Carol A. Podlasek scite author profile

The budding of the urogenital sinus epithelium into the surrounding mesenchyme signals the onset of prostate morphogenesis. The epithelial and mesenchymal factors that regulate ductal budding and the ensuing process of ductal growth and branching are not fully known. We provide evidence that bone morphogenetic protein 4 (BMP4) is a mesenchymal factor that regulates ductal morphogenesis. The Bmp4 gene was most highly expressed in the male urogenital sinus from embryonic day 14 through birth, a period marked by formation of main prostatic ducts and initiation of ductal branching. From an initial wide distribution throughout the prostatic anlage of the urogenital sinus, Bmp4 expression became progressively restricted to the mesenchyme immediately surrounding the nascent prostatic ducts and branches. Exogenous BMP4 inhibited epithelial cell proliferation and exhibited a dose-dependent inhibition of ductal budding in urogenital sinus tissues cultured in vitro. Adult Bmp4 haploinsufficient mice exhibited an increased number of duct tips in both the ventral prostate and coagulating gland. Taken together, our data indicate that BMP4 is a urogenital sinus mesenchymal factor that restricts prostate ductal budding and branching morphogenesis.

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Regeneration of the cavernous nerve by Sonic hedgehog using aligned peptide amphiphile nanofibers

Angeloni

et al. 2011

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Efforts to regenerate the cavernous nerve (CN), which provides innervation to the penis, have been minimally successful, with little translation into improved clinical outcomes. We propose that, Sonic hedgehog (SHH), is critical to maintain CN integrity, and that SHH delivered to the CN by novel peptide amphiphile (PA) nanofibers, will promote CN regeneration, restore physiological function, and prevent penile morphology changes that result in erectile dysfunction (ED). We performed localization studies, inhibition of SHH signaling in the CN, and treatment of crushed CNs with SHH protein via linear PA gels, which are an innovative extended release method of delivery. Morphological, functional and molecular analysis revealed that SHH protein is essential to maintain CN architecture, and that SHH treatment promoted CN regeneration, suppressed penile apoptosis and caused a 58% improvement in erectile function in less than half the time reported in the literature. These studies show that SHH has substantial clinical application to regenerate the CN in prostatectomy and diabetic patients, that this methodology has broad application to regenerate any peripheral nerve that SHH is necessary for maintenance of its structure, and that this nanotechnology method of protein delivery may have wide spread application as an in vivo delivery tool in many organs.

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¹³C−¹H Spin-Coupling Constants in the β-d-Ribofuranosyl Ring: Effect of Ring Conformation on Coupling Magnitudes

et al. 1996

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Experimental and computational methods have been used to examine the behavior of one-, two-, and three-bond 13C−1H spin-coupling constants (1 J CH, 2 J CH and 3 J CH, respectively) within the β-d-ribofuranosyl ring 1 that may be potentially affected by ring conformation. Ab initio molecular orbital (MO) calculations at the HF/6-31G* and MP2/6-31G* levels of theory were employed to assess the effect of ring conformation on molecular parameters (i.e., bond lengths, angles, and torsions) of β-d-ribofuranose (2) and methyl β-d-ribofuranoside (3), and these data were validated through comparison to corresponding parameters obtained by X-ray crystallography. The MO-derived structural data were subsequently used to compute 1 J CH, 2 J CH and 3 J CH values in 2 as a function of ring conformation. This predicted behavior was then tested experimentally through the measurement of J CH values in conformationally-rigid model compounds (aldopyranosides) containing 13C−1H coupling pathways similar to those found in specific conformers of 2 and was examined for consistency with previously-derived empirical rules correlating J CH with structure in carbohydrates. Available J CH data obtained on several biologically-important compounds containing β-d-ribofuranosyl rings have been interpreted in light of the new correlations with ring conformation.

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Sonic hedgehog Cascade Is Required for Penile Postnatal Morphogenesis, Differentiation, and Adult Homeostasis1

et al. 2003

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The penis is unique in that it undergoes morphogenesis and differentiation primarily in the postnatal period. For complex structures such as the penis to be made from undifferentiated precursor cells, proliferation, differentiation, and patterning are required. This process involves coordinated activity of multiple signals. Sonic hedgehog (Shh) forms part of a regulatory cascade that is essential for growth and morphogenesis of many tissues. It is hypothesized that the penis utilizes regulatory mechanisms similar to those of the limb and accessory sex organs to pattern penile postnatal morphogenesis and differentiation and that the Shh cascade is critical to this process. To test this hypothesis, Shh, BMP-4, Ptc, and Hoxa-10 localization and function were examined in Sprague-Dawley rat penes by means of quantitative reverse transcription polymerase chain reaction, in situ hybridization, immunohistochemistry, and Western blotting. These genes were expressed in the penis during postnatal morphogenesis in a spatially and temporally restricted manner in adjacent layers of the corpora cavernosal sinusoids. The function of Shh and BMP-4 is to establish and maintain corpora cavernosal sinusoids. The data suggest that Ptc and Hoxa-10 are also important in penile morphogenesis. The continuing function of Shh and targets of its signaling in maintaining penile homeostasis in the adult is significant because disruption of Shh signaling affects erectile function. This is the first report that demonstrates the significant role that Shh plays in establishing and maintaining penile homeostasis and how this relates to erectile function. These studies provide valuable insight that may be applied to improve treatment options for erectile dysfunction.

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672: Regulation of Cavernous Nerve Injury-Induced Apoptosis by Sonic Hedgehog

Podlasek¹,

Tang²,

Meraz³

et al. 2007

Journal of Urology

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Torsional effects on the one-bond 13C-13C spin coupling constant in ethylene glycol: insights into the behavior of 1JCC in carbohydrates

Carmichael¹,

Chipman²,

Podlasek³

et al. 1993

J. Am. Chem. Soc.

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Altered Sonic Hedgehog Signaling Is Associated with Morphological Abnormalities in the Penis of the BB/WOR Diabetic Rat1

Podlasek

Zelner

Harris

et al. 2003

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Erectile dysfunction (ED) is a common and debilitating pathological development that affects up to 75% of diabetic males. Neural stimulation is a crucial aspect of the normal erection process. Nerve injury causes ED and disrupts signaling of the Sonic hedgehog (Shh) cascade in the smooth muscle of the corpora cavernosa. Shh and targets of its signaling establish normal corpora cavernosal morphology during postnatal differentiation of the penis and regulate homeostasis in the adult. Interruption of the Shh cascade in the smooth muscle of the corpora cavernosa results in extensive changes in corpora cavernosal morphology that lead to ED. Our hypothesis is that the neuropathy observed in diabetics causes morphological changes in the corpora cavernosa of the penis that result in ED. Disruption of the Shh cascade may be involved in this process. We tested this hypothesis by examining morphological changes in the penis, altered gene and protein expression, apoptosis, and bromodeoxyuridine incorporation in the BB/WOR rat model of diabetes. Extensive smooth muscle and endothelial degradation was observed in the corpora cavernosa of diabetic penes. This degradation accompanied profound ED, significantly decreased Shh protein in the smooth muscle of the corpora cavernosa, and increased penile Shh RNA expression in the intact penis (nerves, corpora, and urethra). Localization and expression of Shh targets were also disrupted in the corpora cavernosa. Increasing our understanding of the molecular mechanisms that regulate Shh signaling may provide valuable insight into improving treatment options for diabetic impotence.

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Carol A. Podlasek

[13C]Enriched Methyl Aldopyranosides: Structural Interpretations of 13C-1H Spin-Coupling Constants and 1H Chemical Shifts

Mesenchymal Factor Bone Morphogenetic Protein 4 Restricts Ductal Budding and Branching Morphogenesis in the Developing Prostate

Regeneration of the cavernous nerve by Sonic hedgehog using aligned peptide amphiphile nanofibers

¹³C−¹H Spin-Coupling Constants in the β-d-Ribofuranosyl Ring: Effect of Ring Conformation on Coupling Magnitudes

Sonic hedgehog Cascade Is Required for Penile Postnatal Morphogenesis, Differentiation, and Adult Homeostasis1

672: Regulation of Cavernous Nerve Injury-Induced Apoptosis by Sonic Hedgehog

Torsional effects on the one-bond 13C-13C spin coupling constant in ethylene glycol: insights into the behavior of 1JCC in carbohydrates

Altered Sonic Hedgehog Signaling Is Associated with Morphological Abnormalities in the Penis of the BB/WOR Diabetic Rat1

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Carol A. Podlasek

[13C]Enriched Methyl Aldopyranosides: Structural Interpretations of 13C-1H Spin-Coupling Constants and 1H Chemical Shifts

Mesenchymal Factor Bone Morphogenetic Protein 4 Restricts Ductal Budding and Branching Morphogenesis in the Developing Prostate

Regeneration of the cavernous nerve by Sonic hedgehog using aligned peptide amphiphile nanofibers

13C−1H Spin-Coupling Constants in the β-d-Ribofuranosyl Ring: Effect of Ring Conformation on Coupling Magnitudes

Sonic hedgehog Cascade Is Required for Penile Postnatal Morphogenesis, Differentiation, and Adult Homeostasis1

672: Regulation of Cavernous Nerve Injury-Induced Apoptosis by Sonic Hedgehog

Torsional effects on the one-bond 13C-13C spin coupling constant in ethylene glycol: insights into the behavior of 1JCC in carbohydrates

Altered Sonic Hedgehog Signaling Is Associated with Morphological Abnormalities in the Penis of the BB/WOR Diabetic Rat1

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¹³C−¹H Spin-Coupling Constants in the β-d-Ribofuranosyl Ring: Effect of Ring Conformation on Coupling Magnitudes