Journal: The Journal of Biological Chemistry
Article Title: Matriptase-2-mediated suppression of hepatic hepcidin expression in mice requires hepatocyte neogenin
doi: 10.1016/j.jbc.2026.111142
Figure Lengend Snippet: Expression of exogenously administered Mt2 in the liver of Tmprss6 −/− mice increases Neo1 levels . A , diagram of Mt2, fMt2, and fMt2 mask . B , experimental design to determine the effects of exogenously administered Mt2 on Neo1 levels. Eight-week-old Tmprss6 −/− littermates on a mixed B6/129 background were intraperitoneally injected with AAV8-fMt2 vectors at ∼8 x 10 11 or ∼4 x 10 12 viral genome-particles per mouse or AAV8-fMt2 mask viral vectors at ∼4 x 10 12 viral genome-particles per mouse. Injection of sterilized PBS vehicle was included as a control. Age and gender-matched WT littermates were included as additional controls. Mice were euthanized for analysis 3 weeks after injection. All mice were fed a standard diet containing 240-ppm iron. Each group consists of at least five mice with similar numbers of male and female. C , qRT-PCR analysis of Tmprss6 mRNA in the liver. Results are expressed as the amount relative to that of β-actin for each sample. The mean values and SD are presented. D , representative images of Western blot analysis for Neo1, the FLAG epitope of fMt2, Tfr2, and β-actin in the liver membrane preparations. E , qRT-PCR analysis of Hamp mRNA in the liver. F , serum iron assay. G ,. quantification of Neo1 bands in D . H , quantification of Tfr2 bands in D . The relative amounts to β-actin are presented. One-way ANOVA was used to analyze the data relative to WT mice. ∗∗, p < 0.01; ∗∗∗, p < 0.001; ∗∗∗∗, p < 0.0001. I , models for Neo1/Hjv induction of hepcidin expression in the absence and presence of Mt2. NEO1, neogenin.
Article Snippet: We purchased murine Neo1 ORF ( NM_008684 ) with a C-terminal FLAG/MYC epitope (fNeo1) in pCMV6 vector (#MR226235) and murine Mt2 ORF ( NM_027902.1 ) with a C-terminal FLAG/MYC epitope (fMt2) in pCMV6 vector (#MR210781) from OriGene Technologies Inc.
Techniques: Expressing, Injection, Control, Quantitative RT-PCR, Western Blot, FLAG-tag, Membrane, Iron Assay