Pubertal Onset Occurs in Female Mice Lacking Paternally Expressed Dlk1 Despite Lower Leptin and Kisspeptin Levels

The timing of puberty in females is highly sensitive to metabolic cues and energy reserves. Epidemiologic studies indicate a relationship between increased body mass index and earlier puberty in girls. In contrast, a significant delay in puberty and menarche is seen in girls who have diminished body fat. Multiple peripheral hormones are responsible for transmitting metabolic information to hypothalamic kisspeptin and GnRH neurons. Sufficient levels of leptin, an adipose tissue hormone with a permissive/stimulatory effect on the metabolic control of reproduction, are required for puberty onset, reproductive function and fertility. Loss-of-function mutations in the Delta-like homolog 1 (DLK1) gene have been described in girls with central precocious puberty (CPP) and increased body fat, suggesting a link between metabolism and reproduction. DLK1 is a paternally expressed gene located on human chromosome 14q32.2 in a locus associated with Temple syndrome (TS). Dlk1 knockout mice display pre- and postnatal growth retardation, a phenotype that overlaps with TS. We have shown that Dlk1 deficient female mice achieved puberty at the same age as wild type mice, despite a considerably lower body weight (BW) (“relative precocious puberty”). To date, the mechanisms of action of Dlk1 in determining pubertal onset remain unknown. In this study, we used a Dlk1 deficient mouse model to explore the influence of Dlk1 in the regulation of reproductive axis, particularly its effects on leptin and/or kisspeptin, a major excitatory factor of the reproductive axis. By RT-qPCR and Western blot, we confirmed that both Dlk1 mRNA and protein were undetectable in the mediobasal hypothalamus (MBH) of Dlk+/p- (which inherited the mutant allele from their father), but it was present in Dlk+/+ mice. White adipose tissue (WAT) and blood were collected from Dlk+/p- and Dlk+/+ female mice at postnatal day (PND) 26, and MBH tissue was obtained from both groups at PND 15, 26 and 60. Quantification of total WAT showed no significant difference between Dlk1+/p-and Dlk1+/+ mice (p=0.8) at PND26, even after correction for total BW (p=0.29). Hypothalamic mRNA levels of Kiss1 and Socs3, a downstream mediator of leptin signaling, were measured by RT-qPCR. Kiss1 mRNA levels were significantly reduced in the MBH of Dlk1+/p- mice at PND15 and PND60, but no significant difference was found at PND 26. Socs3 expression was significantly lower in Dlk1+/p- mice (p=0.04) as a result of the reduced circulating levels of leptin (ELISA) observed in these mice at PDN26 (p=0.01). Our findings suggest that the absence of Dlk1 may attenuate the metabolic effects of low body weight and low leptin levels on puberty onset and that, as seen in humans, DLK1 is an important link between body weight and pubertal development. Finally, Dlk1 deficiency leads to activation of the reproductive axis despite lower levels of kisspeptin.