Objectives

1. Identify histological features of the following viscera: Testes, Efferent ductules, Epididymis, Ductus Deferens, Seminal vesicles, Prostate, Penis
2. Review histologic features of the urethra (also explained in the urinary system section)

Overview

Disclaimer: The following information describes anatomical features a reproductive system in which an individual is genetically XY with no variation or surgical intervention and contains the above listed viscera. The term “male” will be used to refer to this collection of viscera.

The general function of the male reproductive system is to produce androgens, or sex hormones and produce male gametes, sperm. Production of sperm occurs through spermatogenesis (male meiosis) and spermiogenesis in the testes. Sperm continue to mature and prepare for fertilization as they move through the epididymis into the ductus deferens. Sperm mix with semen components produced by the seminal vesicles and prostate in the prostatic urethra. Semen with all components moves through the membranous urethra, spongy urethra and out of the external urethral orifice in the glans (distal) penis.

Testes: paired organs that develop in the presence of the SRY gene in association with the urinary system in the posterior abdominal wall before moving into the scrotum just prior to birth. Structure:

• Tunica vaginalis– most outer covering, continuation of the peritoneum
• Tunica albuginea– dense Ct capsule
• ∼250 lobules separated by CT septum
• Seminiferous tubules (convoluted loops) fill lobules and consist of specialized epithelium (see below)
• Rete testes– seminiferous tubules come together in anastomosing channels just before sperm travel into excurrent duct system

Seminiferous epithelium consists of spermatogonia (stem cells) lying on a basement membrane surrounded by myoid cells. Spermatogonia undergo steps of spermatogenesis (meiosis) as they move towards the lumen. Sertoli cells provide the niche needed for this process. Once cells reach the spermatid stage, they undergo spermiogenesis which is a massive morphologic and physiologic change including formation of the acrosome cap, removal of excess cytoplasm with the help of the manchette, and formation of the flagellum (tail). Spermatids are released into the lumen before traveling to the excurrent duct system where they undergo more maturation including gaining motility in the epididymis. A final physiologic change occurs just before fertilization within the uterine tubes of the female known as capacitation. Leydig cells are found outside the seminiferous tubules and are responsible for testosterone production.

Excurrent duct system:

• Efferent ductules– first part of excurrent duct system found in head of epididymis. Pseudostratified columnar epithelium with tall and short cells creating a saw-tooth appearance, included ciliated cells and cells with microvilli. Smooth muscle layer surrounding epithelium.
• Epididymis– site where sperm gain motility, lies along superior and posterior surface of testes, divided into a head, body and tail. Pseudostratified epithelium consisting of tall principal cells with stereocilia (extended microvilli) and basal cells. Can also find migrating lymphocytes, halo cells. Increasing layers of smooth muscle surround the epithelium as you move distally towards tail.
• Ductus deferens– travels from the perineum to the pelvis through the inguinal canal within the spermatic cord and ends in a dilated portion called the ampulla just prior to the ejaculatory duct at the prostate. Pseudostratified columnar epithelium similar to the epididymis (tall cells with stereocilia) but the lumen is not as smooth due to mucosal folds that are increased in the ampulla region. Thick muscular layer.

Accessory Sex Glands:

• Seminal vesicles– paired tubular glands found on the posterior wall of the bladder, lateral to the ampullas of the ductus deferens that produce fructose and other semen components. Combine with ampulla to form ejaculatory ducts which enter the prostate and empty into the prostatic urethra. Mucosa- pseudostratified columnar epithelium with tall non-ciliated cells and short round cells. Highly folded. Thin layer of surrounding smooth muscle and outer fibrous layer.
• Prostate gland– produces alkaline seminal fluid. Consists of 30-50 tubuloalveolar glands arranged within an inner mucosal layer, and intermediate submucosal layer, and a peripheral layer. Mucosal glands empty directly into prostatic urethra while submucosal and peripheral glands drain to prostatic sinuses on posterior wall of urethra. The fibromuscular stroma contains dense irregular CT and smooth muscle fibers. Alveoli of the glands are often filled with prostatic concretions (corpora amylacea) that may be partially calcified.
• Bulbourethral glands- pea-sized compound tubuloalveolar glands (similar structure to mucous glands) located on either side of the membranous urethra with ducts that drain into the spongy urethra. Produces pre-seminal (pre-ejaculate) fluid that lubricates and neutralizes any acidic urine in the spongy urethra.

Penis: consists of highly vascularized erectile tissues surrounded by connective tissue. Corpora cavernosa are the 2 dorsal masses of erectile tissue. The corpus spongiosum is ventrally located (penis is erect in anatomical position) and contains the spongy urethra. The main neurovasculature of the penis is dorsally located consisting of a central, deep dorsal vein, dorsal arteries on either side of the vein and dorsal nerves on the lateral sides of the arteries. The corpora cavernosa tissue each have a deep artery, running through the tissues int he central regions. The skin of the penis is loosely attached except for the distal glans penis where it is tightly attached. Sebaceous glands can be identified in the proximal penile skin. The glans penis is highly innervated by somatic and autonomic nerves.