ライフサイエンスコーパス: exocrine gland

1 regulating fluid secretion in the sublingual exocrine gland.

2 ent of salivary glands and potentially other exocrine glands.

3 secretion is utilized by epithelial cells of exocrine glands.

4 by a progressive chronic attack against the exocrine glands.

5 e (SjS), an autoimmune disease targeting the exocrine glands.

6 ic alterations in secretory cells of several exocrine glands.

7 e control of fluid and enzyme secretion from exocrine glands.

8 eaf clipping, and application of fluids from exocrine glands.

9 epithelial barriers of mucous membranes and exocrine glands.

10 ized by diminished secretory function of the exocrine glands.

11 nvolved in the generation and maintenance of exocrine gland acinar cells have not yet been establishe

12 Exocrine glands also were obtained from rats after RCMV

13 mplex class II gene expression as well as in exocrine gland and skeletal development.

14 The morphology of 21 exocrine glands and 13 supposedly exocrine structures re

15 helial mononuclear cell infiltrates, both in exocrine glands and in other parenchymal organs (kidney,

16 the apical membranes of epithelial cells in exocrine glands and trachea.

17 -1 immunoreactivity was also detected in the exocrine glands and was stronger than DAX-1 in the inner

18 borate cuticular crypts, supported by unique exocrine glands, and that these structures have been hig

19 Although IgG autoantibodies against various exocrine gland antigens have been described in IgG4-RD,

20 We demonstrate that the vacuoles in the exocrine glands are enlarged autolysosomes containing un

21 l of the intestinal epithelium as well as in exocrine glands associated with the gastrointestinal tra

22 s similar to CpMRP and assume therefore that exocrine gland-based defensive strategies, evolved by th

23 , exhibited extensive vacuolization of their exocrine gland cells, while the liver, brain, and muscle

24 ion, our data report a novel role of Irf6 in exocrine gland development and support a rationale for p

25 viated the need for surgical revision of the exocrine gland drainage and thus eliminated the morbidit

26 ver 3 wk post-AdV infection, consistent with exocrine gland dysfunction as a consequence of the infla

27 Some of these findings suggest that exocrine gland dysfunction may precede autoimmunity or r

28 rtile, yet experience testicular atrophy and exocrine gland dysplasia.

29 lymphocytic infiltration and destruction of exocrine glands, followed by systemic organ damage and B

30 show a requirement for the MC5-R in multiple exocrine glands for the production of numerous products,

31 ve of a coordinated system for regulation of exocrine gland function by melanocortin peptides.

32 d diabetes in these animals, we investigated exocrine gland function in NOD.B10.H2b mice, which have

33 in acinar cells and are required for proper exocrine gland function.

34 ammation, sexual function, pigmentation, and exocrine gland function.

35 idogenesis, obesity, energy homeostasis, and exocrine gland function.

36 oidogenesis, obesity, energy homeostasis and exocrine gland function.

37 likely calcium-dependent chloride channel of exocrine glands has led to a more detailed understanding

38 HAT-L4 was expressed in epithelial cells and exocrine glands in tissues including skin, esophagus, tr

39 sorder of unknown etiology, affects multiple exocrine glands including the salivary and lacrimal glan

40 ic mice results in widespread dysfunction of exocrine glands, including a marked decrease in sebum pr

41 Morphogenesis of exocrine glands is a complex stepwise process of epithel

42 thelial cells that line the airway, gut, and exocrine glands; it is well established that CFTR plays

43 nifesting as lymphocytic infiltration of the exocrine glands leading to chronically impaired lacrimal

44 NOD.B10.H2b mice exhibited the exocrine gland lymphocytic infiltration typical of the S

45 characterized by lymphocytic infiltration of exocrine glands, mainly salivary and lacrimal, resulting

46 c autoimmune disorder that typically affects exocrine glands--mainly labial and lacrimal--leading to

47 IL-1beta, as they occur in Sjogren syndrome exocrine glands, may impair the secretory function of th

48 thological findings were observed in several exocrine glands of patients with mucolipidosis II.

49 Nonobese diabetic (NOD) mice develop an anti-exocrine gland pathology similar to human Sjogren syndro

50 they exhibited leukocyte infiltration of the exocrine glands, produced anti-nuclear autoantibodies, a

51 se activity, appearance of autoantibodies to exocrine gland proteins, and glandular lymphocytic focal

52 defined circuit by which a single compound, exocrine gland-secreted peptide-1 (ESP1), enhances repro

53 roduced by young mice before puberty, termed exocrine-gland secreting peptide 22 (ESP22).

54 lling, smooth muscle contraction, airway and exocrine gland secretion, and rhythmic movements of the

55 S. invicta venom, N. fulva applies abdominal exocrine gland secretions to its cuticle.

56 identify the role of IRF6 in development of exocrine glands, specifically the major salivary glands.

57 Characterizations of the myriad neuropteran exocrine gland systems, including prothoracic, metathora

58 oimmune disease involving salivary and other exocrine glands that leads to progressive lymphocytic in

59 ch as the secretions of airway epithelia and exocrine glands, the contraction of smooth muscles, and

60 lytic enzyme activity contributes to loss of exocrine gland tolerance by generating abnormally proces

61 rome is a chronic autoimmune disorder of the exocrine glands with associated lymphocytic infiltrates