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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The mouse pituitary cell line, AtT-20, packages the
adrenocorticotropic hormone (ACTH)
in secretory vesicles and releases it when the cell is stimulated with secretagogues. These cells have the capacity, after transfection with the appropriate DNA, to package heterologous peptide hormones into the regulated secretory vesicles (
Moore
, H. P. H., M. D. Walker, F. Lee, and R. B. Kelly, 1983, Cell, 35:531-538). To test if other secreted proteins prefer a different route to the surface, we have transfected AtT-20 cells with DNAs coding for a fragment of a membrane protein, the vesicular stomatitis virus G protein from which the membrane spanning domain has been deleted (Rose, J. K., and J. E. Bergmann, 1982, Cell, 17:813-819). We found that the secreted vesicular stomatitis virus G proteins were not transported to the regulated secretory vesicles. Instead they preferentially exited the cell by the constitutive pathway previously found in these cells (Gumbiner, B., and R. B. Kelly, 1982, Cell, 28:51-59). In contrast, human growth hormone transfected into the cells by the same procedure was transported to the regulated pathway with a similar efficiency as the endogenous hormone ACTH. Transport of the secreted G protein to the regulated pathway, if it occurs at all, is at least 30-fold less efficient than peptide hormones. We conclude that the transport machinery in AtT-20 cells must selectively recognize different secreted proteins and sort them into distinct secretory pathways.
...
PMID:Secretory protein targeting in a pituitary cell line: differential transport of foreign secretory proteins to distinct secretory pathways. 299 34
A mouse anterior pituitary tumor cell line (AtT-20) that secretes
adrenocorticotropin
and beta endorphin sorts the proteins it transports to the surface into two exocytotic pathways. AtT-20 cells also synthesize a secretory granule-specific sulfated molecule and secrete it on stimulation (
Moore
, H.-P., B. Gumbiner, and R. B. Kelly, 1983, J. Cell Biol., 97:810-817). We show here that this molecule is sensitive to proteolysis and that the residual sulfated material co-migrates with a chondroitin sulfate standard on thin-layer electrophoresis. Furthermore, this sulfated molecule is completely sensitive to chondroitinase ABC digestion. Thus the secretory granule-specific sulfated molecule is a proteoglycan with chondroitin sulfate side chains. We examined the role of proteoglycans in the sorting and secretion of
adrenocorticotropin
in AtT-20 cells by severely decreasing the amount of this vesicle-specific proteoglycan in two ways. First, a xyloside was used to inhibit proteoglycan biosynthesis; second, a variant of the AtT-20 cell line was isolated that synthesized little of the sulfated proteoglycan. In neither case was the sorting or secretion of
adrenocorticotropin
detectably altered, suggesting that the proteoglycan is not required for these processes.
...
PMID:Sorting and secretion of adrenocorticotropin in a pituitary tumor cell line after perturbation of the level of a secretory granule-specific proteoglycan. 609 92
The triple A or Allgrove's syndrome (MIM*231550) is an autosomal recessive disease characterized by the triad of
adrenocorticotropic hormone (ACTH)
resistant adrenal insufficiency, achalasia and alacrima. Since its first description by Allgrove et al. (1978) more than 70 cases from all over the world have been reported. The syndrome manifests itself during the first decade of life with severe hypoglycaemic episodes which can cause sudden death. The frequent association with neurological disorders presenting as a mixed pattern of upper and lower motor neuropathy, sensory impairment, autonomic neuropathy and mental retardation may result in a severely disabling disease. As an additional feature some patients have hyperkeratosis of their palms and soles. We have performed a systematic genome linkage scan in eight triple A families of which three were consanguineous [including the large highly inbred kindred described by
Moore
et al. (1991)]. We obtained conclusive evidence for linkage of the triple A syndrome locus to markers on chromosome 12q13 (D12S368, theta max = 0, Zmax = 10.81) with no indication of genetic heterogeneity. Haplotype and multipoint analyses suggest that the gene is located on a chromosomal segment flanked by the markers D12S1629 and D12S312 which are 6 cM apart. This region harbors the type II keratin gene cluster, and potential candidate genes include SCN8A and HOXC genes.
...
PMID:Linkage of the gene for the triple A syndrome to chromosome 12q13 near the type II keratin gene cluster. 896 64
Although women were welcomed into medical practice in increasing numbers by the close of the nineteenth century, it was not until the second quarter of the twentieth century that they were recognised as valuable collaborators and contributors in the nascent field of neuroendocrinology, wherein they soon made advances that have stood the test of time. Mary Pickford at Edinburgh measured the action of acetyl choline in the supraoptic nucleus of the hypothalamus and helped to establish that vasopressin and oxytocin are formed in separate and distinct neurons. Berta Scharrer, like her future husband Ernest Scharrer, was born in Munich. Their great contribution was the proof that the posterior pituitary is not a gland, but the location of the release into the circulation of vasopressin and oxytocin from fibres in the hypothalamico-hypophysial tract. Their work succeeded in establishing against high-powered, vehement opposition the value of histological evidence in elucidating synthesis, storage and release of secretion from neuro-endocrine cells. A Rockefeller travelling fellowship allowed Marthe Vogt to move from Berlin in 1932 to London and then to Cambridge. The relations between the cortex and medulla of the suprarenal gland and the control of
adrenocorticotropin
were her main concerns. Dora Jacobsohn emigrated to Sweden after graduating in Berlin in 1934. She investigated control of the anterior pituitary gland by the hypothalamus, and co-operated with Geoffrey Harris in establishing the role of the hypothalamico-hypophysial portal venous system that conveys the releasing factors that preside over anterior pituitary cells. Laboratory discoveries do not constitute the whole of science, for the interpretation of evidence and recognition of general principles deserve attention. Dorothy Price, from Aurora, Illinois, received her BS in 1922 at the University of Chicago, and was glad to find employment as a histology technician in the zoology laboratory, where she was quietly appropriated by Carl
Moore
(1892-1955), an investigator seeking the key to hormonal control of gonadal function. The burning question was the part played by what was (then) called hormone antagonism in the biology of the testis. Price recognised that the common factor in explaining the deleterious effects of oestrin and testosterone on the testes could be traced to the anterior pituitary: the pituitary controlled testicular secretion, and the male hormone in turn controlled gonadotropin release in the pituitary. This seesaw balance explained the problem, and was the first of many regulatory systems to be recognised as ensuring stability--and later became known as negative feedback. The contributions of these five women helped place neuro-endocrinology on a firm foundation for its later expansion.
...
PMID:First ladies in laying the foundation of neuroendocrinology. 2258 Oct 99
