https://transhumanist.ru/index.php?action=history&feed=atom&title=MAP2K1 2026-04-07T23:24:19Z История изменений этой страницы в вики MediaWiki 1.43.6 https://transhumanist.ru/index.php?title=MAP2K1&diff=5493&oldid=prev 2021-05-12T13:46:32Z

<p>Новая страница: «Dual specificity mitogen-activated protein kinase kinase 1 (EC 2.7.12.2) (MAP kinase kinase 1) (MAPKK 1) (MKK1) (ERK activator kinase 1) (MAPK/ERK kinase 1) (MEK...»</p> <p><b>Новая страница</b></p><div>Dual specificity mitogen-activated protein kinase kinase 1 (EC 2.7.12.2) (MAP kinase kinase 1) (MAPKK 1) (MKK1) (ERK activator kinase 1) (MAPK/ERK kinase 1) (MEK 1) [MEK1] [PRKMK1]<br /> <br /> ==Publications==<br /> <br /> {{medline-entry<br /> |title=Use of the metallothionein promoter-human growth hormone-releasing hormone ([[GHRH]]) mouse to identify regulatory pathways that suppress pituitary somatotrope hyperplasia and adenoma formation due to [[GHRH]]-receptor hyperactivation.<br /> |pubmed-url=https://pubmed.ncbi.nlm.nih.gov/19342460<br /> |abstract=Hyperactivation of the [[GHRH]] receptor or downstream signaling components is associated with hyperplasia of the pituitary somatotrope population, in which adenomas form relatively late in life, with less than 100% penetrance. Hyperplastic and adenomatous pituitaries of metallothionein promoter-human [[GHRH]] transgenic (Tg) mice (4 and &gt; 10 months, respectively) were used to identify mechanisms that may prevent or delay adenoma formation in the presence of excess [[GHRH]]. In hyperplastic pituitaries, expression of the late G(1)/G(2) marker Ki67 increased, whereas the proportion of 5-bromo-2&#039;-deoxyuridine-labeled cells (S phase marker) did not differ from age-matched controls. These results indicate cell cycle progression is blocked, with further evidence suggesting that enhanced p27 activity may contribute to this process. For adenomas, formation was associated with loss of p27 activity (nuclear localization and mRNA). Increased endogenous somatostatin ([[SST]]) tone may also slow the conversion from hyperplastic to adenomatous state because mRNA levels for [[SST]] receptors, sst2 and sst5, were elevated in hyperplastic pituitaries, whereas adenomas were associated with a decline in sst1 and sst5 mRNA. Also, [[SST]]-knockout Tg pituitaries were larger and adenomas formed earlier compared with those of [[SST]]-intact Tg mice. Unexpectedly, these changes were independent of changes in proliferation rate within the hyperplastic tissue, suggesting that endogenous [[SST]] controls [[GHRH]]-induced adenoma formation primarily via modulation of apoptotic and/or cellular senescence pathways, consistent with the predicted function of some of the most differentially expressed genes (Casp1, [[MAP2K1]], TNFR2) identified by membrane arrays and confirmed by quantitative real-time RT-PCR.<br /> |mesh-terms=* Adenoma<br /> * Aging<br /> * Animals<br /> * Cell Proliferation<br /> * Female<br /> * Growth Hormone-Releasing Hormone<br /> * Human Growth Hormone<br /> * Humans<br /> * Male<br /> * Metallothionein<br /> * Mice<br /> * Mice, Knockout<br /> * Organ Size<br /> * Pituitary Gland<br /> * Pituitary Neoplasms<br /> * Proliferating Cell Nuclear Antigen<br /> * Proto-Oncogene Proteins<br /> * RNA, Messenger<br /> * Receptors, Neuropeptide<br /> * Receptors, Pituitary Hormone-Regulating Hormone<br /> * Somatostatin<br /> * Somatotrophs<br /> <br /> |full-text-url=https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2703537<br /> }}</div>

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