Synchronous modulation of cell surface lectin and its receptor in a homologous cell population: a novel mechanism of cellular regulation

Testicular immotile sperm undergo maturation during epididymal transit when these cells pass through caput, corpus, and cauda-epididymal regions. Maturing goat spermatozoa specifically at the distal corpus epididymal stage show head-to-head autoagglutination when incubated in vitro in a modified Ringer's solution. Here, we show the biochemical mechanism of autoagglutination event and its functional significance. A lectin-like molecule located on sperm surface specifically interacts with its receptor of the neighboring homologous cells to cause autoagglutination. Lectin is a Ca++-dependent galactose-specific protein. Failure of the pre- and post-distal corpus sperm to show autoagglutination is due to lack of lectin-like molecule and its receptors, respectively. Maturing sperm at distal corpus stage acquire lectin-like molecule followed by sharp disappearance of its receptor, and this event is synchronously associated with the initiation of sperm forward motility that is essential for fertilization in vivo. Lectin and its receptor isolated from sperm plasma membrane showed high efficacy for blocking autoagglutination phenomenon. The data are consistent with the view that synchronous modulation of homologous cell surface lectin and their receptors constitutes a novel mechanism for cellular regulation by generating waves of signals by manipulating lectin-sugar-dependent "self-talk" and cell-cell "cross-talk".     

Immunolocalization of anti-agglutinin for spermatozoa in boars

A boar "anti-agglutinin," which inhibits head-to-head agglutination of spermatozoa, has been identified as a 25-kDa sialoprotein contained in epididymal and seminal plasma. This study was conducted to determine the location of the anti-agglutinin on spermatozoa and in various organs, including epididymides, by indirect immunofluorescence and Western blotting techniques. Ejaculated boar spermatozoa were washed and subjected to immunocytochemical observation. Epididymal plasma was recovered from three different regions of epididymides and subjected to sodium dodecylsulfate (SDS)-polyacrylamide gel electrophoresis (PAGE) and Western blotting. Twelve kinds of organs (testis, epididymis, seminal vesicle, prostate, heart, liver, kidney, spleen, stomach, small intestine, lung, and muscle) were recovered from boars. The unilateral epididymides were fixed, cut into 10-microm frozen sections, and subjected to immunohistochemical observation. The other organs were homogenized and used for SDS-PAGE and Western blotting. Immunocytochemical observations revealed that the antiserum strongly recognized the acrosomal region and equatorial segment on unfixed and methanol-fixed spermatozoa. Immunohistochemical observations revealed that the epithelia of the epididymal ducts were recognized by the antiserum mainly in the corpus epididymides. Moreover, the antiserum reacted with the luminal contents of the corpus and cauda epididymides. However, no specific reaction was detected in the caput epididymides. Western blotting showed that the antiserum selectively recognized a band of the anti-agglutinin in the corpus and cauda epididymal plasma, although no band was detected in the caput epididymal plasma. In the extracts from various organs, the single band was detected in the corpus and cauda epididymides at the same mobility as the anti-agglutinin, but not in the other organs. Based on these results, the following matters concerning the anti-agglutinin are discussed: (1) the importance of its association with the acrosome of spermatozoa in inhibiting sperm head-to-head agglutination; (2) its origin in the epididymis; and (3) its tissue specificity.     

Identification of anti-agglutinin for spermatozoa in epididymal boar plasma

The present report identifies epididymal boar anti-agglutinin and examines its effect on sperm motility. Boar spermatozoa from the cauda epididymidis were washed and incubated in modified Krebs–Ringer bicarbonate at 37°C (5% CO₂ in air). In the samples washed three or five times and then incubated for 3–5 h, higher rates (72–79%) of spermatozoa were associated with one another at the acrosomal region, mainly in groups of 2–5 cells (head-to-head agglutination), and many cells exhibited intensively flagellant and/or circular types of movement but rarely progressive motility. The addition of epididymal plasma or 25 kDa protein purified from it markedly inhibited the occurrence of head-to-head agglutination in washed spermatozoa, whereas heat treatment and subsequent removal of insoluble materials reduced the anti-agglutination activity of epididymal plasma. The percentages of progressively motile cells in the samples incubated with epididymal plasma or 25 kDa epididymal protein rose coincident with the reduction of sperm agglutination. These findings demonstrate that the 25 kDa epididymal protein is an anti-agglutinin for the cauda spermatozoa and that it effectively functions to maintain progressive motility of the cells in vitro. © 1994 Wiley-Liss, Inc.     

Maturation-specific type II cyclic AMP-dependent protein kinase in goat sperm plasma membrane

Highly purified plasma membranes (PMs) isolated by aqueous two-phase polymer methods from goat sperm undergoing epididymal maturation, have been analyzed for the isoenzymes of cyclic AMP-dependent protein kinase (RC). The mature and the immature spermatozoa showed profound differences in the profile of the isoenzymes of RC solubilized from the isolated PMs with 0.1% Triton X-100. The immature sperm PM consists of only type I RC in contrast to the mature sperm membrane which possesses both the type I and II isoenzymes. The type II kinase represents nearly 30% of the total membrane-bound RC of the mature cells. The analysis of the surface topography of these isoenzymes of the maturing spermatozoa by using diazonium salt of sulfanilic acid as the surface probe shows that the PM-bound RC(s) are oriented primarily on the external surface of these intact cells. The data demonstrate that type II RC is a maturation-specific ecto-kinase as it appears on the sperm surface specifically during the maturation of spermatozoa in the epididymis.     

小鼠附睾头精子获得与卵子质膜融合能力的物质基础研究

随着精子在附睾中的转运,它们与卵子质膜的融合能力逐渐增加。怩证明２附睾体和附睾尾的精子均具有相当高的膜融合能力,而附睾头中的精了奶少能与卵子质膜融合,这是还说明附睾头中的精子不具备与云透明带卵子融合的物质条件呢？利用附睾结扎留并延长体外获能时间,可使附睾头远端精子的融合能力明显地提高;在精子培养液中加入ＡＴＰ,并延长精卵共培养时间,也可使一少部分附睾头近端的精子获得与卵子质膜融合的能力。这表明附睾     

Immunolocalization of a 25-kilodalton protein in mouse testis and epididymis.

We have recently observed that a polyclonal antibody raised against a mouse epididymal luminal fluid protein (MEP 9) recognizes a 25-kDa antigen in mouse testis and epididymis [Rankin et al., Biol Reprod 1992; 46:747-766]. This antigen was localized by light and electron microscopic immunohistochemistry. The immunoreactivity in the testis was found in the residual cytoplasm of the elongated spermatids, in the residual bodies, and in the cytoplasmic droplets of spermatozoa. In the epididymis, the epithelial principal cells were stained from the distal caput to the distal cauda. Immunogold labeling in the principal cells showed diffuse distribution without preferential accumulation in either the endocytic or the secretory apparatus of the cells. In the epididymal lumen, the immunoreactivity was restricted to the sperm cytoplasmic droplets. No membrane-specific labeling was observed in luminal spermatozoa, cytoplasmic droplets, or isolated sperm plasma membranes. Three weeks after hemicastration or severance of the efferent ducts, a normal distribution of the immunoreactive sites was found in the epididymis. Immunoreactivity, was also detected in the epididymal epithelium of immature mice as well as in that of XXSxr male mice having no spermatozoa in the epididymis. These results suggest that the immunoreactivity seen in the principal cells originates from synthesis rather than endocytosis of the testicular protein from disrupted cytoplasmic droplets. Furthermore, these results suggest that the 25-kDa protein is synthesized independently by both testis and epididymis.     

Maturation-dependent modification of the protein phosphorylation profile of isolated goat sperm plasma membrane.

Highly purified plasma membranes, isolated by an aqueous two-phase polymer method from goat epididymal spermatozoa, were found to possess a kinase activity that causes phosphorylation of serine and threonine residues of several endogenous plasma membrane proteins. Cyclic AMP, cyclic GMP, Ca(2+)-calmodulin, phosphatidylserine-diolein, polyamines and heparin had no appreciable effect on this kinase. Autoradiographic analysis showed that the profile of the phosphorylation of membrane proteins by this endogenous cAMP-independent protein kinase underwent marked modulation during the transit of spermatozoa through the epididymis. In caput sperm plasma membrane, 18, 21, 43, 52, 74 and 90 kDa proteins were phosphorylated, whereas, in the corpus and cauda epididymal spermatozoa, a differential phosphorylation pattern was observed with respect to the 90, 74, 21 and 18 kDa proteins. The rate of phosphorylation of the 74 kDa protein decreased markedly during the early phase of sperm maturation (caput to distal corpus epididymides) whereas there was little change in kinase activity in sperm plasma membrane. In contrast, the rates of phosphorylation of the 18 and 21 kDa proteins increased during the terminal phase (distal corpus to distal cauda epididymides) of sperm maturity, although the kinase activity of membrane decreased significantly during this phase. The modulation of the phosphorylated states of these specific membrane proteins may play an important role in the maturation of epididymal spermatozoa.     

Distribution of filipin-sterol complexes in the plasma membrane of stallion spermatozoa during the epididymal maturation process

The presence and distribution of cholesterol in mature and immature epididymal spermatozoa was analyzed using filipin as a cytochemical tool in freeze-fracture replicas and thin section preparations. The polyenic-antibiotic filipin formed complexes with 3, beta -OH sterols, producing characteristic protrusions, or pits, that were heterogeneously distributed in the plasma membrane of stallion spermatozoa, revealing a specific organization in a functionally specialized area of the gamete. The acrosomal region of the sperm head presented a significantly higher density of filipin sterol complexes than the postacrosomal region, which was usually free of these complexes. The plasma membrane of the flagellum also showed filipin sterol complexes randomly distributed in freeze-fracture replicas. The strong filipin labeling observed in the membrane of spermatozoa obtained from the caput region of the epididymis decreased significantly during epididymal passage. The significance of these changes is not completely understood, but they might contribute to establishing the molecular organization necessary for sperm transit and storage in the epididymis as well as to development of motile spermatozoa that are able to fertilize the oocyte and induce normal embryonic development.     

Occurrence of an ecto-phosphoprotein phosphatase in goat epididymal spermatozoa

Intact spermatozoa from goat cauda epididymis possess phosphoprotein phosphatase activity that causes dephosphorylation of externally added [32p]histones. The enzymic reaction was linear with time for at least 15 min and there was little uptake of [32p]histones by these cells. The activity of the enzyme of the whole spermatozoa was not due to contamination of the broken cells or epididymal plasma and leakage of the intracellular enzymic activity during incubation. The activity of the phosphoprotein phosphatase was strongly inhibited by the thiol reagent: p-chloromercuribenzenesulfonic acid, which is believed not to enter the cells. There was no appreciable loss of the enzymic activity from the cells when washed with EDTA (2.0 mM) or a hyperosmotic medium. These data are consistent with the view that the observed activity of the enzyme is located on the spermatozoal external surface. Studies with unlabelled p-nitrophenyl phosphate and beta-glycerophosphate indicate that the sperm ecto-enzyme is not a non-specific phosphatase.     

The roles of the epididymis and prostasomes in the attainment of fertilizing capacity by stallion sperm

The epididymis is a long, tightly coiled tube within the lumen of which sperm matures. Sperm maturation involves morphological and biochemical changes in the sperm plasma membrane in response to epididymal secretions and their various proteins. Some of these proteins become outer membrane components while others become integral membrane proteins; transfer of some proteins to the sperm plasma membrane may be mediated by epididymosomes. Nevertheless, the molecular pathways by which spermatozoa acquire fertilizing capacity during their transit through the epididymis remain ambiguous. In a recent study of stallion epididymal sperm, we found that sperm harvested from different parts of the epididymis (caput, corpus and cauda) had a varying, but generally poor, ability to undergo the acrosome reaction in vitro. At ejaculation, however, sperm mix with seminal plasma which contains various components, including the small membranous vesicles known as prostasomes, that may enable the sperm to undergo physiological activation. Seminal plasma components may have a 'washing' effect and help to remove 'de-capacitation' factors that coat the sperm during storage in the cauda epididymis; alternatively seminal plasma and prostasomes may contain factors that more directly promote sperm activation. This article reviews current information on the roles of epididymal and accessory gland fluids on the acquisition of fertilizing capacity by stallion sperm.     

Morphology and motility of spermatozoa from different regions of the epididymal duct in the domestic cat

Spermatozoa undergo important maturational changes as they pass through the epididymal duct. Some domestic cats and many species of wild felids have high proportions of abnormal spermatozoa in their ejaculates. The epididymis has been shown to be able to remove certain abnormal sperm forms in some species while other sperm abnormalities originate in the epididymis. So far, it has not been shown how the epididymis affects sperm morphology in the domestic cat. Therefore, motility and sperm morphology were studied in spermatozoa from the efferent ducts and from the 6 regions of the epididymal duct. There were significant decreases in the proportions of spermatozoa with abnormalities of the sperm head, acrosomal defects, acrosomal abnormalities and in the proportion of midpiece abnormalities. In contrast, there was a small but significant increase in the proportion of spermatozoa with abnormalities of the tail. Spermatozoa acquired the capacity for motility in Region 4, where the cytoplasmic droplet also moved from a proximal to a distal position, indicating that important maturational changes take place in this region. The results of this study demonstrate that the proportions of sperm abnormalities originating in the testes decrease during epididymal transport, while some sperm tail abnormalities may actually originate in the epididymis.     

Mapping of the human testicular proteome and its relationship with that of the epididymis and spermatozoa

The testis produces male gametes in the germinal epithelium through the development of spermatogonia and spermatocytes into spermatids and immature spermatozoa with the support of Sertoli cells. The flow of spermatozoa into the epididymis is aided by testicular secretions. In the epididymal lumen, spermatozoa and testicular secretions combine with epididymal secretions that promote sperm maturation and storage. We refer to the combined secretions in the epididymis as the sperm-milieu. With two-dimensional-PAGE matrix-assisted laser desorption ionization time-of-flight MS analysis of healthy testes from fertile accident victims, 725 unique proteins were identified from 1920 two-dimensional-gel spots, and a corresponding antibody library was established. This revealed the presence of 240 proteins in the sperm-milieu by Western blotting and the localization of 167 proteins in mature spermatozoa by ICC. These proteins, and those from the epididymal proteome (Li et al. 2010), form the proteomes of the sperm-milieu and the spermatozoa, comprising 525 and 319 proteins, respectively. Individual mapping of the 319 sperm-located proteins to various testicular cell types by immunohistochemistry suggested that 47% were intrinsic sperm proteins (from their presence in spermatids) and 23% were extrinsic sperm proteins, originating from the epididymis and acquired during maturation (from their absence from the germinal epithelium and presence in the epididymal tissue and sperm-milieu). Whereas 408 of 525 proteins in the sperm-milieu proteome were previously identified as abundant epididymal proteins, the remaining 22%, detected by the use of new testicular antibodies, were more likely to be minor proteins common to the testicular proteome, rather than proteins of testicular origin added to spermatozoa during maturation in the epididymis. The characterization of the sperm-milieu proteome and testicular mapping of the sperm-located proteins presented here provide the molecular basis for further studies on the production and maturation of spermatozoa. This could be the basis of development of diagnostic markers and therapeutic targets for infertility or targets for male contraception.     

Heparin-binding proteins from seminal plasma bind to bovine spermatozoa and modulate capacitation by heparin

Bovine spermatozoa that have been exposed to seminal plasma possess more binding sites for heparin than sperm from the cauda epididymis that have not been exposed to accessory sex gland secretions. Seminal plasma exposure enables sperm, following incubation with heparin, to undergo zonae pellucidae-induced exocytosis of the acrosome. In this study, the regulatory role of seminal plasma heparin-binding proteins in capacitation of bovine spermatozoa by heparin was investigated. Plasma membranes from sperm exposed to seminal plasma in vivo or in vitro contained a series of acidic 15-17 kDa proteins not found in cauda epididymal sperm. Western blots of membrane proteins indicated that these 15-17 kDa proteins bound [125I]-heparin. Heparin-binding proteins were isolated by heparin affinity chromatography from seminal plasma from vasectomized bulls. Gel electrophoresis indicated that the heparin-binding peaks contained 14-18 kDa proteins with isoelectric variation, a basic 24 kDa protein, and a 31 kDa protein. Western blots probed with [125I]-heparin confirmed the ability of each of these proteins to bind heparin. Each of these proteins, as well as control proteins, bound to epididymal sperm. The seminal plasma proteins were peripherally associated with sperm since they were removed by hypertonic medium and did not segregate into the detergent phase of Triton X-114. Seminal plasma heparin-binding proteins potentiated zonae pellucidae-induced acrosome reactions in epididymal sperm. However, seminal plasma proteins that did not bind to the heparin affinity column were unable to stimulate zonae-sensitivity. Control proteins, including lysozyme--which binds to both heparin and sperm, were ineffective at enhancing zonae-induced acrosome reactions. These data provide evidence for a positive regulatory role of seminal plasma heparin-binding proteins in capacitation of bovine spermatozoa.     

Effects of breeding season and mating on total number and distribution of spermatozoa in the epididymis of the brown marsupial mouse, Antechinus stuartii

Changes in the number and distribution of spermatozoa in the epididymis of the adult brown marsupial mouse were examined during July/August in mated and unmated males. The effects of mating on epididymal sperm populations were studied in 2 groups of males each mated 3 times and compared with the number and distribution of spermatozoa in the epididymides of 4 unmated control groups. One testis and epididymis were removed from each animal (hemicastration) either before or early in the mating season to provide information on initial sperm content and distribution. The contralateral side was removed later in the mating season to examine the effects of mating or sexual abstinence on epididymal sperm distribution. Epididymal sperm number peaked in both the distal caput and distal corpus/proximal cauda epididymidis in late July. The total number of spermatozoa, including those remaining in the testis, available to each male at the beginning of the mating season in early August was approximately 4.4 x 10(6)/side. Although recruitment of spermatozoa into the epididymis from the testis continued until mid-August, sperm content of the epididymis reached a peak of about 3.5 x 10(6)/epididymis in early August. At this time approximately 0.9 x 10(6) spermatozoa remained in the testis which had ceased spermatogenic activity. Throughout the mating season, epididymal spermatozoa were concentrated in the distal corpus/proximal cauda regions of the epididymis and were replenished by spermatozoa from upper regions of the duct. Relatively few spermatozoa were found in the distal cauda epididymidis, confirming a low sperm storage capacity in this region. A constant loss of spermatozoa from the epididymis, probably via spermatorrhoea, occurred throughout the mating season and very few spermatozoa remained in unmated males in late August before the annual male die-off. Mating studies showed that an average of 0.23 x 10(6) spermatozoa/epididymis were delivered per mating in this species, but the number of spermatozoa released at each ejaculation may be as few as 0.04 x 10(6)/epididymis when sperm loss via spermatorrhoea is taken into account. We suggest that the unusual structure of the cauda epididymidis, which has a very restricted sperm storage capacity, may function to limit the numbers of spermatozoa available at each ejaculation and thus conserve the dwindling epididymal sperm reserves in order to maximize the number of successful matings which are possible during the mating season.     

Glycoproteins of ram sperm plasma membrane. Relationship of protein having affinity for Con A to epididymal maturation

Con A Receptors from the sperm plasma membrane were quantitated (using ³H acetyl-Con A) along the epididymal duct; they diminished in the second part of the epididymis as compared to the epididymal head. Glycoproteins having affinity for Con A were partially characterized: washed spermatozoa from rete testis (= testicular spermatozoa), middle corpus and distal cauda epididymis were labelled (¹²⁵I Na). Proteins of their plasma membrane were extracted (Triton ×100, 0.1% and chromatography affinity): differences appeared in ACA44 profiles from ¹²⁵I Con A Glycoprotein extractions between testicular spermatozoa (2 major peaks Kav= 0.41 and 0.52) and epididymal spermatozoa (3 major peaks Kav= 0.33–0.34, 0.41 and 0.52 and additional minor peaks between 0.66 and 1.00). The peak Kav= 0.41 diminished considerably on epididymal spermatozoa as compared to testicular spermatozoa.     

Sperm maturation in the domestic cat

The epididymis is essential for sperm development and maturation, and, subsequently, the ability of spermatozoa to penetrate and fertilize the female gamete. Functional differences in segments of the long tubule are reflected by histological differences among epididymal regions. The feline epididymis can be divided into six different regions according to their histological differences. A marked increase in sperm concentration occurs between regions 2 and 3, indicating resorption of fluid in region 2, a concept supported by the histological characteristics of the epithelium. At the transition between regions 4 and 5, located between the caput and corpus epididymides, histological characteristics change from being that of a maturation function to being typical of a storage function. Migration of the cytoplasmic droplet and induction of motility occur in this same region. Proteins are secreted from epithelial cells in the feline epididymis by merocrine and apocrine secretion, although the functions of different feline epididymal proteins have not been determined. Hypotaurine, taurine and, probably, alkaline phosphatase are produced by the feline epididymis. During epididymal transit the percentage of immature, unviable and morphologically abnormal spermatozoa decreases, indicating the existence of a mechanism that removes abnormal spermatozoa. In contrast, the percentage of spermatozoa with abnormal tails increases slightly during epididymal transit. Most of the distal droplets present on spermatozoa in the cauda epididymis are lost at or after ejaculation. Additional knowledge of the feline epididymis should be beneficial for developing sperm preservation protocols and advance the prospects for effective male contraceptive methods.     

Intra-acrosomal 155,000 dalton protein increases the antigenicity during mouse sperm maturation in the epididymis: A study using a monoclonal antibody MC101

We found an intra-acrosomal antigen of about 155,000 daltons (155 kDa) in a survey using the monoclonal antibody MC101 raised against mouse cauda epididymal spermatozoa. Morphological studies by means of indirect immunofluorescence and immunogold electron microscopy localized the antigen to the cortex region of the anterior acrosome. Avidin biotin complex immunocytochemistry initially demonstrated a faint signal at the anterior acrosome in the testis spermatozoa that increased in intensity as the sperm moved toward the distal epididymis. This incremental immunoreactivity was also confirmed by immunoblotting following one-dimensional SDS-PAGE. The 155 kDa protein band was immunostained, and it was much more intense in the cauda epididymal than in the caput and corpus epididymal spermatozoa. Only a trace or no immunostain was evident in the caput or testis spermatozoa. The antigen localization did not change during passage through the epididymis, being confined at the cortex region of the anterior acrosome. The epididymal epithelial cells were not immunostained. These findings suggested that the 155 kDa protein is biochemically modified, further implying that the biochemical alteration of intra-acrosomal material is involved in sperm maturation in the epididymis. © 1995 wiley-Liss, Inc.     

Creatine phosphokinase in domestic cat epididymal spermatozoa

Mammalian spermatozoa that have not completed final testicular sperm maturation have residual cytoplasm and increased creatine phosphokinase (CK) content. This study determined: (1) if CK could be detected by immunostaining cat spermatozoa from the caput, corpus, and cauda epididymis, (2) fluctuations in the proportions of spermatozoa with mature or immature CK-staining patterns during epididymal sperm transit, and (3) how well sperm maturity (as determined by a CK marker) correlated with testicular or epididymal dysfunctions associated with morphological sperm abnormalities. One epididymis was collected from each of 37 cats after orchiectomy and processed immediately to allow sperm morphology evaluations on a 'regional' basis. Sperm released from the contralateral epididymis were evaluated for motility, sperm membrane integrity, and immunostaining with CK-B antibodies. Proportions of spermatozoa with malformed or detached heads, proximal droplets and acrosomal or midpiece abnormalities decreased (P < 0.05) from the caput to the cauda epididymis. In contrast, proportions of spermatozoa that were motile, membrane-intact or with flagellar abnormalities or distal droplets increased (P < 0.05) from the caput to cauda region. Percentages of spermatozoa with an immature CK-staining pattern also decreased (P < 0.05) with epididymal transit (which differs from that reported for the human and stallion). There was no correlation (P > 0.05) between sperm morphology and the CK-staining patterns. In summary, the results reveal that some specific sperm malformations in the domestic cat are of testicular origin, whereas others develop during epididymal transit.     

Impact of epididymal maturation on the tyrosine phosphorylation patterns exhibited by rat spermatozoa

As mammalian spermatozoa migrate through the epididymis, they acquire functionality characterized by the potential to express coordinated movement and the competence to undergo capacitation. The mechanisms by which spermatozoa gain the ability to capacitate during epididymal transit are poorly understood. The purpose of this study was to investigate the impact of epididymal maturation on the signal transduction pathways regulating tyrosine phosphorylation, because this process is thought to be central to the attainment of a capacitated state and expression of hyperactivated motility. Western blot and immunocytochemical analyses demonstrated that epididymal maturation in vivo is associated with a progressive loss of phosphotyrosine residues from the sperm head. As cells pass from the caput to the cauda epididymis, tyrosine phosphorylation becomes confined to a narrow band at the posterior margin of the acrosomal vesicle. Epididymal maturation of rat spermatozoa was also associated with an acquired competence to respond to high levels of intracellular cAMP by phosphorylating tyrosine residues on the sperm tail. Immature caput spermatozoa were incapable of exhibiting this response, despite the apparent availability of cAMP and protein kinase A. These findings help to clarify the biochemical changes associated with the functional maturation of spermatozoa during epididymal transit.