Robin H. Mortimer

Thyroid hormones and fetal neurological development

The development of fetal thyroid function is dependent on the embryogenesis, differentiation, and maturation of the thyroid gland. This is coupled with evolution of the hypothalamic-pituitary-thyroid axis and thyroid hormone metabolism, resulting in the regulation of thyroid hormone action, production, and secretion. Throughout gestation there is a steady supply of maternal thyroxine (T(4)) which has been observed in embryonic circulation as early as 4 weeks post-implantation. This is essential for normal early fetal neurogenesis. Triiodothyronine concentrations remain very low during gestation due to metabolism via placental and fetal deiodinase type 3. T(4) concentrations are highly regulated to maintain low concentrations, essential for protecting the fetus and reaching key neurological sites such as the cerebral cortex at specific developmental stages. There are many known cell membrane thyroid hormone transporters in fetal brain that play an essential role in regulating thyroid hormone concentrations in key structures. They also provide the route for intracellular thyroid hormone interaction with associated thyroid hormone receptors, which activate their action. There is a growing body of experimental evidence from rats and humans to suggest that even mild maternal hypothyroxinemia may lead to abnormalities in fetal neurological development. Our review will focus on the ontogeny of thyroid hormone in fetal development, with a focus on cell membrane transporters and TR action in the brain.

Regulation of hypoxia inducible factors (HIF) in hypoxia and normoxia during placental development.

During the first trimester of pregnancy the human placenta develops in an hypoxic environment caused by the occlusion of uterine spiral arterioles by extravillous trophoblasts (EVT). This period of low oxygen tension is crucial for successful pregnancy. In low oxygen environments, Hypoxia Inducible Factors (HIF) are the main regulators in the transcription of a number of genes. Target genes can induce anaerobic processes, reducing oxygen consumption, or promote angiogenesis, which establishes and enhances the vascular environment. The HIFs can function throughout all stages of placental differentiation and growth both in normal and pathological pregnancies (compromised by hypoxia/ischemia). Interestingly, HIFs respond to a multitude of changes during pregnancy, including 1) low oxygen, 2) renin-angiotensin system (RAS), 3) cytokines, and 4) growth factors, all of which regulate placental function. This review explores oxygen-dependent and oxygen-independent regulation and the role of HIF in placental development and differentiation.

Steatohepatitis Associated With Limb Lipodystrophy

Two patients who presented with steatohepatitis had acquired partial lipodystrophy. This association has not previously been well documented. A common pathophysiological mechanism in lipodystrophy, obesity-associated nonalcoholic steatohepatitis, and alcoholic liver disease is possible.

Delivery of maternal thyroid hormones to the fetus

Thyroid hormones (THs) play an essential role in ensuring normal fetal development, particularly that of the central nervous system. Before 16 weeks gestation, the fetus relies solely on transplacental delivery of maternal T(4), and clinical studies suggest that even mild maternal thyroid hormone deficiency adversely affects the intellectual function of offspring. Maternofetal TH transfer is regulated by trophoblast cell membrane transporters, which mediate influx and efflux of THs, placental deiodinases D3 and D2, which control intraplacental TH levels, and TH-binding proteins (transthyretin), which provide transport roles in the placenta. This review discusses new information about mechanisms of transplacental delivery of T(4) to the fetus, providing insight into complex processes that are vitally important for normal fetal development.

Carrier-Mediated Thyroid Hormone Transport into Placenta by Placental Transthyretin

CONTEXT The serum protein transthyretin (TTR) plays an important role in the transport of thyroid hormone and retinol, which are critical for normal development of the human fetus. TTR is not only synthesized and secreted into the circulation by the liver and other tissues but is also synthesized by placental trophoblasts, which separate the maternal and fetal circulations. Whether it is secreted or taken up by these cells and whether it carries thyroid hormone is unknown. OBJECTIVE AND METHODS Our objective was to study placental handling of TTR and determine whether TTR participates in placental thyroid hormone transport. We investigated the capacity of human placenta and choriocarcinoma cell lines to secrete and internalize TTR and its ligands by Western blotting, immunofluorescence, and uptake of radiolabeled TTR. RESULTS Human placental explants and TTR expressing JEG-3 cells secrete TTR. JEG-3 cells grown in bicameral chambers secrete TTR, predominantly from the apical surface. Human placental explants and JEG-3 cells internalize Alexa Fluor488-labeled TTR and (125)I-TTR. Furthermore, binding to thyroid hormones (T(4), T(3)) increases (125)I-TTR uptake by enhancing tetramer formation. Cross-linking experiments confirm internalization of the TTR-(125)I-T(4) complex. CONCLUSIONS Our results suggest that human placenta and choriocarcinoma cells secrete transthyretin, which binds extracellular T(4), and that T(4) binding results in increased internalization of TTR-T(4) complex. TTR production by trophoblasts may represent a mechanism to allow transfer of maternal thyroid hormone to the fetal circulation that could have important implications for fetal development.

Psychological stress and blood glucose regulation in type I diabetic patients.

Fifteen Type I diabetic patients self-monitored daily mean blood glucose levels (BGL), psychological stress, diet, exercise, and insulin injections for a period of 8 weeks. Separate multiple-regression analyses were conducted for each subject to assess the predictability of BGL from stress reports, independent of the effects of diet, exercise, and insulin self-administration. Considerable individual variability in findings was evident, with stress predicting BGL in a statistically significant manner in 7 of the 15 subjects. Stress had a significant effect on BGL independent of diet, exercise, and insulin administration for each of these 7 subjects. Discussion focused on the problems of measuring the key self-management behaviors influencing BGL and on the possibility that a subgroup of diabetic patients may be BGL stress responders.

Markers of physical integrity and metabolic viability of the perfused human placental lobule

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Assessing quality of life in Australian patients with Graves’ ophthalmopathy

Aims: To determine quality of life and adequacy of education and counselling in Australian patients with Graves’ ophthalmopathy during the course of their illness. Methods: A cross sectional study was conducted at the orbital and endocrinology clinics of Royal Brisbane Hospital on 162 consecutive patients with Graves’ ophthalmopathy who were managed between the 1992 and 2000. The Graves’ ophthalmopathy quality of life (GO-QOL) survey modified for Australian conditions was distributed to study participants. Of the 19 questions asked, nine questions related to visual functioning, eight questions were about the psychosocial consequences of changed appearance, and two questions referred to education and counselling. Additionally, clinical data on the severity of illness were collected retrospectively from the medical notes of these patients. Results: Completed questionnaires were received from 128 patients. The majority of patients reported limitations in daily activities such as hobbies, driving, watching television and reading, as well as impaired self confidence. The mean GO-QOL scores in this study were (100 representing maximum QOL): visual functioning 59.0 (SD 28.0), psychosocial consequences of changed appearance 54.5 (28.4), and education and counselling 59.1 (38.8). Only about a quarter of patients indicated that education and counselling were adequate and helpful. Conclusion: Graves’ ophthalmopathy profoundly affects QOL and adequate education and counselling are essential for helping patients to cope with their illness. The GO-QOL survey is a simple, practical tool that can be used easily in a clinic to determine the QOL issues in subjects with Graves’ ophthalmopathy.

Metabolism of prednisolone by the isolated perfused human placental lobule

Previous studies of the metabolism of 11 beta-hydroxy corticosteroids by placental tissue have indicated that the only product is the C11-oxidized metabolite. In the present study we have re-examined the metabolism of prednisolone in the isolated, perfused, dual recirculating human placental lobule, using a perfusate based on tissue culture medium 199. Four metabolites were identified in both the maternal and fetal compartments in 6 h perfusions by comparison of relative retention times measured by HPLC and capillary gas chromatography (GC) and of mass spectra recorded by capillary gas chromatography-mass spectrometry (GC-MS) with those of authentic reference standards. The steroids were derivatized as the MO-TMS ethers for mass spectral measurements. Analysis of samples from five perfusion experiments resulted in the following percentage conversions after 6 h perfusion (mean +/- SD, maternal and fetal perfusate, respectively): prednisone (49.1 +/- 7.8, 49.1 +/- 6.6), 20 alpha-dihydroprednisone (0.84 +/- 0.29, 0.81 +/- 0.35), 20 beta-dihydroprednisone (39.1 +/- 6.7, 39.2 +/- 5.9), 20 beta-dihydroprednisolone (6.8 +/- 2.7, 6.3 +/- 1.6) and unmetabolized prednisolone (4.1 +/- 1.8, 4.6 +/- 2.1). No evidence was found for metabolites formed by 6 beta-hydroxylation or cleavage of the C17-C20 bond.

Histoplasmosis in Australia: Report of 16 Cases and Literature Review

We describe 16 previously unreported patients with histoplasmosis from Queensland and northern New South Wales, Australia, and review all previous Australian reports, providing 63 cases in total to study (17 cases of acute pulmonary histoplasmosis, 2 cases of chronic pulmonary disease, and 44 cases of systemic disease, including 17 cases of single-organ infection and 27 instances of disseminated disease). All acute pulmonary disease was acquired in Australia, with 52% of systemic disease definitely autochthonous. Most cases of single-organ disease occurred in immunocompetent patients (76%), and were oropharyngeal (53%) in location. Forty-one percent of disseminated disease occurred in patients with human immunodeficiency virus (HIV). Patients with HIV had high rates of systemic symptoms, pancytopenia, fungemia, and hepatosplenomegaly. Oropharyngeal and adrenal involvement as well as systemic symptoms were prominent in immunocompetent patients with disseminated disease, with 6 of 7 cases of adrenal involvement leading to Addison disease. Most systemic disease was diagnosed by culture of Histoplasma capsulatum. Where serology was assessed in cases other than acute pulmonary disease, it was positive in only 32%. Prognosis for patients with single-organ disease was excellent. Disseminated disease was associated with recurrence in 30% and death in 37%. The results of this study confirm several previously known patterns of disease but also provide new insights into this rare but endemic condition in Australia. Abbreviation: HIV = human immunodeficiency virus.