Child Development Clinical Trial
Official title:
COPENHAGEN Minipuberty Study
Minipuberty is a term used to describe the transient activation of the pituitary-gonadal axis
2-3 months after birth in both boys and girls. It is, however, not known why infants reach
adult levels of reproductive hormones in early life, nor is the exact timing of the peak
known. Furthermore, what determines the timing of peaks and suppressions of reproductive
hormones from infancy throughout childhood and into adolescence remains to be elucidated.
The study aims to described and evaluate dynamic changes in the hypothalamic-pituitary-
gonadal axis in early postnatal life.
Minipuberty is a term used to describe the transient activation of the pituitary-gonadal axis
2-3 months after birth in both boys and girls. It is, however, not known why infants reach
adult levels of reproductive hormones in early life, nor is the exact timing of the peak
known. Furthermore, what determines the timing of peaks and suppressions of reproductive
hormones from infancy throughout childhood and into adolescence remains to be elucidated.
Few studies have investigated minipuberty and one, for example, found that it is affected in
premature infants (before gestation week 37). However, no studies on normative data
throughout minipuberty in infants exist.
Furthermore, using minipuberty as a window for diagnosis of endocrine disorders and future
reproductive function has been suggested. Defining minipuberty, both in terms of circulating
hormone levels and urinary metabolites, in healthy infants is therefore essential in order to
utilize this window. Studies using patients with Disorders of Sex Development during
minipuberty have been carried out, but they are hampered by small sample sizes and lack of
control groups.
In addition, little is known about the genetic and epigenetic factors that drive the onset,
progression and termination of minipuberty as well as the actual puberty, i.e. the factors
responsible for the quiescence of the HPG axis during childhood and the dis-inhibition
responsible for pubertal onset. Therefore, much attention was drawn on the study performing
whole exome sequencing in patients and relatives with central precocious puberty (CPP). For
the first time, MKRN3 was suggested as the primary factor responsible for HPG inhibition
during mid-childhood. A number of studies support that MKRN3 mutations cause CPP, and genetic
variation of MKRN3 affect pubertal timing in healthy girls. Our findings of declining serum
levels of MKRN3 prior to pubertal onset in healthy girls support MKRN3 as a regulator of
pubertal onset. The exact mechanism through which MRKN3 exceeds its effect remains to be
elucidated; however, its zink-finger structure indicates regulation of superior cellular
processes such as epigenetic regulation of DNA transcription.
Twin studies suggest that 60% of the inter-individual variation is caused by genetic factors.
However, genome wide association (GWA) studies only explain a fraction of the variation in
age at puberty. Recently, our research group has revealed the largest effect of a single SNP
on age at pubertal onset in girls. The location of the SNPs in genes regulating FSH action
emphasizes the need of a wide focus including downstream processes in the HPG axis when
evaluating factors regulating puberty.
In general, the abovementioned studies have led to a spark in the interest in epigenetic
studies, i.e. studies of genetic changes that are not caused by changes in the DNA sequences
themselves, but rather regulatory mechanisms of DNA expression. Generally, this is thought to
include DNA methylation, histone modifications and small RNAs. Epi-mutations (improper
epigenetic regulation) possibly account for more of the variation in puberty than genetic
factors. Previously, both gene-specific and genome-wide DNA methylation patterns have been
studied. Genome-wide hypomethylation seen in peripheral leukocytes has been shown to be
linked with an array of cancers, including colorectal cancers. As multiple histone
modifications exist and analysis requires special sample treatment procedures, DNA
methylation is the most appropriate epigenetic marker to analyze. A study of rats found that
specific gene hypomethylation was accountable for lack of pubertal onset, but the link
between epigenetics and mini- and pubertal timing and progression has, however, only scarcely
been studied. Understanding this link would greatly add to our knowledge of reproductive
function and normal sex development.
Disorders of Sex Development (DSD) is an umbrella term covering conditions with congenital
disordered development of chromosomal, gonadal or anatomical sex. Genital abnormalities may
include as many as up to 4-6 in 1000 births, although individual disorders are much rarer,
e.g. 45,X/46,XY mosaicism is seen in about 1 in 15000 live births. Previously DSD diagnoses
were labeled with different and often imprecise terms such as 'intersex', 'sex reversal' and
'hermaphroditism' etc. In 2006, DSD nomenclature was renamed and grouped according to genetic
sex into sex chromosome DSD, 46,XY DSD and 46,XX DSD.
DSD patients are diagnosed at different periods in life depending on their diagnosis,
phenotype and primary and secondary sexual development. Patients with sex chromosome DSD can
be diagnosed at prenatal screenings, patients with affected external genitalia at birth, some
during childhood due to growth abnormalities, some during adolescence due to abnormal
pubertal progression and lastly, some in adulthood due to infertility.
Understanding normal sex development is therefore the key to identifying and optimizing
diagnosis and treatment of patients with DSD. A project, as the present, that seeks to
investigate normal minipuberty while comparing to minipuberty in patients with DSD is
therefore of great importance. Furthermore, knowledge of the genetic and epigenetic control
mechanisms of minipuberty will aid the understanding of reproductive physiology and in
particular DSD pathology.
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