K Hakola scite author profile

The ability of hCG and LH to induce testosterone (T) secretion by Leydig cells is well documented. However, the influence of the pulsatile nature of LH secretion, with varying frequency and amplitude, on T production in vivo is less clear. In our earlier studies on the relationship between pulsatile LH release and T secretion in adult male rats, no simple causality was observed. The recent availability of rat recombinant (rec) LH prompted us to study the effects of one and of three i.v. pulses of different doses of rat recLH on T secretion in adult male rats rendered hypogonadotropic by treatment with the GnRH antagonist cetrorelix. One or three supraphysiological pulses of 1.0 microg of rat recLH produced similar maximal T responses. In contrast, high physiological LH pulses (0.1 microg) produced discrete T-response peaks, whereas multiple low pulses of LH (0.03 microg) were needed before a T response was achieved. The T stimulation was greatly diminished after an LH pulse of 0.1 microg if rats had been treated on the previous day with pulses of 0.03 vs. 0.1 microg rat recLH, apparently because of prolonged LH deprivation and lack of Leydig cell priming due to the GnRH antagonist treatment. The novel preparation of rat recLH provides a physiologically relevant tool for studying the complex relationship between pulsatile LH release and T secretion in male rats.

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Recombinant forms of rat and human luteinizing hormone and follicle-stimulating hormone; comparison of functions in vitro and in vivo

Hakola

Haavisto²,

Pierroz³

et al. 1998

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We have previously described the preparation, purification and partial characterization of recombinant (rec) forms of rat luteinizing hormone (LH) and follicle-stimulating hormone (FSH). In the present study, the special functional features of these hormones were studied further, in vitro and in vivo, and compared with human recLH and recFSH, as well as with human urinary choriongonadotropin (hCG) and rat pituitary LH (NIDDK-RP3). In radioreceptor assay, the affinity of hCG binding to rat testis membranes was 5-fold higher than that of human recLH and 100-fold higher than that of rat recLH. In in vitro bioassay, using dispersed adult mouse interstitial cells or a mouse Leydig tumor cell line (BLT-1), hCG and human recLH were 10-to 20-fold more potent than rat recLH. Correspondingly, rat pituitary LH was about 10-fold less potent than rat recLH, and evoked a maximum testosterone response that was about half of that elicited by the other LH/CG preparations. Rat recFSH was about 10-fold less potent than human recFSH in stimulating cAMP production of a mouse Sertoli cell line (MSC-1) expressing the recombinant rat FSH receptor.The circulating half-times (T Y ) of rat and human rec hormones were assessed after i.v. injections into adult male rats rendered gonadotropin-deficient by treatment with a gonadotropin-releasing hormone antagonist. A novel immunometric assay was used for the rat FSH measurements. In the one-component model the T Y values of rat and human recLH were 18·2 1·9 min (n=7) and 44·6 3·1 min (n=7) respectively and those of rat and human recFSH were 88·4 10·7 min (n=6) and 55·0 4·2 min (n=6) respectively; the two-component models revealed similar differences between the rec hormone preparations. Collectively, rat recLH was eliminated significantly faster from the circulation than human recLH (P<0·0001). In contrast, the elimination of rat recFSH was significantly slower than that of human recFSH (P=0·02).In conclusion, rat recFSH and rat recLH display lower biopotencies per unit mass than the respective human hormones in vitro, and also in vivo for LH. This is paralleled by shorter T Y of rat recLH than the respective human hormone in the circulation, whereas human recFSH has a shorter T Y than human FSH. The special functional features of the rat rec gonadotropins emphasize the use of these preparations on studies of gonadotropin function in the rat, an important animal model for reproductive physiology.

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Recombinant rat luteinizing hormone; production by Chinese hamster ovary cells, purification and functional characterization

Hakola

Boogaart

Mulders

et al. 1997

Molecular and Cellular Endocrinology

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K Hakola

Recombinant rat follicle-stimulating hormone; production by Chinese hamster ovary cells, purification and functional characterization

Dose and Time Relationships of Intravenously Injected Rat Recombinant Luteinizing Hormone and Testicular Testosterone Secretion in the Male Rat1

Recombinant forms of rat and human luteinizing hormone and follicle-stimulating hormone; comparison of functions in vitro and in vivo

Recombinant rat luteinizing hormone; production by Chinese hamster ovary cells, purification and functional characterization

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