J. Lado-abeal et al., Short-term leptin infusion does not affect circulating levels of LH, testosterone or cortisol in food-restricted pubertal male rhesus macaques, CLIN ENDOCR, 51(1), 1999, pp. 41-51
OBJECTIVES Although the adipocyte protein leptin has been implicated in the
control of reproductive function in rodents, its role in primate reproduct
ive physiology is poorly understood. Because primates in puberty show night
time LH secretion and there is considerable evidence that the fertile state
requires adequate nutrition, we reasoned that animals on the verge of repr
oductive competence would respond to leptin infusions by secreting LH. Food
restriction reduces circulating leptin levels and slows or stops the GnRH
pulse generator. Therefore, we examined the endocrine effects of leptin inf
usions in food-restricted male pubertal primates during the night when they
normally secrete LH. In addition, we investigated the effect of leptin on
in vitro testosterone production by Leydig cells.
SUBJECTS Four pubertal male rhesus macaques (Macaca mulatta), 4-5.5 kg in w
eight (2.5-4-year-old) were examined in this study. Leydig cells from adult
male rats were to investigate in vitro effects of leptin,
DESIGN To document that animals had entered puberty, blood samples were col
lected from each of the four animals at 15-minute intervals for 15h both du
ring the day and at night. Since at this age animals secrete LH mainly at n
ight, blood samples were collected at 15-minute intervals from each of the
four animals on two separate occasions for 15h between 1500 and 0600h. Duri
ng the experiment, animals were feeding from 0800 to 0830h, cages were comp
letely cleaned of food at 0900h and the afternoon meal was not given to ind
ividual animals on the day they were studied. One of the studies served as
the control (food restricted group) and during the other, 2 mg (n=4) or 0.3
mg (n=3) of recombinant human leptin was administered intravenously during
2000-0100h (food restricted plus leptin group), Blood samples (1 ml) were c
ollected through the indwelling catheter and immediately transferred from t
he plastic syringe into chilled glass tubes containing 10 mu l 14% EDTA. Th
e samples were centrifuged at 5-h intervals and the plasma withdrawn and st
ored frozen at -20 degrees C in polypropylene vials until assays were perfo
rmed.
MEASUREMENTS Bioactive LH was determined and testosterone, cortisol and lep
tin were measured by radioimmunoassay.
RESULTS During daytime experiments in these animals, LH pulses were sometim
es observed late in the day and generally continued for 12-15h, Food-restri
cted pubertal males showed delayed or absent LH pulses. Short-term leptin a
dministration to food-restricted male rhesus macaques had no effect on LH,
testosterone, or cortisol levels either during or after the infusion. Lepti
n also had no direct effect on basal or LH-stimulated testosterone producti
on in Leydig cells.
CONCLUSIONS Our data support the notion that leptin is not the missing sign
al for the acute suppression of reproductive hormones secretion in food-res
tricted primates.