In the present study to analyze the role of ACTH in fetal tissues and organs, we observed the expression of melanocortin type 2 (MC2) and 5 (MC5) receptors in ICR mouse embryos from E11.5 to E18.5 by immunohistochemistry. In the adrenal gland and testis, both receptors were expressed from E13.5 to E18.5. In the genital ridge and the ovary, melanocortin type 2 receptors (MC2R) was detected from E11.5 to E12.5 and from E13.5 to E18.5, respectively, while melanocortin type 5 receptors (MC5R) was not detected. In the mesonephros, MC2R and MC5R were expressed from E11.5 to E12.5, and in the metanephros, MC2R and MC5R were expressed from E12.5 to E18.5 and from E14.5 to E18.5, respectively. In the lung, MC2R was expressed from E11.5 to E14.5, but MC5R was not expressed at all. In blood cells, MC5R was detected at all stages examined, while MC2R was detected at none. MC2R was observed in the brain and spinal cord from E11.5 to E13.5, while MC5R was detected only in the telencephalon and only from E16.5 to E18.5. At different temporal patterns, MC2R, but not MC5R, was detected in the choroid plexus, while MC5R, but not MC2R, was expressed in the liver and in the nasal epithelium, and both MC2R and MC5R were expressed in the dorsal root ganglion and the trigeminal ganglion. These findings show the spatio-temporal specific expression patterns of MC2R and MC5R in the mouse embryo and suggest that ACTH may be related to histogenesis and/or prenatal function of various tissues and organs via MC2R and/or MC5R.
Leukemia inhibitory factor contributes to the self-renewal of neural stem cells in the forebrain. Although the existence of endogenous leukemia inhibitory factor in the brain parenchyma has been controversial, the cerebrospinal fluid is known to be another source of leukemia inhibitory factor. No reports of the measurement of leukemia inhibitory factor concentrations in the cerebrospinal fluid, however, exist. In the present study, we determined the leukemia inhibitory factor concentration in cerebrospinal fluid, amniotic fluid, and sera of embryos and dams in mice by enzyme-linked immunosorbent assay. The leukemia inhibitory factor concentrations were found to be constitutively high in the cerebrospinal fluid from embryonic day 11 to embryonic day 17, with a peak on embryonic day 13 and embryonic day 14. These findings correspond to the timing of cortical neuron production in mouse cerebrum.
Three novel macrocyclic diterpepoids, 4,7-oxycyAbstract: The total synthesis of ethyl 3-carboline-1-propionate has been described and its ability to bind toward benzodiazepine and GABA receptors has been studied. It has been suggested that j3-carboline-1-propionic acid is the true natural product, its ester derivatives are only artefacts of the isolation procedure.
Morphological studies of congenital anomalies have mainly focused on abnormal shape (i.e. malformation) and thus on disturbed organogenesis. However, in regard to postnatal functions of organs that develop through branching mechanisms, organ size is another important morphological feature. These organs consist of a large number of structural and functional units, such as nephrons in the kidney, and the total number of these units, that is approximately proportional to the organ size, has been shown to vary widely among individuals. Organ‐specific cells are differentiated and organized to form structural units and realize organ‐specific functions during the histogenetic period (i.e. from mid‐gestation to the early postnatal period). The total number of units is attained at the end of histogenesis and determines the total functional capacity, including the functional reserve of the organ, and thus may be related to predispositions to postnatal organ‐based diseases, because the functional reserve decreases during the course of life and eventually become short of the minimum requirement of each organ. Therefore, it may be hypothesized that a smaller number of units of organs at the end of histogenesis is one of the predisposing factors for postnatal diseases (i.e. a form of unnoticed but late‐manifested congenital anomalies), in this era of extended longevity. However, the mechanisms that control the total number of units in each organ during histogenesis and the possible relationship among the numbers of units in different organs remain unknown. Here, we review our trials based on the above hypothesis in order to (1) mathematically analyze the morphometric data of the different organs in fetuses to elucidate relationship among developing organs, (2) analyze the developing neuro‐immuno‐endocrine network as a series of mechanisms to systemically correlate the histogenesis of multiple organs, and (3) examine the maternal environment, including dietary fat, as a factor to influence histogenesis and thus the predisposition to type 1 diabetes.
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