Your search keyword '"Wolffian duct"' showing total 421 results

1. Biomechanical properties of the capsule and extracellular matrix play a major role during the Wolffian/epididymal duct development.

Author

Oliveira, Erika C. S., Hu, Ping, Shook, David R., Wallrabe, Horst, Townsend, Natalie N., Bingham, Grace C., Barker, Thomas H., and Hinton, Barry T.

Subjects

*EXTRACELLULAR matrix, *MALE infertility, *MESENCHYME, *MEMBRANE lipids, *ORGAN playing

Abstract

Background Objectives Materials and methods Results and discussion Conclusion The epididymis is important for sperm maturation and without its proper development, male infertility will result. Biomechanical properties of tissues/organs play key roles during their morphogenesis, including the Wolffian duct. It is hypothesized that structural/bulk stiffness of the capsule and mesenchyme/extracellular matrix that surround the duct is a major biomechanical property that regulates Wolffian duct morphogenesis. These data will provide key information as to the mechanisms that regulate the development of this important organ.To measure the structural/bulk stiffness in Pascals (force/area) of the capsule and the capsule and mesenchyme together that surrounds the Wolffian duct during the development. To examine the relative membrane tension of mesenchymal cells during the Wolffian duct development. Since Ptk7 was previously shown to regulate ECM integrity and Wolffian duct elongation and coiling, the hypothesis that Ptk7 regulates structural/bulk stiffness and mesenchymal cell membrane tension was tested.Atomic force microscopy and a microsquisher compression apparatus were used to measure the structural stiffness. Biomechanical properties within the membranes of cells within the capsule and mesenchyme were examined using a membrane‐tension fluorescent probe.The structural stiffness (Pascals) of the capsule and underlying mesenchyme was relatively constant during development, with a significant increase in the capsule at the later stages. However, this increase may reflect the ECM and associated mesenchyme being close to the capsule because the coiling of the duct pushed or compressed them into that space. Keeping the capsule and mesenchyme/ECM at constant stiffness would ensure that the duct will continue to coil under similar biomechanical forces throughout the development. Cells within the capsule and mesenchyme at different Wolffian duct regions during the development had varying degrees of membrane lipid tension. It is hypothesized that the dynamic changes ensure the duct is kept at a constant stiffness regardless of any external forces. Loss of Ptk7 resulted in an increase in stiffness at E18.5, which was presumable due to the loss of integrity of the ECM within the mesenchyme.Biomechanical properties of the capsule and the mesenchyme/extracellular matrix that surround the Wolffian duct play an important role toward Wolffian duct morphogenesis, thereby allowing for the proper development of the epididymis and subsequent male fertility. [ABSTRACT FROM AUTHOR]

Published

2024

2. Collective cell dynamics and luminal fluid flow in the epididymis: A mechanobiological perspective.

Author

Lee, Veronica, Hinton, Barry T., and Hirashima, Tsuyoshi

Subjects

*FLUID flow, *EPIDIDYMIS, *FLUID dynamics, *EXTRACELLULAR fluid, *EMBRYOLOGY

Abstract

Background: The mammalian epididymis is a specialized duct system that serves a critical role in sperm maturation and storage. Its distinctive, highly coiled tissue morphology provides a unique opportunity to investigate the link between form and function in reproductive biology. Although recent genetic studies have identified key genes and signaling pathways involved in the development and physiological functions of the epididymis, there has been limited discussion about the underlying dynamic and mechanical processes that govern these phenomena. Aims: In this review, we aim to address this gap by examining two key aspects of the epididymis across its developmental and physiological phases. Results and Discussion: First, we discuss how the complex morphology of the Wolffian/epididymal duct emerges through collective cell dynamics, including duct elongation, cell proliferation, and arrangement during embryonic development. Second, we highlight dynamic aspects of luminal fluid flow in the epididymis, essential for regulating the microenvironment for sperm maturation and motility, and discuss how this phenomenon emerges and interplays with epididymal epithelial cells. Conclusion: This review not only aims to summarize current knowledge but also to provide a starting point for further exploration of mechanobiological aspects related to the cellular and extracellular fluid dynamics in the epididymis. [ABSTRACT FROM AUTHOR]

Published

2024

3. A dominant negative mutation uncovers cooperative control of caudal Wolffian duct development by Sprouty genes

Author

Altés, Gisela, Vaquero, Marta, Cuesta, Sara, Anerillas, Carlos, Macià, Anna, Espinet, Carme, Ribera, Joan, Bellusci, Saverio, Klein, Ophir D, Yeramian, Andree, Dolcet, Xavi, Egea, Joaquim, and Encinas, Mario

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Genetics, Kidney Disease, Aetiology, 2.1 Biological and endogenous factors, Animals, Female, Male, Mammals, Mice, Mice, Knockout, Mutation, Organogenesis, Signal Transduction, Tyrosine, Wolffian Ducts, Wolffian duct, Dominant negative, Seminal vesicle, Gartner cyst, Genitourinary development, Physiology, Clinical Sciences, Biochemistry & Molecular Biology, Biochemistry and cell biology, Medical biochemistry and metabolomics, Oncology and carcinogenesis

Abstract

The Wolffian ducts (WD) are paired epithelial tubules central to the development of the mammalian genitourinary tract. Outgrowths from the WD known as the ureteric buds (UB) generate the collecting ducts of the kidney. Later during development, the caudal portion of the WD will form the vas deferens, epididymis and seminal vesicle in males, and will degenerate in females. While the genetic pathways controlling the development of the UB are firmly established, less is known about those governing development of WD portions caudal to the UB. Sprouty proteins are inhibitors of receptor tyrosine kinase (RTK) signaling in vivo. We have recently shown that homozygous mutation of a conserved tyrosine (Tyr53) of Spry1 results in UB defects indistinguishable from that of Spry1 null mice. Here, we show that heterozygosity for the Spry1 Y53A allele causes caudal WD developmental defects consisting of ectopically branched seminal vesicles in males and persistent WD in females, without affecting kidney development. Detailed analysis reveals that this phenotype also occurs in Spry1+/- mice but with a much lower penetrance, indicating that removal of tyrosine 53 generates a dominant negative mutation in vivo. Supporting this notion, concomitant deletion of one allele of Spry1 and Spry2 also recapitulates the genital phenotype of Spry1Y53A/+ mice with high penetrance. Mechanistically, we show that unlike the effects of Spry1 in kidney development, these caudal WD defects are independent of Ret signaling, but can be completely rescued by lowering the genetic dosage of Fgf10. In conclusion, mutation of tyrosine 53 of Spry1 generates a dominant negative allele that uncovers fine-tuning of caudal WD development by Sprouty genes.

Published

2022

4. SMAD2/3 signaling regulates initiation of mouse Wolffian ducts and proximal differentiation in Müllerian ducts

Author

Tadaaki Nakajima, Akihiro Imai, Chihiro Ishii, Kota Tsuruyama, Risa Yamanaka, Yasuhiro Tomooka, Shinta Saito, Noritaka Adachi, Satomi Kohno, and Tomomi Sato

Subjects

epithelialization, fate determination, Müllerian duct, TGFβ signaling, Wolffian duct, Biology (General), QH301-705.5

Abstract

Male and female reproductive tracts develop from anterior intermediate mesoderm with similar differentiation processes. The anterior intermediate mesoderm develops into the mesonephros, and the Wolffian duct initiates by epithelialization in the mesonephros. The Müllerian duct invaginates from the coelomic epithelium of the cranial mesonephros for ductal formation and is then regionalized into proximal to caudal female reproductive tracts. In this study, we focused on the epithelialization of the Wolffian duct, initiation of the Müllerian duct, and the regionalization step of the Müllerian ducts as a continuous process. By using intermediate mesodermal cells from mouse pluripotent stem cells, we identified that inhibition of SMAD2/3 signaling might be involved in the differentiation into mesenchymal cells, after which mesonephric cells might be then epithelialized during differentiation of the Wolffian duct. Aggregation of coelomic epithelial cells might be related to initiation of the Müllerian duct. Transcriptomic analysis predicted that consensus sequences of SMAD3/4 were enriched among highly expressed genes in the proximal Müllerian duct. SMAD2/3 signaling to regulate differentiation of the Wolffian duct was continuously activated in the proximal Müllerian duct and was involved in proximal and oviductal regionalization. Therefore, SMAD2/3 signaling may be finely tuned to regulate differentiation from initiation to regionalization steps.

Published

2024

5. Crucial Roles of the Mesenchymal Androgen Receptor in Wolffian Duct Development.

Author

Wilbourne, Jillian, Jia, Shuai, Fogarty, Allyssa, Takaku, Motoki, and Zhao, Fei

Subjects

MESENCHYMAL stem cells, WOLFFIAN body, RNA sequencing

Abstract

Wolffian duct (WD) maintenance and differentiation is predominantly driven by the androgen action, which is mediated by the androgen receptor (AR). It is well established that the mesenchyme indicates the fate and differentiation of epithelial cells. However, in vivo developmental requirement of mesenchymal AR in WD development is still undefined. By designing a mesenchyme-specific Ar knockout (ARcKO), we discovered that the loss of mesenchymal Ar led to the bilateral or unilateral degeneration of caudal WDs and cystic formation at the cranial WDs. Ex vivo culture of ARcKO WDs invariably resulted in bilateral defects, suggesting that some factor(s) originating from surrounding tissues in vivo might promote WD survival and growth even in the absence of mesenchymal Ar. Mechanistically, we found cell proliferation was significantly reduced in both epithelial and mesenchymal compartments; but cell apoptosis was not affected. Transcriptomic analysis by RNA sequencing of E14.5 mesonephroi revealed 131 differentially expressed genes. Multiple downregulated genes (Top2a , Wnt9b , Lama2 , and Lamc2) were associated with morphological and cellular changes in ARcKO male embryos (ie, reduced cell proliferation and decreased number of epithelial cells). Mesenchymal differentiation into smooth muscle cells that are critical for morphogenesis was also impaired in ARcKO male embryos. Taken together, our results demonstrate the crucial roles of the mesenchymal AR in WD maintenance and morphogenesis in mice. [ABSTRACT FROM AUTHOR]

Published

2024

6. Gamete-exporting organs of vertebrates: dazed and confused.

Author

Akira Kanamori and Yasuhisa Kobayashi

Subjects

MULLERIAN ducts, ACTINOPTERYGII, VERTEBRATES, CHONDRICHTHYES, MORPHOGENESIS

Abstract

Mature gametes are transported externally for fertilization. In vertebrates, the gonads are located within the coelom. Consequently, each species has specific organs for export, which often vary according to sex. In most vertebrates, sperm ducts and oviducts develop from the Wolffian and Müllerian ducts, respectively. However, exceptions exist. Both sexes of cyclostomes, as well as females of basal teleosts, lack genital ducts but possess genital pores. In teleosts of both sexes, genital ducts are formed through the posterior extensions of gonads. These structures appear to be independent of both Wolffian and Müllerian ducts. Furthermore, the development of Wolffian and Müllerian ducts differs significantly among various vertebrates. Are these gamete-exporting organs homologous or not? A question extensively debated around the turn of the 20th century but now largely overlooked. Recent research has revealed the indispensable role of Wnt4a in genital duct development in both sexes of teleosts: zebrafish and medaka. wnt4a is an ortholog of mammalian Wnt4, which has functions in Müllerian duct formation. These results suggest a potential homology between the mammalian Müllerian ducts and genital ducts in teleosts. To investigate the homology of gamete-exporting organs in vertebrates, more detailed descriptions of their development across vertebrates, using modern cellular and genetic tools, are needed. Therefore, this review summarizes existing knowledge and unresolved questions on the structure and development of gamete-exporting organs in diverse vertebrate groups. This also underscores the need for comprehensive studies, particularly on cyclostomes, cartilaginous fishes, basal ray-finned fishes, and teleosts. [ABSTRACT FROM AUTHOR]

Published

2024

7. SMAD2/3 signaling regulates initiation of mouse Wolffian ducts and proximal differentiation in Müllerian ducts.

Author

Nakajima, Tadaaki, Imai, Akihiro, Ishii, Chihiro, Tsuruyama, Kota, Yamanaka, Risa, Tomooka, Yasuhiro, Saito, Shinta, Adachi, Noritaka, Kohno, Satomi, and Sato, Tomomi

Subjects

MULLERIAN ducts, MALE reproductive organs, PLURIPOTENT stem cells, GENITALIA, CELL differentiation

Abstract

Male and female reproductive tracts develop from anterior intermediate mesoderm with similar differentiation processes. The anterior intermediate mesoderm develops into the mesonephros, and the Wolffian duct initiates by epithelialization in the mesonephros. The Müllerian duct invaginates from the coelomic epithelium of the cranial mesonephros for ductal formation and is then regionalized into proximal to caudal female reproductive tracts. In this study, we focused on the epithelialization of the Wolffian duct, initiation of the Müllerian duct, and the regionalization step of the Müllerian ducts as a continuous process. By using intermediate mesodermal cells from mouse pluripotent stem cells, we identified that inhibition of SMAD2/3 signaling might be involved in the differentiation into mesenchymal cells, after which mesonephric cells might be then epithelialized during differentiation of the Wolffian duct. Aggregation of coelomic epithelial cells might be related to initiation of the Müllerian duct. Transcriptomic analysis predicted that consensus sequences of SMAD3/4 were enriched among highly expressed genes in the proximal Müllerian duct. SMAD2/3 signaling to regulate differentiation of the Wolffian duct was continuously activated in the proximal Müllerian duct and was involved in proximal and oviductal regionalization. Therefore, SMAD2/3 signaling may be finely tuned to regulate differentiation from initiation to regionalization steps. [ABSTRACT FROM AUTHOR]

Published

2024

8. Successful Laparoscopic Management of Zinner Syndrome in a Pediatric Patient.

Author

Kulkarni, Kaushal, Dhua, Anjan Kumar, Goel, Prabudh, Jain, Vishesh, Yadav, Devendra Kumar, Agarwala, Sandeep, and Kandasamy, Devasenathipathy

Subjects

*MALE reproductive organ surgery, *VAS deferens surgery, *LAPAROSCOPIC surgery, *MINIMALLY invasive procedures, *MALE reproductive organ diseases, *PEDIATRICS, *CHILDREN

Abstract

Zinner syndrome, a rare congenital anomaly affecting males, is characterized by atresia of the ejaculatory duct, seminal vesicle cysts, and ipsilateral renal agenesis. This case report details a 2-year-old boy successfully treated with laparoscopic excision of a dilated vas deferens and seminal vesicle cyst. The rarity of Zinner syndrome in pediatric patients underscores the importance of understanding its diagnosis and minimally invasive surgical management. [ABSTRACT FROM AUTHOR]

Published

2024

9. Fetal and Prenatal Ureter

Author

Abdelhalim, Ahmed, Hafez, Ashraf T., Abdel-Gawad, Mahmoud, editor, Ali-El-Dein, Bedeir, editor, Barry, John, editor, and Stenzl, Arnulf, editor

Published

2023

10. Gamete-exporting organs of vertebrates: dazed and confused

Author

Akira Kanamori and Yasuhisa Kobayashi

Subjects

Müllerian duct, oviduct, Wolffian duct, sperm duct, wnt4, teleosts, Biology (General), QH301-705.5

Abstract

Mature gametes are transported externally for fertilization. In vertebrates, the gonads are located within the coelom. Consequently, each species has specific organs for export, which often vary according to sex. In most vertebrates, sperm ducts and oviducts develop from the Wolffian and Müllerian ducts, respectively. However, exceptions exist. Both sexes of cyclostomes, as well as females of basal teleosts, lack genital ducts but possess genital pores. In teleosts of both sexes, genital ducts are formed through the posterior extensions of gonads. These structures appear to be independent of both Wolffian and Müllerian ducts. Furthermore, the development of Wolffian and Müllerian ducts differs significantly among various vertebrates. Are these gamete-exporting organs homologous or not? A question extensively debated around the turn of the 20th century but now largely overlooked. Recent research has revealed the indispensable role of Wnt4a in genital duct development in both sexes of teleosts: zebrafish and medaka. wnt4a is an ortholog of mammalian Wnt4, which has functions in Müllerian duct formation. These results suggest a potential homology between the mammalian Müllerian ducts and genital ducts in teleosts. To investigate the homology of gamete-exporting organs in vertebrates, more detailed descriptions of their development across vertebrates, using modern cellular and genetic tools, are needed. Therefore, this review summarizes existing knowledge and unresolved questions on the structure and development of gamete-exporting organs in diverse vertebrate groups. This also underscores the need for comprehensive studies, particularly on cyclostomes, cartilaginous fishes, basal ray-finned fishes, and teleosts.

Published

2023

11. Epithelial and mesenchymal fate decisions in Wolffian duct development.

Author

Crossen, McKenna J., Wilbourne, Jillian, Fogarty, Allyssa, and Zhao, Fei

Subjects

*SEX differentiation (Embryology), *MALE reproductive organs, *CELL differentiation, *EPITHELIAL cells, *MESENCHYME

Abstract

The formation of Wolffian ducts (WDs) includes three highly coordinated developmental stages, specification, elongation, and maintenance, prior to sexual differentiation. After their initial formation in both sexes, the WD epithelium and mesenchyme have sexually dimorphic fates depending on the presence of androgen action and local genetic programs. Postnatal differentiation of the epithelial lineage into principal, basal, and clear cells is controlled by androgens, lumicrine, and local factors. A lineage progression for epithelial cells is established. Aberrant cell differentiation is one underlying cause of WD abnormalities and associated pathologies in both men and women. Wolffian ducts (WDs) are the paired embryonic structures that give rise to internal male reproductive tract organs. WDs are initially formed in both sexes but have sex-specific fates during sexual differentiation. Understanding WD differentiation requires insights into the process of fate decisions of epithelial and mesenchymal cells, which are tightly coordinated by endocrine, paracrine, and autocrine signals. In this review, we discuss current advances in understanding the fate-decision process of WD epithelial and mesenchymal lineages from their initial formation at the embryonic stage to postnatal differentiation. Finally, we discuss aberrant cell differentiation in WD abnormalities and pathologies and identify opportunities for future investigations. [ABSTRACT FROM AUTHOR]

Published

2023

12. A rare case of right renal ectopia with ureteral triplication in a 37-year-old male: a case report.

Author

Joshi, Sejal Sanjeev, Dhok, Avinash Parashuram, Mitra, Kajal Ramendranath, and Onkar, Prashant Madhukar

Subjects

*COMPUTED tomography, *URINARY organs, *HUMAN abnormalities, *PATIENTS' rights, *MALES

Abstract

Ureteral triplication is one of the least encountered congenital malformations of the upper urinary tract. We report a case of a 37-year-old male patient with right renal ectopia with triplication of the ureter which was diagnosed via computed tomography (CT) urography. This is an intriguing example because, as we discovered after reviewing the literature, the presentation is distinctive. [ABSTRACT FROM AUTHOR]

Published

2023

13. Persistent Mullerian duct syndrome in a male child: A rare case report on the intersection of surgical importance and economic barriers in Syria.

Author

Alshwayyat, Sakhr, Hanifa, Hamdah, M. Amro, Alhareth, Shlool, Nour, Alfaqeh, Qutaiba, and Alloush, Aisha

Abstract

During embryology, the Mullerian duct develops later into the female reproductive tract, and it is usually obliterates in males by anti-Mullerian hormone. Mutations in the gene for anti-Mullerian hormone or anti-Mullerian hormone receptor will cause persistent Mullerian duct syndrome. To the best of our knowledge, this is the first case of this syndrome documented in the medical literature from Syria. Herein, we report a case of a 3-year-old male with external male genitalia, who presented complaining mainly of urinary tract infection symptoms. The ultrasound showed the presence of both Mullerian and Wolffian duct derivatives. In fact, and unfortunately, the main obstacles to complete further investigations in this case were a lack of cooperation from parents and the costs of these investigations. We hope that this case report will make interesting additions to the medical literature. PMDS syndrome is a rare condition characterized by male pseudohermaphroditism, where individuals have male external features but also possess female reproductive organs. Diagnosis often involves imaging techniques like ultrasound and MRI to visualize Mullerian structures. Laboratory tests, including hormone level assessments, are crucial for confirming the diagnosis. Surgical intervention is the primary treatment approach to prevent complications. The most common presentations for PMDS include inguinal hernia, testicular tumors, cryptorchidism, and abdominal tumors. So, when treating an inguinal hernia, especially if there is cryptorchidism, the possibility of PMDD should be considered. Early diagnosis and investigations play a major role in effective management and prevention the complications of this syndrome. • This is the first reported case of Persistent Mullerian Duct Syndrome (PMDS) diagnosed in Syria. • Early signs of PMDS, such as ambiguous genitals and nonpalpable testicles, were present at birth in the patient, emphasizing the importance of timely diagnosis. • Imaging investigations are crucial in confirming the diagnosis of PMDS, with surgery being the definitive treatment to address the presence of female reproductive organs in a phenotypically male patient. [ABSTRACT FROM AUTHOR]

Published

2024

14. Development of the human female reproductive tract.

Author

Cunha, Gerald R, Robboy, Stanley J, Kurita, Takeshi, Isaacson, Dylan, Shen, Joel, Cao, Mei, and Baskin, Laurence S

Subjects

Genitalia, Female, Uterus, Vagina, Mullerian Ducts, Humans, Homeodomain Proteins, Tumor Suppressor Proteins, Receptors, Progesterone, Transcription Factors, Female, LIM-Homeodomain Proteins, Cervix, Human Müllerian duct, Urogenital sinus, Uterovaginal canal, Wolffian duct, Human Mullerian duct, Developmental Biology, Biochemistry and Cell Biology, Paediatrics and Reproductive Medicine

Abstract

Development of the human female reproductive tract is reviewed from the ambisexual stage to advanced development of the uterine tube, uterine corpus, uterine cervix and vagina at 22 weeks. Historically this topic has been under-represented in the literature, and for the most part is based upon hematoxylin and eosin stained sections. Recent immunohistochemical studies for PAX2 (reactive with Müllerian epithelium) and FOXA1 (reactive with urogenital sinus epithelium and its known pelvic derivatives) shed light on an age-old debate on the derivation of vaginal epithelium supporting the idea that human vaginal epithelium derives solely from urogenital sinus epithelium. Aside for the vagina, most of the female reproductive tract is derived from the Müllerian ducts, which fuse in the midline to form the uterovaginal canal, the precursor of uterine corpus and uterine cervix an important player in vaginal development as well. Epithelial and mesenchymal differentiation markers are described during human female reproductive tract development (keratins, homeobox proteins (HOXA11 and ISL1), steroid receptors (estrogen receptor alpha and progesterone receptor), transcription factors and signaling molecules (TP63 and RUNX1), which are expressed in a temporally and spatially dynamic fashion. The utility of xenografts and epithelial-mesenchymal tissue recombination studies are reviewed.

Published

2018

15. The Mesenchymal Androgen Receptor and Wolffian Duct Development.

Author

Cyr, Daniel G

Subjects

ANDROGEN receptors, EPIDIDYMIS, WOLFFIAN body

Published

2024

16. One Tool for Many Jobs: Divergent and Conserved Actions of Androgen Signaling in Male Internal Reproductive Tract and External Genitalia.

Author

Amato, Ciro M., Yao, Humphrey H-C., and Zhao, Fei

Subjects

MALE reproductive organs, GENITALIA, ANDROGENS

Abstract

In the 1940s, Alfred Jost demonstrated the necessity of testicular secretions, particularly androgens, for male internal and external genitalia differentiation. Since then, our knowledge of androgen impacts on differentiation of the male internal (Wolffian duct) and external genitalia (penis) has been drastically expanded upon. Between these two morphologically and functionally distinct organs, divergent signals facilitate the establishment of tissue-specific identities. Conversely, conserved actions of androgen signaling are present in both tissues and are largely responsible for the growth and expansion of the organs. In this review we synthesize the existing knowledge of the cell type-specific, organ specific, and conserved signaling mechanisms of androgens. Mechanistic studies on androgen signaling in the Wolffian duct and male external genitalia have largely been conducted in mouse model organisms. Therefore, the majority of the review is focused on mouse model studies. [ABSTRACT FROM AUTHOR]

Published

2022

17. Crucial Convolution: Genetic and Molecular Mechanisms of Coiling during Epididymis Formation and Development in Embryogenesis.

Author

Wong, Joanne, Gasperoni, Jemma, Fuller, Jarrad, Grommen, Sylvia V. H., De Groef, Bert, Hogarth, Cathryn, and Dworkin, Sebastian

Subjects

EPIDIDYMIS, SEMINIFEROUS tubules, EMBRYOLOGY, LARGE intestine

Abstract

As embryonic development proceeds, numerous organs need to coil, bend or fold in order to establish their final shape. Generally, this occurs so as to maximise the surface area for absorption or secretory functions (e.g., in the small and large intestines, kidney or epididymis); however, mechanisms of bending and shaping also occur in other structures, notably the midbrain–hindbrain boundary in some teleost fish models such as zebrafish. In this review, we will examine known genetic and molecular factors that operate to pattern complex, coiled structures, with a primary focus on the epididymis as an excellent model organ to examine coiling. We will also discuss genetic mechanisms involving coiling in the seminiferous tubules and intestine to establish the final form and function of these coiled structures in the mature organism. [ABSTRACT FROM AUTHOR]

Published

2022

18. One Tool for Many Jobs: Divergent and Conserved Actions of Androgen Signaling in Male Internal Reproductive Tract and External Genitalia

Author

Ciro M. Amato, Humphrey H-C. Yao, and Fei Zhao

Subjects

androgen, androgen receptor (AR), external genitalia (ExG), wolffian duct, penis, masculinization, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

In the 1940s, Alfred Jost demonstrated the necessity of testicular secretions, particularly androgens, for male internal and external genitalia differentiation. Since then, our knowledge of androgen impacts on differentiation of the male internal (Wolffian duct) and external genitalia (penis) has been drastically expanded upon. Between these two morphologically and functionally distinct organs, divergent signals facilitate the establishment of tissue-specific identities. Conversely, conserved actions of androgen signaling are present in both tissues and are largely responsible for the growth and expansion of the organs. In this review we synthesize the existing knowledge of the cell type-specific, organ specific, and conserved signaling mechanisms of androgens. Mechanistic studies on androgen signaling in the Wolffian duct and male external genitalia have largely been conducted in mouse model organisms. Therefore, the majority of the review is focused on mouse model studies.

Published

2022

19. A rare case of Zinner syndrome: Triad of unilateral renal agenesis, ipsilateral seminal vesicle cyst and ejaculatory duct obstruction

Author

Prabhat Karki, MD, Sagun Manandhar, MD, and Amrit Kharel, MD

Subjects

MRI, Renal agenesis, Seminal vesicle cyst, Wolffian duct, Zinner, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

A rare triad of Wolffian duct anomaly known as Zinner syndrome includes unilateral renal agenesis with ipsilateral seminal vesicle cyst and ejaculatory duct obstruction. It is often diagnosed in third and fourth decades of life. Patient presents with dysuria, perineal pain, infertility and painful ejaculation. The aim of this case report is to show the importance of the radiological imaging on diagnosis of Zinner syndrome. MRI being the modality of the choice for the confirmation of the diagnosis is vital in further management of the syndrome.

Published

2021

20. Congenital uterovaginal abnormalities, it’s embryogenesis, surgical management and clinical implications

Author

Krishna Gopal Paul, Kalyan Chakravarthi Kosuri, and Hasam Bayad

Subjects

androgen insensitivity syndrome, infertility, vaginal agenesis, wolffian duct, Gynecology and obstetrics, RG1-991

Abstract

Objective Congenital Mullerian duct malformations are a challenging group of conditions for surgeons and need surgical experience and skill. Accordingly, the aim of this study is to present the diagnosis, surgical management, and clinical implications of congenital uterovaginal abnormalities. Methods Between 1980 and 2015, 8 patients with congenital uterovaginal abnormalities were diagnosed. In one patient a unique case of an unusual horseshoe shaped double uterus communicating via a transverse canal along with agenesis of the cervix and vagina was noted, and utero-vaginal agenesis was diagnosed in 6 patients. Complete androgen insensitivity syndrome with its female phenotype associated with bilateral testicular tissue in the inguinal canal with an accompanying absence of the ovaries, uterus, uterine tubes, vagina, and an imperforate hymen, was diagnosed in one patient. Clinical examination of all the patients revealed well-developed secondary sexual characteristics. A modified McIndoe vaginoplasty procedure was the surgical treatment common to all patients to treat vaginal agenesis. The surgery was performed by a consultant (Dr. K.G. Paul) using the standardized surgical technique. Results An unusual Mullerian duct anomaly, uterus bicornisacollis, was successfully corrected by uteroplasty and a new cervix was constructed. Complete vaginal agenesis was corrected by a modified McIndoe vaginoplasty technique. None of the patients had any significant post-operative complications. Conclusion Knowledge of congenital uterovaginal abnormalities diagnosed in this study is essential for surgeons, clinical anatomists, radiologists, and morphologists who may increase the success of their diagnostic evaluations and surgical approaches to the region.

Published

2020

21. Deficiency of the transcription factor PLAG1 results in aberrant coiling and morphology of the epididymis

Author

Joanne Wong, Almas R Juma, Stephanie C Tran, Jemma G Gasperoni, Sylvia V H Grommen, and Bert De Groef

Subjects

development, epididymis, pleomorphic adenoma gene 1, tubule coiling, wolffian duct, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Mice deficient in the transcription factor pleomorphic adenoma gene 1 (PLAG1) exhibit reproductive issues that are characterized, in part, by decreased progressive sperm motility in the male. However, the underlying cause of this impairment is unknown. As epididymal transit is critical for sperm maturation and motility, the morphology of the epididymis of Plag1-deficient mice was investigated and the spatial expression patterns of PLAG1 protein and mRNA were identified. Using X-gal staining and in situ hybridization, PLAG1 was shown to be widely expressed in both the epithelium and stroma in all regions of the mouse epididymis. Interestingly, the X-gal staining pattern was markedly different in the cauda, where it could be suggestive of PLAG1 secretion into the epididymal lumen. At all ages investigated, the morphology of epididymides from Plag1 knockout (KO) mice was aberrant; the tubule failed to elongate and coil, particularly in the corpus and cauda, and the cauda was malformed, lacking its usual bulbous shape. Moreover, the epididymides from Plag1 KO mice were significantly reduced in size relative to body weight. In 20% of Plag1-deficient mice, the left testicle and epididymis were lacking. The impaired morphogenesis of the epididymal tubule is likely to be a major contributing factor to the fertility problems observed in male Plag1-deficient mice. These results also establish PLAG1 as an important regulator of male reproduction, not only through its involvement in testicular sperm production, but also via its role in the development and function of the epididymis.

Published

2020

22. Novel domains of expression for orphan receptor tyrosine kinase Ror2 in the human and mouse reproductive system

Author

Arora, Ripla, Altman, Eran, Tran, Nam D, and Laird, Diana J

Subjects

Biochemistry and Cell Biology, Bioinformatics and Computational Biology, Evolutionary Biology, Biological Sciences, Urologic Diseases, Genetics, Pediatric, Contraception/Reproduction, 2.1 Biological and endogenous factors, Aetiology, Reproductive health and childbirth, Animals, Female, Germ Cells, Granulosa Cells, Humans, Male, Mice, Mullerian Ducts, Ovary, Proto-Oncogene Proteins, Receptor Tyrosine Kinase-like Orphan Receptors, Sertoli Cells, Testis, Wnt Proteins, Wnt-5a Protein, Wolffian Ducts, Ror2, ovary, testis, germ cell, granulosa cell, Sertoli cell, Wolffian duct, Mullerian duct, Wnt5a, Müllerian duct, Medical and Health Sciences, Developmental Biology, Biochemistry and cell biology, Bioinformatics and computational biology, Evolutionary biology

Abstract

BackgroundThe noncanonical Wnt receptor and tyrosine kinase Ror2 has been associated with recessive Robinow syndrome (RRS) and dominant brachydactyly type B1. The phenotypes of mouse mutants implicate Ror2 in the development of the heart, lungs, bone, and craniofacial structures, which are affected in RRS. Following a recently identified role of Ror2 in the migration of mouse primordial germ cells, we extensively characterized its expression throughout the fetal internal reproductive system and the postnatal ductal system.ResultsWe show that Ror2 gene products are present in the germ cells and somatic cells of the testis and the ovary of both the mouse and human fetus. In reproductive tract structures, we find that Ror2 is expressed in the mesonephros, developing Wolffian and Müllerian ducts, and later in their derivatives, the epididymal epithelium and uterine epithelium.ConclusionsThis study sets the stage to explore function for this tyrosine kinase receptor in novel regions of expression in the developing reproductive system in both mouse and human.

Published

2014

23. Early Kidney Specification and Its Recapitulation by Pluripotent Stem Cells

Author

Taguchi, Atsuhiro, Nishinakamura, Ryuichi, and Tsuji, Takashi, editor

Published

2017

24. Müllerian Duct Anomalies

Author

Torres, Lucas Rios, Bretas, Elisa Almeida Sathler, Salvatori, Priscila Silveira, Chehin, Renata, D’Ippolito, Giuseppe, de Souza, Luis Ronan Marquez Ferreira, editor, De Nicola, Ana Luisa Alencar, editor, and De Nicola, Harley, editor

Published

2017

25. Disorders of Sexual Development

Author

Al-Salem, Ahmed H. and Al-Salem, Ahmed H.

Published

2017

26. Perturbations of genes essential for Müllerian duct and Wölffian duct development in Mayer-Rokitansky-Küster-Hauser syndrome.

Author

Chen, Na, Zhao, Sen, Jolly, Angad, Wang, Lianlei, Pan, Hongxin, Yuan, Jian, Chen, Shaoke, Koch, André, Ma, Congcong, Tian, Weijie, Jia, Ziqi, Kang, Jia, Zhao, Lina, Qin, Chenglu, Fan, Xin, Rall, Katharina, Coban-Akdemir, Zeynep, Chen, Zefu, Jhangiani, Shalini, and Liang, Ze

Subjects

*GENES, *MULLERIAN ducts, *DEVELOPMENTAL biology, *GENITALIA, *CHILDBIRTH, *CONGENITAL hypothyroidism

Abstract

Mayer-Rokitansky-Küster-Hauser syndrome (MRKHS) is associated with congenital absence of the uterus, cervix, and the upper part of the vagina; it is a sex-limited trait. Disrupted development of the Müllerian ducts (MD)/Wölffian ducts (WD) through multifactorial mechanisms has been proposed to underlie MRKHS. In this study, exome sequencing (ES) was performed on a Chinese discovery cohort (442 affected subjects and 941 female control subjects) and a replication MRKHS cohort (150 affected subjects of mixed ethnicity from North America, South America, and Europe). Phenotypic follow-up of the female reproductive system was performed on an additional cohort of PAX8 -associated congenital hypothyroidism (CH) (n = 5, Chinese). By analyzing 19 candidate genes essential for MD/WD development, we identified 12 likely gene-disrupting (LGD) variants in 7 genes: PAX8 (n = 4), BMP4 (n = 2), BMP7 (n = 2), TBX6 (n = 1), HOXA10 (n = 1), EMX2 (n = 1), and WNT9B (n = 1), while LGD variants in these genes were not detected in control samples (p = 1.27E−06). Interestingly, a sex-limited penetrance with paternal inheritance was observed in multiple families. One additional PAX8 LGD variant from the replication cohort and two missense variants from both cohorts were revealed to cause loss-of-function of the protein. From the PAX8 -associated CH cohort, we identified one individual presenting a syndromic condition characterized by CH and MRKHS (CH-MRKHS). Our study demonstrates the comprehensive utilization of knowledge from developmental biology toward elucidating genetic perturbations, i.e., rare pathogenic alleles involving the same loci, contributing to human birth defects. [ABSTRACT FROM AUTHOR]

Published

2021

27. Female adnexal tumor of probable Wolffian Origin – A report of two cases at one institution

Author

Megan E. Bunnell, Bridget M. Donovan, Paige H. Parrack, Michael G. Muto, Neil S. Horowitz, and Shuk On Annie Leung

Subjects

FATWO, Adnexal mass, Wolffian duct, Benign, Gynecology and obstetrics, RG1-991, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2020

28. Gartner's Duct Cyst (Mesonephric Cyst) in Posterior Vaginal Wall.

Author

Khetarpal, Smita and Khetarpal, Anil

Subjects

*VAGINAL diseases, *ULTRASONIC imaging, *CYSTS (Pathology), *GYNECOLOGIC examination, *PAP test, *VAGINITIS

Abstract

In fetus, the reproductive tract consists of two parts, one male (Wolffian duct) and one female (Mullerian duct), and during embryogenesis, because of hormonal influence, the Mullerian duct system develops to form female genital tract, while the Wolffian duct system regresses and may eventually disappear. Gartner's cysts arise from the remnant of mesonephric duct (Wolffian duct) and appear only in approximately 1–2% of the population. They are mostly asymptomatic and small but sometimes can be bigger. Here we report a unique case of a large Gartner's cyst in the posterior vaginal wall with symptoms of dyspareunia and voiding disturbances. After examination, she was diagnosed with vaginal cyst and complete excision was done and confirmed as a mesonephric benign cyst (Gartner's cyst). [ABSTRACT FROM AUTHOR]

Published

2022

29. Pkd1-targeted mutation reveals a role for the Wolffian duct in autosomal dominant polycystic kidney disease.

Author

Tee, J. B., Dnyanmote, A. V., Lorenzo, M. K., Lee, O. R., Grisaru, S., Suk, M., and Acott, P. D.

Abstract

Several life-threatening diseases of the kidney have their origins in mutational events that occur during embryonic development. In this study, we investigate the role of the Wolffian duct (WD), the earliest embryonic epithelial progenitor of renal tubules, in the etiology of autosomal dominant polycystic kidney disease (ADPKD). ADPKD is associated with a germline mutation of one of the two Pkd1 alleles. For the disease to occur, a second event that disrupts the expression of the other inherited Pkd1 allele must occur. We postulated that this secondary event can occur in the pronephric WD. Using Cre-Lox recombination, mice with WD-specific deletion of one or both Pkd1 alleles were generated. Homozygous Pkd1-targeted deletion in WD-derived tissues resulted in mice with large cystic kidneys and serologic evidence of renal failure. In contrast, heterozygous deletion of Pkd1 in the WD led to kidneys that were phenotypically indistinguishable from control in the early postnatal period. High-throughput sequencing, however, revealed underlying gene and microRNA (miRNA) changes in these heterozygous mutant kidneys that suggest a strong predisposition toward developing ADPKD. Bioinformatic analysis of this data demonstrated an upregulation of several miRNAs that have been previously associated with PKD; pathway analysis further demonstrated that the differentially expressed genes in the heterozygous mutant kidneys were overrepresented in signaling pathways associated with maintenance and function of the renal tubular epithelium. These results suggest that the WD may be an early epithelial target for the genetic or molecular signals that can lead to cyst formation in ADPKD. [ABSTRACT FROM AUTHOR]

Published

2020

30. Molecular Actions Underlying Wolffian Duct Regression in Sexual Differentiation of Murine Reproductive Tracts.

Author

Zhao, Fei, Grimm, Sara A., and Yao, Humphrey H.-C.

Subjects

*SEX differentiation (Embryology), *GENITALIA, *MESENCHYME, *TRANSCRIPTION factors, *EXTRACELLULAR matrix

Abstract

Sexually dimorphic establishment of the reproductive tract system requires sex-specific regression of the Wolffian duct and Müllerian duct in the mesonephros. In an XX embryo, the Wolffian duct regresses under the control of the mesenchymal transcription factor COUP-TFII. To understand cellular and molecular actions underlying Wolffian duct regression, we performed transcriptomic analyses of XX mesonephroi with or without Coup-tfII and genome-wide analysis of COUP-TFII chromatin occupancy in XX mesonephroi. The integrative analysis of COUP-TFII genome-wide binding and transcriptomic analysis revealed the suppression of muscle differentiation and extracellular matrix genes by COUP-TFII and identified a group of potential transcriptional partners of COUP-TFII in the mesenchyme that potentially facilitate Wolffian duct regression. These findings provide insights into the molecular action of COUP-TFII in the Wolffian duct mesenchyme and identify a list of biologically relevant candidate genes and pathways for future functional analyses in sexual differentiation of reproductive tracts. [ABSTRACT FROM AUTHOR]

Published

2020

31. The Pathophysiology of Adenomyosis

Author

Habiba, Marwan, Benagiano, Giuseppe, Brosens, Ivo, Habiba, Marwan, editor, and Benagiano, Giuseppe, editor

Published

2016

32. Determining Sex: Chemicals and Reproduction

Author

Kolok, Alan S. and Kolok, Alan S.

Published

2016

33. Ectopic Vas Deferens Causing Recurrent Epididymo-Orchitis.

Author

Bates, Jenna N, Kim, Soo Jeong, Bhatia, Vinaya, and Austin, Paul F

Subjects

*VAS deferens, *TEENAGE boys, *HUMAN abnormalities, *EPIDIDYMITIS, *ABSCESSES, *ORCHITIS

Abstract

Vasal ectopia is a rare congenital anomaly arising from the close embryonic relationship between the proximal vas precursor and the common mesonephric duct. We present a case of an adolescent male with recurrent epididymitis with scrotal and inguinal abscesses found to have right ectopic vas draining into the bladder. [ABSTRACT FROM AUTHOR]

Published

2021

34. In Preparation for New Life I: Sex Determination and Sexual Development

Author

Mueller, Werner A., Hassel, Monika, Grealy, Maura, Mueller, Werner A., Hassel, Monika, and Grealy, Maura

Published

2015

35. Essentials of the Human Prostate

Author

Dorsett, Forrestall O., Jr., Khanna, Rakesh V., editor, Bratslavsky, Gennady, editor, and Stein, Robert J., editor

Published

2015

36. Crucial Roles of the Mesenchymal Androgen Receptor in Wolffian Duct Development.

Author

Wilbourne J, Jia S, Fogarty A, Takaku M, and Zhao F

Subjects

Animals, Mice, Morphogenesis, Male, Female, Culture Techniques, Receptors, Androgen metabolism, Mesoderm metabolism, Wolffian Ducts growth & development, Wolffian Ducts metabolism

Abstract

Wolffian duct (WD) maintenance and differentiation is predominantly driven by the androgen action, which is mediated by the androgen receptor (AR). It is well established that the mesenchyme indicates the fate and differentiation of epithelial cells. However, in vivo developmental requirement of mesenchymal AR in WD development is still undefined. By designing a mesenchyme-specific Ar knockout (ARcKO), we discovered that the loss of mesenchymal Ar led to the bilateral or unilateral degeneration of caudal WDs and cystic formation at the cranial WDs. Ex vivo culture of ARcKO WDs invariably resulted in bilateral defects, suggesting that some factor(s) originating from surrounding tissues in vivo might promote WD survival and growth even in the absence of mesenchymal Ar. Mechanistically, we found cell proliferation was significantly reduced in both epithelial and mesenchymal compartments; but cell apoptosis was not affected. Transcriptomic analysis by RNA sequencing of E14.5 mesonephroi revealed 131 differentially expressed genes. Multiple downregulated genes (Top2a, Wnt9b, Lama2, and Lamc2) were associated with morphological and cellular changes in ARcKO male embryos (ie, reduced cell proliferation and decreased number of epithelial cells). Mesenchymal differentiation into smooth muscle cells that are critical for morphogenesis was also impaired in ARcKO male embryos. Taken together, our results demonstrate the crucial roles of the mesenchymal AR in WD maintenance and morphogenesis in mice., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Endocrine Society. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

37. Gamete-exporting organs of vertebrates: dazed and confused.

Author

Kanamori A and Kobayashi Y

Abstract

Mature gametes are transported externally for fertilization. In vertebrates, the gonads are located within the coelom. Consequently, each species has specific organs for export, which often vary according to sex. In most vertebrates, sperm ducts and oviducts develop from the Wolffian and Müllerian ducts, respectively. However, exceptions exist. Both sexes of cyclostomes, as well as females of basal teleosts, lack genital ducts but possess genital pores. In teleosts of both sexes, genital ducts are formed through the posterior extensions of gonads. These structures appear to be independent of both Wolffian and Müllerian ducts. Furthermore, the development of Wolffian and Müllerian ducts differs significantly among various vertebrates. Are these gamete-exporting organs homologous or not? A question extensively debated around the turn of the 20th century but now largely overlooked. Recent research has revealed the indispensable role of Wnt4a in genital duct development in both sexes of teleosts: zebrafish and medaka. wnt4a is an ortholog of mammalian Wnt4 , which has functions in Müllerian duct formation. These results suggest a potential homology between the mammalian Müllerian ducts and genital ducts in teleosts. To investigate the homology of gamete-exporting organs in vertebrates, more detailed descriptions of their development across vertebrates, using modern cellular and genetic tools, are needed. Therefore, this review summarizes existing knowledge and unresolved questions on the structure and development of gamete-exporting organs in diverse vertebrate groups. This also underscores the need for comprehensive studies, particularly on cyclostomes, cartilaginous fishes, basal ray-finned fishes, and teleosts., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Kanamori and Kobayashi.)

Published

2023

38. Influence of Environmental Temperature and Hormonal Stimulation on the In Vitro Sperm Maturation in Sterlet Acipenser ruthenus in Advance of the Spawning Season

Author

Viktoriya Dzyuba, Jacky Cosson, Maria Papadaki, Constantinos C. Mylonas, Christoph Steinbach, Marek Rodina, Vladimira Tučkova, Otomar Linhart, William L. Shelton, David Gela, Sergii Boryshpolets, and Borys Dzyuba

Subjects

sturgeon, kidney, Wolffian duct, seminal fluid, sperm maturation, spermatozoan motility, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Sturgeon sperm maturation occurs outside the testes during the transit of testicular spermatozoa (TS) through the kidneys and the Wolffian ducts. A method of in vitro TS maturation in sterlet Acipenser ruthenus was used to investigate the effects of temperature and hormonal stimulation of spermiation on the ability of TS to complete this process. Spermatozoa motility parameters after in vitro maturation of testicular sperm, concentrations of sex steroid hormones and testis morphology were studied in three groups of sterlet: (1) after overwintering in ponds (OW), (2) adapted to spawning temperature (ST), and (3) adapted to spawning temperature with hormonal induction of spermiation (ST-HI). Blood plasma concentrations of testosterone, 11-ketotestosterone and 17,20β-dihydroxy-pregnenolone increased significantly after hormonal induction of spermiation (group ST-HI). In all groups, TS were not motile. After in vitro sperm maturation, motility was up to 60% only in group ST-HI. The data suggest that the ability of TS to be matured in vitro was not related to the environmental temperature, while hormonal stimulation of spermiation during the spawning season was an absolute requirement for optimal in vitro maturation.

Published

2021

39. Lessons on Kidney Development from Experimental Studies

Author

Chalkias, Athanasios, Syggelou, Angeliki, Fanos, Vassilios, Xanthos, Theodoros, Iacovidou, Nicoletta, Giordano, Antonio, Series editor, Faa, Gavino, editor, and Fanos, Vassilios, editor

Published

2014

40. Molecular Regulation of Kidney Development

Author

Gerosa, Clara, Fanni, Daniela, Nemolato, Sonia, Faa, Gavino, Giordano, Antonio, Series editor, Faa, Gavino, editor, and Fanos, Vassilios, editor

Published

2014

41. Development of the Human Kidney: Morphological Events

Author

Faa, Gavino, Fanos, Vassilios, Floris, Giuseppe, Ambu, Rossano, Monga, Guido, Giordano, Antonio, Series editor, Faa, Gavino, editor, and Fanos, Vassilios, editor

Published

2014

42. Volume and Clearance: Kidneys and Excretory Systems

Author

Jensen-Jarolim, Erika, Schöpper, Hanna, Gabner, Simone, and Jensen-Jarolim, Erika, editor

Published

2014

43. Congenital Uterine Anomalies

Author

Rackow, Beth W., Stadtmauer, Laurel, editor, and Tur-Kaspa, Ilan, editor

Published

2014

44. Male Hypogonadism and Cryptorchidism

Author

Pisani, Michela, Ralph, David J., Garaffa, Giulio, Challacombe, Ben, editor, and Bott, Simon, editor

Published

2014

45. Wolffian system agenesis with contralateral ejaculatory duct stenosis: First case in the literature.

Author

Agarwal, Arjit, Pushkarna, Arawat, Sharma, Shourya, and Rastogi, Rajul

Subjects

*MALE reproductive organs, *INFERTILITY, *MAGNETIC resonance imaging, *ULTRASONIC imaging, *VAS deferens, *STENOSIS

Abstract

Congenital agenesis of seminal vesicles and vas deferens is rare and its co-existence with structural abnormality on the contralateral side is even rarer. We report a case of an adult male presenting with infertility due to obstructive azoospermia, in which transrectal ultrasonography (TRUS) and magnetic resonance imaging (MRI) revealed the agenesis of Wolffian derivatives on the left side with stenosis of the ejaculatory duct on the contralateral side. This dual combination of uncommon anomalies is the rarest phenomenon and poses as a diagnostic dilemma for the radiologist. Emphasis is given to MRI as a one-stop shop modality in the evaluation of complete genitourinary system; as well as on the importance of TRUS as a screening tool in patients with infertility due to obstructive azoospermia. [ABSTRACT FROM AUTHOR]

Published

2019

46. We, the developing rete testis, efferent ducts, and Wolffian duct, all hereby agree that we need to connect.

Author

Mello Santos, T. and Hinton, B. T.

Subjects

*MALE reproductive organs, *TESTIS, *SPERMATOZOA, *MORPHOGENESIS, *KIDNEY development

Abstract

Background: The mechanisms by which the rete testis joins the efferent ducts, which joins the Wolffian duct during development, are not known. Mouse and chick models have been helpful in identifying genes that are important for the development of each part, but genes have not been identified as to those that play a role in the joining of each part. Clinical implications of the failure of the male reproductive tract to form a fully functional conduit for spermatozoa are not trivial. Epididymal disjunction, the failure of the efferent ducts to join the testis, is one of several epididymal anomalies that have been observed in some boys who were cryptorchid at birth. Objective: A systematic review of studies focusing on the morphogenesis of the mesonephric duct and mesonephric tubules in different species, and identification of clinical issues should there be failure of these tissues to develop. Design: PubMed and GUDMAP databases, and review of books on kidney development were searched for studies reporting on the mechanisms of morphogenesis of the kidney and epididymis. Main outcomes measure(s): Gaps in our knowledge were identified, and hypotheses coupled with suggestions for future experiments were presented. Results: A total of 64 papers were identified as relevant, of which 53 were original research articles and 11 were book chapters and reviews covering morphogenesis and clinical issues. Investigators utilized multiple species including, human, mouse, chick, Xenopus, bovine, and sheep. Conclusion: Fundamental understanding of the morphogenesis of the male reproductive tract is limited, especially the morphogenesis of the rete testis and efferent ducts. Therefore, it is not surprising that we do not understand how each part unites to form a whole. Only one mechanism of joining of one part of the tract to another was identified: the joining of the Wolffian duct to the cloaca via controlled apoptosis. [ABSTRACT FROM AUTHOR]

Published

2019

47. Vagina and Vulva: Imaging Techniques, Normal Anatomy and Anatomical Variants

Author

Soo, M. J., Bharwani, N., Rockall, Andrea G., Hamm, Bernd, editor, and Ros, Pablo R., editor

Published

2013

48. Gonadal Hormone Influences on Human Neurobehavioral Development: Outcomes and Mechanisms

Author

Hines, Melissa, Pfaff, Donald W., editor, and Christen, Yves, editor

Published

2013

49. Ambiguous Genitalia: Is It a Boy or a Girl?

Author

Hutson, John M., Beasley, Spencer W., Hutson, John M., and Beasley, Spencer W.

Published

2013

50. Stem Cells in Fetal Tissue (The Kidney as a Model)

Author

Pleniceanu, Oren, Dekel, Benjamin, Bhattacharya, Niranjan, editor, and Stubblefield, Phillip, editor

Published

2013