Abstract
Testicular and cauda epididymal sperm were obtained via catheters previously implanted in the rete testis and proximal vas deferens of bulls and were used to examine the relationships among sperm motility, cyclic adenosine 3':5'-monophosphate (cAMP) level, adenine nucleotide levels, and rates of glucose and oxygen consumption. Testicular, cauda epididymal, and ejaculated sperm contain cAMP-stimulated protein kinase, adenylate cyclase, and nucleotide phosphodiesterase. Treatment of the nonmotile testicular sperm with phosphodiesterase inhibitors resulted in a doubling of cellular cAMP concentration and a 25% increase in their glucose consumption. No change in motility, ATP level, or rate of oxygen consumption was observed. Sperm in neat cauda epididymal semen had flagellating tails but no progressive motility. Dilution of these sperm into glucose-containing buffer resulted in an increase in intracellular cAMP concentration and a decrease in ATP level with concomitant increases in ADP and AMP levels. These biochemical changes occurred within 30 s after dilution and apparently preceded the initiation of progressive motility by most cells. Since sperm in neat cauda epididymal semen became progressively motile when diluted with neat cauda epididymal plasma as well as accessory sex gland fluid or buffer, composition of the fluid surrounding the sperm is not responsible for the initiation of progressive motility upon dilution nor does cauda epididymal plasma contain an inhibitory factor. Perhaps release from contact immobilization provides the stimulation for the initial acquisition of progressive motility by cauda epididymal sperm. We conclude that during epididymal passage sperm develop from a cell physically unresponsive to changes in cAMP concentration to a form which initiates progressive motility upon changes in cAMP concentration.
Highlights
Testicular and cauda epididymal sperm were obtained via catheters previously implanted in the rete testis and proximal vas deferens of bulls and were used to examine the relationships among sperm motility, cyclic adenosine 3’:5’-monophosphate (CAMP) level, adenine nucleotide levels, and rates of glucose and oxygen consumption
Treatment of the nonmotile testicular sperm with phosphodiesterase inhibitors resulted in a doubling of cellular cyclic adenosine 3:5’-monophosphate (CAMP) concentration and a 25% increase in their glucose consumption. observed
Because of low conversion of ATP to CAMP and high ATP levels (Table I), the trichloroacetic acid extraction method was chosen for CAMP determination and either trichloroacetic acid or boiling water extractions were used for adenine nucleotide determinations
Summary
Testicular and cauda epididymal sperm were obtained via catheters previously implanted in the rete testis and proximal vas deferens of bulls and were used to examine the relationships among sperm motility, cyclic adenosine 3’:5’-monophosphate (CAMP) level, adenine nucleotide levels, and rates of glucose and oxygen consumption. Treatment of the nonmotile testicular sperm with phosphodiesterase inhibitors resulted in a doubling of cellular CAMP concentration and a 25% increase in their glucose consumption. Sperm in neat cauda epididymal semen had flagellating tails but no progressive motility. Dilution of these sperm into glucose-containing buffer resulted in an increase in intracellular. CAMP concentration and a decrease in ATP level with concomitant increases in ADP and AMP levels. These biochemical changes occurred within 30 s after dilution and apparently preceded the initiation of progressive motility by most cells. We conclude that during epididymal passage sperm develop from a cell physically unresponsive to changes in CAMP concentration to a form which initiates progressive motility upon changes in CAMP concentration
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