild-type stroma. Therefore, down-regulation of uterine epithelial PR by E(2) requires stromal, but not epithelial, ERalpha. In vitro, isolated uterine epithelial cells retained a high PR level with or without E(2), which is consistent with an indirect regulation of uterine epithelial PR in vivo. Thus, E(2) down-regulates PR in uterine epithelium through paracrine mechanisms mediated by stromal ERalpha.

Published

2000

7. Mechanism of estrogen action: lessons from the estrogen receptor-alpha knockout mouse.

Author

Cooke PS, Buchanan DL, Lubahn DB, and Cunha GR

Subjects

Animals, Breast cytology, Cell Differentiation, Cell Division drug effects, Epithelial Cells cytology, Epithelial Cells physiology, Female, Mice, Mice, Knockout, Receptors, Estrogen genetics, Stromal Cells metabolism, Uterus cytology, Vagina cytology, Estradiol pharmacology, Receptors, Estrogen physiology

Published

1998

8. Species-specific detection of growth factor gene expression in developing murine prostatic tissue.

Author

Haughney PC, Hayward SW, Dahiya R, and Cunha GR

Subjects

Animals, Epidermal Growth Factor genetics, Epithelium transplantation, ErbB Receptors genetics, Fibroblast Growth Factor 10, Fibroblast Growth Factor 7, Male, Mesoderm transplantation, Mice, Mice, Inbred BALB C, Mice, Nude, Polymerase Chain Reaction, RNA, Messenger analysis, Rats, Rats, Sprague-Dawley, Species Specificity, Transforming Growth Factor alpha genetics, Transforming Growth Factor beta genetics, Urogenital System embryology, Fibroblast Growth Factors, Gene Expression, Growth Substances genetics, Prostate embryology

Abstract

The aim of the present study was to develop a method by which the expression of paracrine signaling molecules could be localized to either epithelial or stromal cells of developing prostatic tissue. Heterospecific tissue recombinants composed of mouse urogenital epithelium (mouse UGE) plus rat urogenital mesenchyme (rat UGM) and the reciprocal tissue recombinants, rat urogenital epithelium (rat UGE) plus mouse urogenital mesenchyme (mouse UGM), were grafted under the renal capsule in intact, athymic male mouse and rat hosts. After 2 wk of growth, RNA from the grafts was analyzed by species-specific reverse transcription-polymerase chain reaction for the expression of the mRNA for the following molecules: transforming growth factors beta1, beta3, and alpha; epidermal growth factor; epidermal growth factor receptor; and keratinocyte growth factor. The species of expression of these growth factor and receptor gene products within the heterospecific tissue recombinants was identified, allowing determination of the cell layer in which the genes were expressed. Identification of the tissue-specific expression of the growth factor and growth factor receptor profiles of the epithelium and mesenchyme of this in vivo model provides a basis for understanding the autocrine and paracrine mediators of cell-cell interactions in prostatic development.

Published

1998

9. Morphological and functional heterogeneity in the rat prostatic gland.

Author

Hayashi N, Sugimura Y, Kawamura J, Donjacour AA, and Cunha GR

Subjects

Animals, Blotting, Western, Male, Morphogenesis, Organ Size, Prostate growth & development, Prostate metabolism, Proteins metabolism, Rats, Rats, Inbred Strains growth & development, Prostate anatomy & histology

Abstract

Ductal morphogenesis and adult ductal branching patterns were examined in the rat prostate by a microdissection method. The rat prostate consists of paired (right and left) subdivisions which correspond in large part to the classically defined lobes: ventral prostate, lateral prostate, dorsal prostate, and coagulating gland. Of particular interest was the finding that the lateral prostate consists of two different ductal zones: (1) lateral type 1 prostate with 5-7 long main ducts (resembling miniature palm trees) that extend cranially towards both the seminal vesicle and dorsal prostate to arborize near the bladder neck, and (2) lateral type 2 prostate with 5-6 short main ducts that arborize caudal to the bladder neck and give rise to compact bushy glands. Both lateral prostatic groups had a ductal-acinar organization. The adult structure of the other rat prostatic lobes was also examined, and closely resembled their mouse counterparts. The ventral prostate, which had 2-3 pairs of slender main ducts per side, and the coagulating gland, which had 1 main duct per side, was completely ductal in structure. In contrast, the dorsal prostate, which had 5-6 pairs of main ducts per side, had a ductal-acinar structure. Ductal branching morphogenesis occurred at different rates in different lobes and was essentially complete in the prostate at the 30 days. Immunocytochemical studies with an antibody to DP-1, a major secretory protein of the rat dorsal prostate, revealed that secretory function was initiated at approximately 30 days after birth in the coagulating gland, the dorsal prostate, and lateral type 1 prostate. A consistent feature of the lateral type 2 prostate was the absence of DP-1. On Western blots, DP-1 was detected in the secretion of the coagulating gland, lateral type 1 and dorsal prostate, but not in the ventral and lateral type 2 prostate. Polyacrylamide gel electrophoresis confirmed this result and demonstrated that the lateral type 2 prostate expressed several low-molecular weight secretory proteins not found in the other lobes of the prostate. On the whole, the rat prostate exhibited considerable heterogeneity both between and within lobes in developmental processes, ductal patterning, histology, and functional expression.

Published

1991

10. Characterization of androgen binding and deoxyribonucleic acid synthesis in prostate-like structures induced in the urothelium of testicular feminized (Tfm/Y) mice.

Author

Shannon JM and Cunha GR

Subjects

Animals, Autoradiography, Epithelium metabolism, Male, Mice, Mice, Inbred Strains, Rats, Rats, Inbred Strains, Thymidine metabolism, Urinary Bladder pathology, Androgen-Insensitivity Syndrome metabolism, Androgens metabolism, DNA biosynthesis, Prostate pathology, Urinary Bladder metabolism

Abstract

We have examined tissue recombinants composed of wild-type (rat or mouse) urogenital sinus mesenchyme plus adult testicular feminized (Tfm/y) bladder epithelium for the autoradiographic localization of androgen binding. In the presence of androgens, wild-type mesenchyme reprogrammed the androgen-insensitive bladder epithelium to undergo prostatic morphogenesis. Steroid autoradiography of [3H] dihydrotestosterone or [3H] methyltrienolone binding in these recombinants, however, showed that the ligands were specifically bound only in the nuclei of stromal cells, indicating that the effects of androgens on prostatic morphogenesis are mediated by the mesenchyme. Furthermore, autoradiograms prepared from recombinants that were exposed to [3H] thymidine showed that the generation of prostatic form required a specific, androgen-induced proliferation in the androgen-insensitive bladder epithelium. The significance of these data in relation to epithelial-stromal interactions occurring during prostate development is discussed.

Published

1984

11. Role of uterine epithelium in the development of myometrial smooth muscle cells.

Author

Cunha GR, Young P, and Brody JR

Subjects

Actins analysis, Aging physiology, Animals, Cell Differentiation, Epithelium physiology, Female, Immunohistochemistry, Mesoderm cytology, Mesoderm physiology, Mice, Mice, Inbred BALB C, Molecular Weight, Muscle, Smooth cytology, Myometrium cytology, Animals, Newborn physiology, Muscle Development, Muscle, Smooth growth & development, Myometrium growth & development, Uterus physiology

Abstract

To study the role of epithelial-mesenchymal interactions in myometrial development, uteri from neonatal Balb/c mice 1 to 60 days postpartum were utilized. Intact (untrypsinized) uteri, trypsinized but unseparated uteri, homotypic uterine tissue recombinants (separated-recombined), or uterine mesenchyme alone were grafted beneath the renal capsule of syngeneic female hosts and grown for 1 mo. Uterine mesenchyme from 1-day mice grafted alone produced small amounts of smooth muscle, most of which was associated with vasculature, whereas uterine mesenchyme from older donors possessing a rudimentary myometrium at the time of grafting formed intermediate amounts of myometrium (actin-positive smooth muscle bundles). In contrast, all specimens containing epithelium (intact, trypsinized, and separated-recombined) developed large amounts of myometrium. Uterine epithelia from neonatal through adult stages were equally effective in permissively inducing myometrial development in 1-day uterine mesenchyme. From these data, it is apparent that uterine epithelium plays an important promotional role in the differentiation and possibly the spatial organization of the myometrium.

Published

1989

12. Stromal-epithelial interactions in sex differentiation.

Author

Cunha GR, Chung LW, Shannon JM, and Reese BA

Subjects

Androgens physiology, Animals, Cell Differentiation, Connective Tissue embryology, Connective Tissue physiology, Epithelium embryology, Epithelium physiology, Epithelium ultrastructure, Female, Humans, Male, Mice, Morphogenesis, Pregnancy, Urinary Bladder ultrastructure, Urogenital System growth & development, Urogenital System ultrastructure, Mesoderm physiology, Sex Differentiation, Urogenital System embryology

Published

1980