Analysis of TTF-1 and EAP1 genes in patients with central pubertal disorders and neurologic and neurocognitive evaluation of patients with hypothalamic hamartoma

GnRH secretion control involves multiple neuronal pathways. Animal studies have identified genes which codifies transcription factors, such as TTF-1 (thyroid transcription factor 1) and EAP1 (enhanced at puberty), that act in the transcriptional control of genes that codifies excitatory (KiSS1 and GnRH) and inhibitory factors (preproenkephalines) regulating GnRH secretion. In nonhuman primates, expression of EAP1 and TTF-1 are increased at the hypothalamic regions involved in GnRH secretion, at the beginning of puberty. In animal models, post-natal TTF-1 deletion and silencing of EAP1 lead to pubertal delay and damage of reproductive function. TTF-1 is also involved in diencephalic morphogenesis, through signalization via Sonic-Hedgehog family. Abnormalities in GnRH secretion are responsible for pubertal disorders, varying from central precocious puberty (CPP) to hypogonadotropic hypogonadism. We hypothesized that genetic anomalies at TTF-1 and EAP1 are involved in the pathogenesis of central pubertal disorders. CPP may be idiopathic or due to organic alterations and hypothalamic hamartoma, a non-neoplasic congenital malformation, is the most frequent known organic cause. Patients with CPP due to hypothalamic hamartoma may have neurological and cognitive disfunctions. Our aims were: to evaluated the codifying region of TTF-1 and EAP1 and the promoter region of TTF-1 in patients with central pubertal disorders; to establish the prevalence, penetrance rate and inheritance mode of familial CPP and to characterize neurologic and neurocognitive aspects of patients with CPP due to hypothalamic hamartoma. We selected 133 patients with central pubertal disorders idiopathic CPP (n=71), CPP due to hypothalamic hamartoma (n=15) and normosmic isolated hypogonadropic hypogonadism (nIHH) (n=47) - and controls (n=53). TTF-1 and EAP1 genes were amplified and sequenced. Polyglutamine and polyalanine tracts of EAP1 were studied by a fragment size analyser software (GeneScan). Neurologic and neurocognitive evaluation of CPP patients due to hypothalamic hamartoma consisted of neurologic exam, electroencephalogram, brain magnetic resonance and application of intelligence scale (WISC-III, WAIS-III, WPPSI-R). We identified 25% of familial CPP cases with autosomal dominant mode of inheritance and penetrance rate of 67.5%. No TTF-1 allelic variants were identified in the patients analysed. At EAP1 gene, four synonimous allelic variants were identified: p.E87E, p.A163A, p.Y415Y and a new allelic variant p.C758C, found in CPP and nIHH patients. The allelic and genotypic distribution of theses variants of EAP1 did not differ among patients with CPP and nIHH, and controls (p >0.05). At polyglutamine and 5 distal polyalanine region, similar glutamine and alanine repeats variation was found. No significative difference of allelic frequency distribution regarding the number of glutamines and alanines repeats was found among the studied groups (p >0.05). Neurologic evaluation of CPP patients due to hypothalamic hamartoma revealed epilepsy and focal crisis with generalization in 3/15 (20%) of the patients. No significant difference between the median of the larger diameter of hypothalamic hamartoma of CPP patients with and without epilepsy was found (10 mm and 13 mm, respectively). Regarding the shape, 10 hamartomas were sessile and 5 pedunculated, and the pedunculated shape was found only in non epileptic patients. Neurocognitive evaluation performed in 11 of the 15 patients with CPP due to hypothalamic hamartoma detected 2 patients with epilepsy whose IQ were significantly lower than the IQ found in the group without epilepsy (p <0.05). In conclusion, (i) the considerable prevalence of familial CPP cases reinforce the influence of genetic factors in human puberty; (ii) germinative mutations in TTF-1 and EAP1 are not involved in the pathogenesis of central pubertal disorders; (iii) reduced neurocognitive function in patients with hypothalamic hamartoma and epilepsy suggests a deleterious effect of crisis at the central nervous system (AU)