Mizuki Kajimoto scite author profile

Purpose Erectile dysfunction (ED) is one of the increasing diseases with aging society. The basis of ED derived from local penile abnormality is poorly understood because of the complex three‐dimensional (3D) distribution of sinusoids in corpus cavernosum (CC). Understanding the 3D histological structure of penis is thus necessary. Analyses on the status of regulatory signals for such abnormality are also performed. Methods To analyze the 3D structure of sinusoid, 3D reconstruction from serial sections of murine CC were performed. Histological analyses between young (2 months old) and aged (14 months old) CC were performed. As for chondrogenic signaling status of aged CC, SOX9 and RBPJK staining was examined. Results Sinusoids prominently developed in the outer regions of CC adjacent to tunica albuginea. Aged CC samples contained ectopic chondrocytes in such regions. Associating with the appearance of chondrocytes, the expression of SOX9, chondrogenic regulator, was upregulated. The expression of RBPJK, one of the Notch signal regulators, was downregulated in the aged CC. Conclusions Prominent sinusoids distribute in the outer region of CC which may possess important roles for erection. A possibility of ectopic chondrogenesis induced by alteration of SOX9/Notch signaling with aging is indicated.

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Regulatory roles of epithelial-mesenchymal interaction (EMI) during early and androgen dependent external genitalia development

Hyuga

Suzuki

Acebedo

et al. 2019

Differentiation

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Androgen/Wnt/β‐catenin signal axis augments cell proliferation of the mouse erectile tissue, corpus cavernosum

Kajimoto

Suzuki

Ueda

et al. 2022

Congenital Anomalies

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The murine penile erectile tissues including corpus cavernosum (CC) are composed of blood vessels, smooth muscle, and connective tissue, showing marked sexual differences. It has been known that the androgens are required for sexually dimorphic organogenesis. It is however unknown about the features of androgen signaling during mouse CC development. It is also unclear how androgen-driven downstream factors are involved such processes. In the current study, we analyzed the onset of sexually dimorphic CC formation based on histological analyses, the dynamics of androgen receptor (AR) expression, and regulation of cell proliferation. Of note, we identified Dickkopf-related protein 2 (Dkk2), an inhibitor of β-catenin signaling, was predominantly expressed in female CC compared with male. Furthermore, administration of androgens resulted in activation of β-catenin signaling. We have found the Sox9 gene, one of the essential markers for chondrocyte, was specifically expressed in the developing CC. Hence, we utilized CC-specific, Sox9 CreERT2 , β-catenin conditional mutant mice. Such mutant mice showed defective cell proliferation. Furthermore, introduction of activated form of β-catenin mutation (gain of function mutation for Wnt/β-catenin signaling) in CC induced augmented cell proliferation. Altogether, we revealed androgen-Wnt/β-catenin signal dependent cell proliferation was essential for sexually dimorphic CC formation. These findings open new avenues for understanding developmental mechanisms of androgen-dependent cell proliferation during sexual differentiation.

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Possible testosterone redundancy for 5α-dihydrotestosterone in the masculinization of mouse external genitalia

et al. 2022

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The development of embryonic external genitalia (eExG) into characteristic male structures, such as urethra and penile erectile tissues, depends on 5α-dihydrotestosterone (DHT).Although the corpus cavernosum (CC) is well known as essential for erectile function in adults, its developmental process and its dependency on DHT have been unknown. To reveal the dimorphic formation of the murine CC from the embryonic stage, we first analyzed the production of the protein vascular endothelial growth factor receptor-2 (FLK1) via its expression (hereinafter referred as "expression of FLK1") and the expression of alphasmooth muscle actin (ACTA2) and collagen type 1 (COL1A1) in developing external genitalia. The 5-α reductase type 2 encoded by the SRD5A2 gene has been suggested to be a crucial enzyme for male sexual differentiation, as it converts testosterone (T) into DHT in the local urogenital organs. In fact, SRD5A2 mutation results in decreased synthesis of DHT, which leads to various degrees of masculinized human external genitalia (ExG). We further investigated the expression profile of SRD5A2 during the formation of the murine CC. We observed that SRD5A2 was expressed in smooth muscle of the CC. To determine the role of SRD5A2 in CC formation, we analyzed the formation of erectile tissue in the male Srd5a2 KO mice and measured the levels of androgens in the ExG by liquid chromatography-tandem mass spectrometry (LC-MS/MS). Intriguingly, there were no obvious defects in the CCs of male Srd5a2 KO mice, possibly due to increased T levels. The current study suggests possible redundant functions of androgens in CC development.

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Mizuki Kajimoto

3D reconstruction and histopathological analyses on murine corporal body

Regulatory roles of epithelial-mesenchymal interaction (EMI) during early and androgen dependent external genitalia development

Androgen/Wnt/β‐catenin signal axis augments cell proliferation of the mouse erectile tissue, corpus cavernosum

Possible testosterone redundancy for 5α-dihydrotestosterone in the masculinization of mouse external genitalia

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