Histology of the Male Reproductive System 4 Flashcards
Describe the processes that occur in the seminiferous tubules, collectively known as spermatogenesis or gametogenesis (that includes spermatocytogenesis, meiosis, and spermiogenesis.
Describe the sertoli cells in the seminiferous tubules and their functions.
- Cells interconnect with each other and surround developing gametes
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Functions:
- formation of blood-testis barrier
- regulates transport of steroids and spermatogenic factors
- protects sperm from immune system
- metabolic support
- regulation of movement of spermatogenic cells through the seminiferous epithelium
- production of seminiferous tubule fluid
- phagocytosis of shed cytoplasm during spermatogeneis and defectie/dead cells
- formation of blood-testis barrier
What are some of the major synthesis and secretion products of Sertolic cells?
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Anti-mullerian hormone
- substance that inhibits development of female sexual development in the embryo/fetus
- also inhibits acrosomal reaction in the adult
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Antigen-binding protein
- concentrates testosterone in the seminiferous epithelium
- creates a favorable environment for Leydig cell function
- concentrates testosterone in the seminiferous epithelium
- Cytokines that regulate Leydig cell function
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Substances that feed back to adenohypophysis
- regulates release of gonadotropin
What are some important features regarding the structure of sperm cells?
- Head/nucleus is flattened and surrounded by enzyme-staining acrosome
- Core of the flagellum consists of axoneme with microtubules arranged as a cilium (central pair and outer doublets)
- Mitochondria surrounds the middle piece and power movement
What is the time span of spermatogenesis and how is this clinically relevant?
- In humans, duration is of approximately 74 days followed by 12days of maturation in the epididymis
- Developing sperm cells are part of the stratified epithelium
- Clinical relevance: any drug therapy for male infertility involving the initial phases of spermatogenesis may take 86 days to determine the effect
Describe the process of spermatogenesis.
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Spermatocytogenesis (primordial spermatogonia cell division)
- spermatogonia undergo mitosis
- peripheral and in contact with basal lamina
- spermatogonia undergo mitosis
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Meiosis of spermatocytes
- primary spermatocytes undergo the first meiotic division
- from here, dividing cells retain cytoplasmic bridges with each other
- further development occurs in clonal clusters with varying stages among clusters
- secondary spermatocytes undergo the second meiotic division
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Spermiogenesis (morphological transformation of spermatids)
- spermatids undergo a complex morphological transformation into spermatozoa
- spermatozoa are released into the seminiferous tubule lumn, but they are not yet motile and are incapable of pertilizing and ovum
- requires further maturation in epididymis and cpacitation in female reproductive tract
What are the major changes that spermatids undergo to become spermatazoa?
- Elaboration of the acrosome from the Golgi complex
- Condensation of the nuclear chromatin into a highly insoluble, electron dense masss
- Wrapping of many mitochondria in the middle piece around the upper 1/3 of the developing tail
- Formation of 50 micrometer long motile flagellum
- Extensive shedding of cytoplasm that is taken up
What is the epidydimis, and what are some important histological features?
- Structure with a head, body, and tail where the maturation of sperm occurs
- sperm attain motility and undergo final morphological and biochemical changes here
- takes two weeks to ass through the 15 feet of epididymis
- stored at distal end (tail) until ejaculation
- Epithelium is pseudostratified columnar with stereocilia
What is the structure and function of the ductus (vas) deferens?
- Continuation of the tail of the epididymus
- Three thick layers of smooth muscle (inner and outer longitudinal, middle circular) that have strong peristaltic contractions during ejaculation
- Epithelium is pseudostratified columnar with long microvilli (stereocilia) similar to epididymis epithelium
- unlike the epididymis, the lumen of the ductus deferens does not appear circular because of the contracted state during fixation
- The ejaculatory duct forms after the terminal ampulla of the ductus deferens joins the duct of the seminal vesicles on the back of the prostate
What is the makeup of semen?
- 2-6 mL
- 10% sperm
- 20-100 million/mL
- 70% seminal vesicle secretions
- 20% prostate
- 25-50% of sperm are immotile and 20-40% are morphologically abnormal
What is the structure and function of the seminal vesicles?
- Paired, highly, coiled tubular glands posterior to the urinary bladder and parallel to the ampulla of the ductus deferens
- Develop as evaginations of the mesonephric duct that gives rise to the ductus deferens and ejaculatory ducts
- Epithelium is pseudostratified columnar
- mucosa elaborates into primary, secondary, and teriary folds like the uterine tubes
- Secretory product provides metabolic substrate for sperm
- contains fructose and other simple sugars, amino acid, and prostaglandins
What are the origins of the prostate gland and what is the makeup of its secretions?
- Develops from the splanchoplere of the urogenital sinus (which comes from the hindgut cloaca)
- Secretions contain enzymes that liquefy the viscous semen shortly after ejaculation
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prostate specific antigen (PSA) - serine protease that is an important serum indicator of prostate cancer
- increased production by cancer cells raises serum PSA levels, which are normally very low
- serum prostatic acid phosphatase (PAP) is another postatic tumor
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prostate specific antigen (PSA) - serine protease that is an important serum indicator of prostate cancer