ライフサイエンスコーパス: chief cell

1 ct reprogramming of existing cells-mainly of chief cells.

2 developed directly from Kras (G12D)-induced chief cells.

3 essed in the gastric pepsinogen-synthesizing chief cells.

4 racing that SPEM evolves from differentiated chief cells.

5 least in part, from transdifferentiation of chief cells.

6 xpression is also a specific marker of human chief cells.

7 of SPEM derived from transdifferentiation of chief cells.

8 or cell or by transdifferentiation of mature chief cells.

9 in both mouse pancreatic acinar and gastric chief cells.

10 at SPEM derived from transdifferentiation of chief cells.

11 cally localized to the secretory granules in chief cells.

12 ed potentiation of cAMP levels in guinea pig chief cells.

13 tion of cAMP levels in cholera toxin-treated chief cells.

14 5'-triphosphate-binding protein, in gastric chief cells.

15 Compared with normal chief cells, 858 genes were differentially expressed in

16 human parathyroids with varying oxyphil and chief cell abundance and leveraged advanced computationa

17 The PLS-DA model built to discriminate chief cell adenoma from oxyphil cell adenoma allowed us

18 6 mouse showed a marked loss of parietal and chief cells, along with a marked expansion of an aberran

19 c factor expression is both predetermined in chief cells and can be expressed in parietal cells in re

20 ferentiation of fundic cell types, including chief cells and functional parietal cells.

21 Under conditions of chronic inflammation, chief cells and mucous neck cells are plastic and conver

22 Moreover, the parathyroid adenoma subtypes (chief cells and oxyphil cells) were characterized by the

23 associated with preservation of parietal and chief cells and protection from the development of gastr

24 t tumors, preparatively isolated oxyphil and chief cells, and laser-captured microdissected PA specim

25 IST1 as a reliable marker of mature, healthy chief cells, and we provide the first evidence that meta

26 s of FK-506 on cholera toxin-treated gastric chief cells are caused by its inhibitory actions on calc

27 are induced, at which point the reprogrammed chief cells are recognized as mucus-secreting spasmolyti

28 rise in part through transdifferentiation of chief cells as opposed to expansion of mucus neck or pro

29 criptional programs in mucous neck cells and chief cells as they progress to metaplasia mice with chr

30 er pylori (H pylori) infection, parietal and chief cell atrophy in the gastric corpus, a process know

31 irmed rab3D immunoreactivity localization to chief cells but not acid-secreting parietal cells.

32 homeostasis, p57 is constantly expressed in chief cells but rapidly diminishes after injury, followe

33 s, giving rise to parietal, mucous neck, and chief cells, but not to enterochromaffin-like-cell.

34 We conclude that, in gastric chief cells, calcineurin mediates cross-talk between the

35 After acute parietal cell loss, chief cells can reprogram through an orderly stepwise pr

36 of various types with the exception of rare chief cell carcinoma ( approximately 1%).

37 tamoxifen - or merely the depletion of LGR5+ chief cells - caused an upregulation of RSPO3 expression

38 onfirm MIST1 expression is restricted to the chief cell compartment in normal oxyntic mucosa, rare in

39 Atp4a(-/-) stomachs revealed the presence of chief cells, demonstrating that the lack of acid secreti

40 rs not to perturb parietal cell viability or chief cell differentiation.

41 sia and oxyntic atrophy were sustained while chief cell, enterochromaffin-like cell, and somatostatin

42 e, including a profound loss of parietal and chief cells, focal de novo production of acidic mucins,

43 Although mucous neck cells and chief cells from healthy stomachs each had distinct tran

44 Thus, mature gastric chief cells have the ability to act as cryptic progenito

45 mine whether SPEM lineages were derived from chief cells in 3 independent models of induction by DMP-

46 ted in an overlapping fashion in parathyroid chief cells in adenoma and hyperplastic glands, and also

47 that imposes the reserve stem cell state of chief cells in homeostasis.

48 ar switch for the reserve stem cell state of chief cells in mice.

49 Intrinsic factor is produced primarily by chief cells in rat and mouse, but 4 to 11% of isolated r

50 sulted in a loss of specialized parietal and chief cells in the corpus and the appearance of a metapl

51 rrectly predict 100% of oxyphil and 99.8% of chief cells in the external validation data set.

52 ls or differentiated, post-mitotic zymogenic chief cells in the gland base.

53 been recognized that the secretion of PTH by chief cells in the parathyroid gland is regulated by ext

54 numbers of parietal cells, a loss of mature chief cells, increased numbers of mucous and undifferent

55 In cholera toxin-treated gastric chief cells, incubation with a cholinergic agonist (carb

56 med the convergence of mucous neck cells and chief cells into a pre-metaplastic phenotype that ultima

57 reprogramming of digestive enzyme-secreting chief cells into deep antral gland-like mucous cells.

58 tion of digestive enzyme (zymogen)-secreting chief cells is a normal aspect of stomach function that

59 factor MIST1, normally restricted to mature chief cells, is down-regulated as chief cells undergo ex

60 a in humans arises at least in part from the chief cell lineage.

61 7 and activation of proliferation within the chief cell lineage.

62 5), epithelial differentiation to mucous and chief cell lineages was rudimentary, with no expression

63 -4 scale to score inflammation, parietal and chief cell loss, mucus metaplasia, and helicobacter colo

64 gnaling caused basal cell expansion, gastric chief cell marker expression, and a decrease in surface

65 mber of cells coexpressing intrinsic factor (chief cell marker), YFP (lineage marker), and GSII lecti

66 munoreactive for TFF2 and the differentiated chief cell markers, Mist1 and intrinsic factor, suggesti

67 sion of the activated form of Ras in gastric chief cells of mice leads to the development of SPEM, as

68 Expression of activated Ras in chief cells of Mist1-Kras mice led to the full range of

69 issues such as acinar cells of the pancreas, chief cells of the stomach, and parotid and lacrimal sec

70 ce, which express the active form of Kras in chief cells on tamoxifen exposure.

71 olves through either transdifferentiation of chief cells or activation of a basal cryptic progenitor.

72 d glands, we have isolated and characterized chief cells, oxyphil cells, and tumor-infiltrating lymph

73 COX defects than the mitochondria-poor clear chief cells (P < 0.001).

74 moesin participate in parietal cell acid and chief cell pepsinogen secretion, respectively.

75 gen-mediated apoptosis depletes parietal and chief cell populations, leading to architectural distort

76 mitochondrial energy generation, whereas the chief cell predominantly expresses digestive enzymes and

77 In the main body of the stomach, chief cells produce digestive enzymes; however, upon inj

78 In pyloric metaplasia, mature gastric chief cells reprogram via an evolutionarily conserved pr

79 Pepsinogen secretion from gastric chief cells requires a series of intracellular vesicle i

80 Taking advantage of the chief cell-restricted expression of Mist1-Cre-ER(T2), we

81 d by altered niche requirements and a mature chief cell/secretory phenotype.

82 the constitutive expression of p57 in vivo, chief cells showed an impaired injury response.

83 sion of myofibroblasts, loss of parietal and chief cells, spasmolytic polypeptide expressing metaplas

84 istribution of the rab3D-like protein in the chief cell suggests that it may play an important role i

85 /+ (Mist1-Kras-mTmG) mice to examine whether chief cells that express active Kras give rise to SPEM a

86 the expansion of AMCase-expressing zymogenic chief cells that facilitate chitin digestion.

87 th adenocarcinoma, we found normal zymogenic chief cells that were transitioning into SPEM cells only

88 osure of monolayers of renal collecting duct chief cells to orbital shaking and quantified the forces

89 to mature chief cells, is down-regulated as chief cells undergo experimentally induced metaplasia.

90 e stomach-the parietal, mucus-producing, and chief cells-were harvested from cryosections of infected

91 tion in the corpus gland toward parietal and chief cells, while its absence promoted pit cell differe

92 etal cells (PCs) and metaplasia of zymogenic chief cells within 3 days.

93 Chief cells within bovine parathyroid glands exhibit a s

94 resence of functionally distinct oxyphil and chief cells within parathyroid primary adenomas and prov

95 s produce approximately 50% more PTH than do chief cells, yet display significantly greater PTH suppr

96 of the digestive enzyme secreting zymogenic (chief) cell (ZC).

97 Adult zymogen-producing (zymogenic) chief cells (ZCs) in the mammalian gastric gland base ar

98 zed secretory vesicles in gastric zymogenic (chief) cells (ZCs) as they differentiate from their muco