Prolactin secretion after hypothalamic deafferentation in beef calves: response to haloperidol, alpha-methyl-rho-tyrosine, thyrotropin-releasing hormone and ovariectomy.

In ruminant species photoperiod regulates prolactin (PRL) secretion. It is hypothesized that the inhibition of PRL secretion resides in dopaminergic neurons of the medial basal hypothalamus (MBH). To test this hypothesis, anterior (AHD), posterior (PHD) and complete (CHD) hypothalamic deafferentation and sham operation control (SOC) surgeries were carried out during May (long-day photoperiod) in beef heifer calves (6-8 mo old) to measure basal PRL secretion and PRL secretion as affected by intravenous secretagogues. On the day of surgery (day 0), PRL secretion reflected stress of anesthesia and surgery in all groups. Thyrotropin-releasing hormone (TRH), alpha-methyl-rho-tyrosine (alphaMrhoT), and haloperidol (HAL) was iv injected on days 11, 13 and 15, respectively. AHD, PHD, CHD, and SOC calves responded to TRH (100 microg) with an acute increase in PRL that peaked within 20 min. All heifers responded to alphaMrhoT (10 mg/kg BW) with an acute elevation in PRL within 10 min and remaining elevated for 3 h. HAL (0.1 mg/kg BW) induced an acute increase in PRL secretion in all groups, peaking within 15-30 min. Seven months later (December, short-day photoperiod) these heifers were ovariectomized. Basal plasma PRL levels were seasonally low, PRL secretion in AHD, PHD and CHD animals abruptly increased within 15 min to iv injection of 100 microg TRH to a greater amount than seen in SOC heifers. Although a biphasic effect on PRL secretion entrains under long-day and short-day photoperiods, hypothalamic deafferentation in cattle did not affect the pituitary gland's responsiveness to secretagogues.

Expression of sperm protein 22 (SP22) in the rat ovary during different reproductive states.

Sperm protein 22 (SP22) is correlated with fertility in rats. It has been identified in testis and implicated in sperm-egg interaction, protection against oxidative stress, and androgen receptor function. SP22 is widespread in rat and human tissues but has not yet been reported in the ovary. Using reverse transcription polymerase chain reaction, we identified the presence of SP22 transcripts in the rat ovary. We assessed the cellular distribution of the SP22 protein by collecting ovaries from rats in each of the following groups: 30, 60, and 90 days old; Days 9.5, 14.5, 16.5, 18.5, and 20.5 of pregnancy; and Days 1, 2, 8, and 19 of lactation. Tissue sections were stained immunohistochemically for SP22, and some serial sections were stained for relaxin or cytochrome P450 cholesterol side-chain cleavage enzyme (SCC). Weak staining for SP22 was evident in some corpora lutea (CL) and some interstitial gland cells in nonpregnant adult rats. At Day 9.5 of pregnancy, SP22 was detected in all CL, but staining intensity was weak. Staining intensity for SP22 in CL increased from Day 9.5 to 20.5 of pregnancy but was low on postpartum Day 1 and thereafter. A similar temporal pattern of staining intensity in CL was observed for relaxin. Strong immunoreactivity for SCC was present in the CL throughout pregnancy, and the spatial distribution of staining for SP22 in CL and in some areas of ovarian stroma was similar to that for SCC. There was weak staining of some theca cells in some antral follicles of pregnant and early postpartum rats when heat-induced antigen retrieval was used. There was inconsistent staining of oocytes for SP22, particularly in 30-day-old rats. In summary, the expression of SP22 was most prevalent in the CL and increased during pregnancy.

Localization of fertility factor SP22 to specific cell types within the anterior pituitary gland.

Sperm protein 22 (SP22) was recently identified in the anterior pituitary gland (AP) of male Golden Syrian hamsters using ion trap mass spectrometry. SP22 has been implicated in apoptosis, androgen receptor function, fertility, and ontogeny of early-onset Parkinson's disease. However, the role of SP22 in the pituitary has not been investigated. We cloned the cDNA for full-length SP22 from AP and posterior lobe (posterior pituitary and intermediate lobe) of the pituitary gland in adult male rats and Golden Syrian hamsters, confirming the presence of SP22 mRNA in the AP and posterior lobe. Because gonadal steroids are important regulators of AP function, and SP22 is associated with androgen receptor function, we used Western blots to compare SP22 in the AP of intact and orchidectomized male rats given placebo or a low or high dose of testosterone. SP22 did not differ with treatment, indicating that AP SP22 concentration was not regulated by testosterone. To localize SP22 to specific cells of the AP, mirror-image paraffin sections were labeled against SP22 and either luteinizing hormone (LH)beta, thyroid-stimulating hormone (TSH)beta, prolactin, adrenocorticotropic hormone (ACTH), or growth hormone (GH) using peroxidase-conjugated secondary antibody. Additional sections were colabeled with SP22 and one of the AP hormones using fluorescent secondary antibodies. SP22 colocalized in somatotropes and thyrotropes in rat and hamster. We identified SP22 in a small percentage of corticotropes, gonadotropes, and lactotropes. This is the first report that SP22 mRNA is present specifically in the AP, and SP22 is localized primarily in somatotropes and thyrotropes. SP22 may help regulate AP function and be particularly important for the control of GH and TSH secretion.