Lecture 13: Epididymis, Ejaculation and Semen Animal Science 434 Lecture 13: Epididymis, Ejaculation and Semen
Sperm Structure Head Neck Middle Piece Annulus Principal Piece Acrosome Neck Middle Piece Annulus Principal Piece End Piece
Sperm From Different Species
Sperm Head (Equatorial Segment) Nucleus Nucleus
Acrosome Plasma Membrane Nucleus
Acrosin Hyaluronidase Acrosome Nucleus Plasma Membrane
Laminated columns (flexibility) Posterior head Capitulum Laminated columns (flexibility) Mitochondrial helix (energy) Middle piece Axoneme (9 + 9 + 2) Course outer fibers
Fibrous Sheath or helix Annulus Midpiece Principal Piece Fibrous Sheath or helix
Axoneme Middle Piece Principal Piece
Axoneme
Microtubule Sliding in Sperm Tail
Sperm Metabolism Glucose Hexokinase Glucose-6-phosphate Anerobic phosphatase Hexokinase Glucose-6-phosphate Glucose Phosphohexoisomerase Anerobic Metabolism (Glycolysis) Fructose-6-phosphate Fructose Hexokinase Lactate + 2 ATP + 2 H2O Fatty Acids Aerobic Metabolism Tricarboxcylic Acid Cycle 36 ATP/Glucose 36 ATP/Fructose
ATP Utilization in Sperm motility (60%) substrate cycling (40%) wasted maintenance of ionic gradients very small amount transcription and translation none after condensation of nucleus and loss of residual body
Sperm Metabolism Temperature dependent ATP production increases as temperature increases ATP dependent processes are temperature dependent motility increases with increasing temperature
Effect of Temperature on Motility Velocity (µm/s) Temperature (C)
Transport of Sperm Vas Efferentia fluid flow cilia Caput contractions Deferens Rete Testis contractions fluid flow RT secretion Corpus contractions Seminiferous Tubule bulk fluid flow contractions of of myoid cells Cauda contractions
Epididymal Function Maturation Concentration change in fertility develop motility nuclear condensation cytoplasmic droplet Concentration remove water
Epididymal Function Secretion Transport Storage T DHT energy substrates (GPC, carnitine) glycoproteins, lipids, enzymes Transport smooth muscle contraction Storage cauda
Hormonal Control of Epididymis Caput tubal testosterone Corpus tubual dihydrotestosterone (DHT) vascular testosterone Cauda tubal DHT
Erection Sensory Psychic Sympathetic relaxation of penile retractor muscle Parasympathetic contraction of ischiocavernosus muscle dilation of vessels Inhibit vasoconstriction engorgement of corpus cavernosum decreased venous outflow
Emission and Ejaculation Sensory Psychic Parasympathetic Sympathetic smooth muscle contraction of prostate, seminal vesicles, vas deferens, cauda epididymis, closure of the sphincter to the bladder striated muscle contraction of ischiocavernosus, bulbospongiosus, pelvic urethral emission ejaculation
Ejaculate Characteristics Species Time lapse for Composition of Bull 1 second single fraction Ram 1 second single fraction Boar 5 - 25 minutes fractionated sperm-free sperm-rich coagulum Stallion 30 - 60 seconds fractionated sperm-free sperm-rich mucus Human 10 - 30 seconds single fraction but coagulated
Components of Semen water sperm substrates inorganic salts proteins fructose sorbitol inositol glycerol phosphatidyl choline (GPC) citric acid inorganic salts sodium, potassium, calcium, magnesium, chloride proteins
Initial Semen Evaluation color volume concentration motility viability morphology
Ejaculate Characteristics Species Ejaculate Sperm Total Sperm % % Volume Conc. (x109) Motile Normal (x109) /Ejaculate Bull 8.0 1.5 12 75 95 Ram 1.0 3.0 3 95 95 Boar 200 .25 50 70 90 Stallion 80 .15 12 70 40-90 Man 2-6 .15 .9 65 30-70