Folliculo-stellate (FS) cells are known to act as sustentacular cells or scavenger cells in the anterior lobe. However, the precise function and origin of FS cells are still under discussion. Like brain astrocytes, FS cells contain S-100beta protein, and FS cells can be detected immunocytochemically using antibodies for S-100beta protein after fixation; however, living FS cells can not be detected. The generation of transgenic rats expressing green fluorescent protein (GFP) under the control of S-100beta protein gene promoter may allow the detection of living FS cells, which may be an excellent tool for the study of FS cells. With the aim of generation of transgenic rats, we analyzed the promoter activity of the S-100beta gene and found that intron 1 is important for cell-specific expression of the S-100beta gene. Therefore, we obtained a DNA construct containing GFP gene under a part of the S-100 promoter with intron 1. We transfected the construct into rat embryos and succeeded in generating transgenic rats. The transgenic rats expressed GFP in FS cells specifically in the anterior lobe. GFP is also expressed in other known S-100beta-expressing cells, i.e. brain astrocytes, adipocytes, and chondrocytes. We believe that the newly generated transgenic rats will provide a new approach for the study of FS cells and other S-100beta protein-producing cells.
N-glycanase 1 (NGLY1) deficiency, an autosomal recessive disease caused by mutations in the NGLY1 gene, is characterized by developmental delay, hypolacrima or alacrima, seizure, intellectual disability, movement disorders and other neurological phenotypes. Because of few animal models that recapitulate these clinical signatures, the mechanisms of the onset of the disease and its progression are poorly understood, and the development of therapies is hindered. In this study, we generated the systemic Ngly1-deficient rodent model, Ngly1−/− rats, which showed developmental delay, movement disorder, somatosensory impairment and scoliosis. These phenotypes in Ngly1−/− rats are consistent with symptoms in human patients. In accordance with the pivotal role played by NGLY1 in endoplasmic reticulum-associated degradation processes, cleaving N-glycans from misfolded glycoproteins in the cytosol before they can be degraded by the proteasome, loss of Ngly1 led to accumulation of cytoplasmic ubiquitinated proteins, a marker of misfolded proteins in the neurons of the central nervous system of Ngly1−/− rats. Histological analysis identified prominent pathological abnormalities, including necrotic lesions, mineralization, intra- and extracellular eosinophilic bodies, astrogliosis, microgliosis and significant loss of mature neurons in the thalamic lateral and the medial parts of the ventral posterior nucleus and ventral lateral nucleus of Ngly1−/− rats. Axonal degradation in the sciatic nerves was also observed, as in human subjects. Ngly1−/− rats, which mimic the symptoms of human patients, will be a useful animal model for preclinical testing of therapeutic options and understanding the detailed mechanisms of NGLY1 deficiency.
Metastin/kisspeptin, a hypothalamic peptide, plays a pivotal role in controlling GnRH neurons. Here we studied the effect of chronic sc administration of two kisspeptin analogs, KISS1-305 and TAK-448, on hypothalamic-pituitary-gonadal function in male rats in comparison with a GnRH analogue leuprolide or bilateral orchiectomy (ORX). The prototype polypeptide, KISS1-305 (1-4 nmol/h), caused substantial elevations of plasma LH and testosterone, followed by abrupt reductions of both hormone levels. Notably, testosterone levels were reduced to castrate levels within 3 d and remained depleted throughout the 4-wk dosing period, an effect that was faster and more pronounced than leuprolide (1 nmol/h) dosing. KISS1-305 also reduced genital organ weight more profoundly than leuprolide. In mechanistic studies, chronic KISS1-305 administration only transiently induced c-Fos expression in GnRH neurons, suggesting that GnRH-neural response was attenuated over time. Hypothalamic GnRH content was reduced to 10-20% of control at 3 wk without any changes in Gnrh mRNA expression. Dosing with the investigational peptide TAK-448 was also studied to extend our understanding of hypothalamic-pituitary functions. Similar to ORX, TAK-448 (0.1 nmol/h) depleted testosterone and decreased GnRH content by 4 wk. However, in contrast to ORX, TAK-448 decreased gonadotropin levels in pituitary and plasma samples, implying the suppression of GnRH pulses. These results suggest that chronic administration of kisspeptin analogs disrupts endogenous kisspeptin signals to suppress intrinsic GnRH pulses, perhaps by attenuating GnRH-neural response and inducing continuous GnRH leakage from the hypothalamus. The potential utility of kisspeptin analogs as novel agents to treat hormone-related diseases, including prostate cancer, is discussed.
In order to study GH cell differentiation, we used the clonal cell lines called MtT/E and MtT/S cells, which were derived from a rat mammotrophic pituitary tumor. Although MtT/E cells are non-hormone-producing ones, Pit-1 protein is present in their nuclei, which suggests that MtT/E cells are progenitor cells of the Pit-1 cell lineage and have the potential to differentiate into hormoneproducing cells. On the other hand, MtT/S cells produce GH; however, the responsiveness to GH-releasing hormone (GHRH) is weak and only a small number of secretory granules are present in their cytoplasm, which suggests that MtT/S cells are premature GH cells. In order to differentiate into GH cells from MtT/E cells as a progenitor cell, we examined several differentiation factors and found that retinoic acid (RA) induced the differentiation of MtT/E cells into GH-producing cells. RAinduced GH cells partially matured with the glucocorticoid treatment; however, the responsiveness to GHRH on GH secretion was incomplete. In order to elucidate the mechanism underlying full differentiation of GH cells, we used MtT/S cells. We treated MtT/S cells with glucocorticoid and found that they differentiated into mature GH cells with many secretory granules in their cytoplasm and they responded well to GHRH. These results suggested that MtT/E and MtT/S cells are progenitor or premature GH cells, and show different responses to differentiation factors. Our data also suggested that GH cells differentiate from their progenitor cells through multistep processes.
These results suggest that an NMU2 receptor-selective agonist may be a well-balanced drug for the treatment of obesity and that an NMU1 receptor-selective agonist may also be beneficial for treating obesity and diabetes once its side effects are minimized.
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