Are the Effects of DES Over? A Tragic Lesson from the Past.

Diethylstilbestrol (DES), a transplacental endocrine-disrupting chemical, was prescribed to pregnant women for several decades. The number of women who took DES is hard to know precisely, but it has been estimated that over 10 million people have been exposed around the world. DES was classified in the year 2000 as carcinogenic to humans. The deleterious effects induced by DES are very extensive, such as abnormalities or cancers of the genital tract and breast, neurodevelopmental alterations, problems associated with socio-sexual behavior, and immune, pancreatic and cardiovascular disorders. Not only pregnant women but also their children and grandchildren have been affected. Epigenetic alterations have been detected, and intergenerational effects have been observed. More cohort follow-up studies are needed to establish if DES effects are transgenerational. Even though DES is not currently in use, its effects are still present, and families previously exposed and their later generations deserve the continuity of the research studies.

Selegiline (deprenyl) decreases calbindin-D28k expression in cortical neurons of rats socially deprived during the post-weaning period.

Preclinical studies indicate that selegiline (deprenyl), frequently used in some neurodegenerative diseases, exert protective effects on central nervous system neurons of individuals exposed to social isolation (SI). Furthermore, it has been suggested that SI produces neuronal dysfunction due in part to an excessive intracellular Ca(2+) overload. Since the main intracellular Ca(2+) buffering mechanism involves changes in the calcium-binding protein calbindin-D28k (CB), and that CB neuronal expression can increase in response to Ca(2+) transients, we hypothesized that chronic selegiline administration in early socially isolated animals could minimize cell CB expression as an indirect indicator of protective mechanism against Ca(2+) overload. In the present study male rats were weaned at postnatal day 21 (P21) and randomly assigned to social deprivation (SI) or control (SC) environments for 30 days (P21-51). SI animals were further subdivided in two experimental groups: socially deprived-saline (SI-SAL) and socially isolated-selegiline (SI-SEL) for additional 30 days (P52-82). Medial frontal CB immunoreactivity (CB-ir) neurons were quantitatively and qualitatively analyzed. The results obtained indicate that neocortical cells of adult rats submitted to early SI show a significant increase in the number of CB-ir neurons per cortical field, while selegiline treatment significantly reduces this parameter.

Early social isolation decreases the expression of calbindin D-28k and dendritic branching in the medial prefrontal cortex of the rat.

Social isolation in rodents is the most well characterized animal model for early stressful experiences and their neurobehavioral consequences. The present study analyzed the effects of early social isolation on the expression of the calcium binding protein calbindin-D28k (CAD) and dendritic arborization in the medial prefrontal cortex (mPFC) of the rat. Sprague-Dawley male rats were reared either under isolation or social conditions from 21 to 51 postnatal days. At the end of this period the animals were behaviorally evaluated in the open-field test, sacrificed, and mPFC serial sections were processed either for immunocytochemical labeling against CAD or Golgi-Cox-Sholl staining. Isolated-reared rats exhibited a dramatic decrease in the number of CAD immunoreactive neurons and a significant dendritic atrophy of layer II/III pyramidal cells in association with a reduced exploratory behavior.