Placental iodothyronine deiodinase expression in normal and growth-restricted human pregnancies.

We have described the expression of specific iodothyronine deiodinase mRNAs (using quantitative RT-PCR) and activities in normal human placentas throughout gestation and compared our findings to those in placentas from pregnancies affected by intrauterine growth restriction (IUGR). The predominant deiodinase expressed in placenta was type III (D3); type II (D2) was also present. In general terms, the activities of the enzymes D2 and D3 (and mRNAs encoding these enzymes) were higher earlier in gestation (<28 wk) than at term and displayed an inverse relationship with the duration of gestation (P < 0.05). Comparison of the relative expressions of mRNAs encoding D2 and D3 as well as their activities in placentas associated with IUGR (early and late gestational groups) with findings from normal placentas of similar gestational ages revealed no significant differences. Immunolocalization of D2 and D3 in syncytiotrophoblast (including syncytial sprouts) and cytotrophoblast of human placentas was demonstrated at both early and late gestation. Treatment of primary cultures of term cytotrophoblast cells in vitro with increasing doses of T(3) (1, 10, and 100 nM) resulted in increased expression of mRNAs encoding both D2 and D3 at 100-nM concentrations (P < 0.01) compared with control. Experiments with JEG-3 choriocarcinoma cells demonstrated a similar effect on D3 mRNA at 10 and 100 nM T(3) (P < 0.01). The demonstrated changes in iodothyronine deiodinase expression in the placenta across pregnancy are likely to contribute to regulation of the thyroid hormone supply to the developing fetus. The lack of difference in deiodinase expression in normal placentas and those found in IUGR argues against placental deiodinases being responsible for the hypothyroxemia in circulating fetal thyroid hormones observed in this condition.

A potential role for PTTG/securin in the developing human fetal brain.

Human securin, known also as PTTG, has established oncogenic and cell cycle regulatory functions. PTTG/securin transforms cells in vitro, inhibits sister chromatid separation, and regulates secretion of fibroblast growth factor-2. FGF-2 is a key regulator of CNS development and PTTG/securin expression has been reported in murine fetal brain. We examined the expression and function of securin and FGF-2 in the developing human fetal brain and in a fetal neuronal cell line (NT 2). Securin expression was significantly reduced in first and second trimester fetal cerebral cortex compared with adult cerebral cortex, where immunocytochemistry revealed intense securin staining in neuronal cell bodies. FGF-2 protein was concordantly lower in fetal cortex, whereas pretranslational expression of PTTG binding factor (PBF) was not significantly altered in fetal brain compared with adult. PCNA expression demonstrated that high securin levels in adult cortex were associated with absent cell proliferation. In NT-2 cells, securin stimulated FGF-2 expression, which could be abrogated by a carboxyl-terminal mutation. Low transient expression of securin resulted in a significant proliferative effect, whereas high levels of securin expression inhibited cell turnover. We propose a potential role for human PTTG/securin in modulating cell proliferation and FGF-2 expression during human neurogenesis.

Dysregulation of iodothyronine deiodinase enzyme expression and function in human pituitary tumours.

OBJECTIVE: Thyroid hormones (THs) perform essential roles in pituitary function. They regulate anterior pituitary hormone secretion and are also key determinants of pituitary cell proliferation and differentiation. The critical role of deiodinase enzymes, which serve as prereceptor regulators of TH action, remains largely unexplored. Three deiodinase enzymes metabolize active and inactive THs and thereby determine tissue concentrations of the biologically active ligand, tri-iodothyronine (T3). We hypothesized that aberrant expression of deiodinase enzymes and/or altered enzyme activity in pituitary tumours may change tissue concentrations of THs and influence their growth and secretory characteristics. STUDY DESIGN AND PATIENTS: We studied 105 pituitary tumours and 10 normal pituitaries for expression of deiodinase enzyme mRNAs encoding types 1 (D1), 2 (D2) and 3 (D3) using real-time RT-PCR. Enzyme activity data from 20 pituitary samples were also obtained. RESULTS: Pituitary tumours expressed significantly increased D3 mRNA (6.5-fold, P < 0.0005) compared with normal pituitaries. D2 mRNA was also increased 2.6-fold (P = 0.005) in pituitary tumours compared with normals. The rare TSH-secreting pituitary tumour subtype expressed a 13.1-fold excess of D3 mRNA and reduced D2 mRNA (0.1-fold of normal pituitaries). D2 mRNA expression in ACTH-secreting tumours was similarly reduced to 0.1-fold that in normal pituitaries. CONCLUSIONS: Pituitary adenomas express abnormal levels of deiodinase enzymes compared to normal pituitaries. These abnormalities may have functional consequences on pituitary tumour growth. In the case of TSH-secreting pituitary adenomas, the observed pattern of deiodinase mRNA expression may explain the 'resistance' of this tumour type to TH feedback.

Effects of temporary cooling, and of different explantation and storage conditions, on the subsequent development of post-implantation rat embryos in vitro.

Rat embryos explanted at head fold stage were stored under various levels of hypothermia prior to culture. The storage media were Hanks' Balanced Salt Solution (BSS), 50% rat serum with 50% Dulbecco's Modification of Eagle's Medium (standard medium), or 100% rat serum. The media were gassed with 5% O2/5% CO2/90% N2 or 20% O2/5% CO2/75% N2. Subsequent development of embryos after storage at temperatures between 10 degrees C and 30 degrees C for 5 hr in Hanks' BSS, or for 5-10 hr in standard medium or serum, was similar to that of controls. Some embryos developed well even after storage for 48 hr in standard medium. Development was poorer after storage at 0 degrees C or 5 degrees C, and after storage at all temperatures in ungassed Hanks' or standard medium (pH greater than 8.0). Differences in oxygen level had little effect. For routine explantation at room temperature in (ungassed) phosphate-buffered saline solutions such as Hanks', it is recommended that the delay before transferring the embryos to the culture incubator not exceed 2-3 hr.