Recombinant Mouse Menin (Men1)

1. our results suggest that the influence of menin on synapse formation and synaptic plasticity occur via modulation of nAChR channel subunit composition and functional clustering. PMID: 28496137
2. menin maintains the T-cell functions by limiting mTORC 1 activity and subsequent cellular metabolism. PMID: 30120246
3. Results showed that the MEN1 gene was negatively correlated with lung fibrinogen markers and provide evidence that MEN1 plays a key role in the formation of pulmonary fibrosis by regulating the secretion of TGF-beta and the activation of TGF-beta/Smads signaling pathway. PMID: 30099020
4. Men1 - a tumor suppressor gene - is critical for ossifying fibroma (OF) formation. Mice with targeted disruption of Men1 in osteoblasts develop multifocal OF in the mandible with a 100% penetrance. PMID: 28991228
5. Men1-deficient osteocytes was expressed numerous soluble mediators such as C-X-C motif chemokine 10 (CXCL10 and a novel role for Men1 in osteocyte-osteoclast crosstalk by controlling osteoclastogenesis through the action of soluble factors. PMID: 28106886
6. Gastrin induces nuclear export and proteasome degradation of menin in duodenal glial cells. PMID: 28859856
7. gene expression analysis revealed that Menin was involved in the maintenance of the high expression of the previously identified Th2-specific genes rather than the induction of these genes. This result suggests that Menin plays a role in the maintenance of Th2 cell identity.This study confirmed the critical role of Menin in Th2 cell-mediated immune responses. PMID: 28659357
8. Inhibition of miR-24 increases menin and TGF-beta1 expression, subsequently increasing hepatic fibrosis in FVB/NJ WT and Mdr2(-/-) mice. PMID: 28602220
9. Menin and PRMT5 suppress GLP1R transcript levels and PKA-mediated phosphorylation of FOXO1 and CREB. PMID: 28270438
10. Inactivation of Kmt2a in Men1-deficient mice accelerated pancreatic islet tumorigenesis and shortened the average life span. Increases in cell proliferation were observed in mouse pancreatic islet tumors upon inactivation of both Kmt2a and Men1. PMID: 27801610
11. Data suggest that menin inhibits differentiation into terminal effectors and positively controls proliferation and survival of Ag-specific CD8(+) T cells that are activated upon infection; study uncovered an important role for menin in the immune response of CD8(+) T cells to infection PMID: 27798149
12. Our data further confirms that deletion of Men1 alone does not favour carcinoid development, but rather cooperates with additional loci. PMID: 26860771
13. Results indicate that fasted male Men1(+/-) mice, in the early stage of development of MEN1, display glucose metabolic disorders. These disorders are caused not by direct induction of insulin resistance, but via increased glucagon secretion and the consequent stimulation of hepatic glucose production. PMID: 27432891
14. The inactivation of menin in the thyroid gland of young mice does not seem to change the histological pattern, but it influences the proliferation of follicular cells. Further molecular studies especially in aged mice are needed to better understand the correlation between certain oncogenes and the inactive status of menin. PMID: 27151693
15. Data show that progranulin is upregulated in neuroendocrine tumors (NETs) and islets of the multiple endocrine neoplasia 1 protein (MEN1) mouse as well as in the serum of patients with pancreatic NETs associated with glucagonoma syndrome. PMID: 26495792
16. Although mice lacking Men1 developed insulinomas as expected, elimination of ARC in this context did not significantly alter tumor load. Cellular rates of proliferation and death in these tumors were also not perturbed in the absence of ARC. PMID: 26709830
17. The study characterized the binding position of Ezh2 and menin at all annotated genes in embryonic stem cells and B and T lymphocytes. PMID: 26324324
18. Data demonstrate that loss of Men1 in pancreatic islet cells alters the epigenetic landscape of its target genes during early stages of pancreatic neuroendocrine tumor formation. PMID: 25537453
19. Data show that menin, encoded by the MEN1 gene, inhibits the transcriptional activity of nuclear receptor liver X receptor alpha (LXRalpha). PMID: 25962847
20. Conditional knockout of beta-catenin suppresses the tumorigenesis and growth of Men1-deficient pancreatic neuroendocrine tumors. PMID: 25517963
21. miR-802 expression levels are increased in lung carcinoma tissues and targets the tumor suppressor menin and downregulates its expression. PMID: 24994111
22. CDK4 is a critical downstream target of MEN1-dependent tumor suppression and is required for tumorigenic proliferation in the pituitary and pancreatic islet, whereas CDK2 is dispensable for tumorigenesis in these neuroendocrine cell types. PMID: 24531709
23. This work shows that Men1 ablation in the pancreatic beta-cells leads to the inactivation of specific transcription factors, resulting in glucagon-expressing tumor development, which sheds light on the mechanisms of islet tumorigenesis. PMID: 25343275
24. Menin regulates spinal glutamate-GABA balance through GAD65 contributing to neuropathic pain. PMID: 24905306
25. Menin orchestrates Th17 cell differentiation and function by regulating both the induction and maintenance of target gene expression. PMID: 25136117
26. Menin recruits SIRT1 to control hepatic CD36 expression and triglyceride accumulation through histone deacetylation PMID: 23867312
27. Menin binding at the Bach2 locus and the Bach2 expression are decreased in the senescent CD4 T cells. PMID: 24694524
28. Loss of MEN1 expression is associated with insulinoma. PMID: 24157940
29. a novel mechanism whereby menin suppresses cell proliferation, at least partly by promoting the processing of certain miRNAs, including let-7a, leading to suppression of Irs2 expression and insulin signaling. PMID: 24563463
30. Findings uncover a novel epigenetic link whereby menin directly represses Gli1 expression, independent of the canonical Hedgehog signaling pathway. PMID: 23928057
31. Data indicate that the Menin-Yap1 axis responded to CCl4-induced liver inflammation. PMID: 24101467
32. The trithorax protein partner menin acts in tandem with EZH2 to suppress C/EBPalpha and differentiation in MLL-AF9 leukemia. PMID: 23349306
33. menin and MLL1 regulate distinct pathways during normal hematopoiesis, particularly in HSCs and B cells. PMID: 23908472
34. The results of this study found e role of upregulated neuronal menin in the spinal cord in potentiating spinal synaptic plasticity in peripheral nerve injury-induced neuropathic hypersensitivity. PMID: 22858595
35. Menin may inhibit MEN1 insulinoma by suppressing cyclin B2 expression via histone modification. PMID: 22193451
36. Simultaneous heterozygous deletion of Men1 in animals with either heterozygous or homozygous deletion of Trp53 did not result in formation of tumours at any new sites. PMID: 22708734
37. Findings indicate that MEN1 tumor suppressor gene replacement therapy can generate menin expression in pituitary tumors, and significantly reduce tumor cell proliferation. PMID: 22915754
38. Epithelium-specific deletion of the multiple endocrine neoplasia type 1 locus resulted in hypergastrinemia due to antral G cell hyperplasia and a hyperproliferative epithelium, but no gastrinomas. PMID: 22766853
39. a possible role for menin-dependent H3K4me3 at these genes in the initiation and progression of sporadic pancreatic endocrine tumors PMID: 22666422
40. Data show that numerous genes were differentially expressed in the endocrine pancreas of 5-wk-old heterozygous multiple endocrine neoplasia 1 protein (Men1) mice. PMID: 22492302
41. menin could induce endodermal differentiation of uncommitted cells by functionally modulating the RARs. PMID: 21833538
42. findings show that the MEN1 gene suppresses malignant phenotypes of melanoma cells through multiple signalling pathways PMID: 21129151
43. Menin expression is regulated by transforming growth factor beta signaling in leukemia cells. PMID: 21740816
44. menin acts synergistically with the nuclear receptor PPARalpha to control gene expression of fatty acid oxidation PMID: 22001208
45. Embryoid bodies formed from null mutant (Men1-/-) and wild-type (Men1+/+) embryonic stem cells were used as a model system to investigate the effects of the Men1 gene on pancreatic islet development. PMID: 21468568
46. Menin interacts with beta-catenin and facilitates differentiation of osteoblast. PMID: 21264795
47. menin regulates H3K27me3 and promoter DNA methylation via WT1, which plays an important role in regulating the function of the menin/PcG axis, H3K27 methylation, and DNA methylation, resulting in repression of gene transcription PMID: 21378168
48. It was concluded that during pregnancy, placental hormones act through the prolactin receptor to increase beta-cell mass by up regulating beta-cell proliferation by engaging Jak2, Akt, menin/p18, and p21. PMID: 21239436
49. Confocal microscopy analysis revealed that menin regulates AKT1 in part by reducing the translocation of AKT1 from the cytoplasm to the plasma membrane. PMID: 21127195
50. Loss of Men1 is associated with prostate cancer lesions. PMID: 20663219

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KEGG: mmu:17283

STRING: 10090.ENSMUSP00000109130

UniGene: Mm.12917