A loss of FAS (CD95) function has been proposed to constitute an important step in early mucosa-associated lymphoid tissue (MALT) lymphoma development and FAS mutations have been recognized in malignant lymphomas, in particular at extranodal sites. Since primary gastric lymphomas frequently exhibit resistance to FAS-mediated apoptosis, we investigated whether FAS is mutated in 18 gastric MALT lymphomas and 28 diffuse large B-cell lymphomas (DLBCL). We detected seven mutations in five lymphomas, one MALT lymphoma and four DLBCL; two DLBCL had two mutations. The MALT lymphoma exhibited a point mutation in the splice donor region of intron 3. Three DLBCL had missense mutations in exon 2, which encodes a signal peptide and a portion of the extracellular FAS ligand-binding domain. One DLBCL carried a point mutation in the splice donor region of intron 8, which would result in exon skipping. Two DLBCL harbored a missense mutation in exon 9, which encodes the intracellular death domain. The two death domain mutations inhibited FAS ligand-induced apoptosis in a dominant-negative mode, when transiently expressed in human T47D breast carcinoma and Jurkat T cells. A signal peptide and an extracellular domain mutation, however, failed to inhibit apoptosis in these transfection assays. They are likely to reduce apoptosis in lymphoma cells solely by a loss of function. In summary, our data show that FAS mutations are rare in primary gastric MALT lymphomas (5.6%) but occur in a subset of primary gastric DLBCL (14.3%) and suggest that these mutations contribute to the pathogenesis of gastric lymphomas by rendering lymphocytes resistant to apoptosis.
Decellularization techniques have been used on a wide variety of tissues to create cell-seedable scaffolds for tissue engineering. Finding a suitable decellularization protocol for a certain type of tissue can be laborious, especially when organ perfusion devices are needed. In this study, we report a quick and simple method for comparing decellularization protocols combining the use of paraffin slices and two-dimensional cell cultures. We developed three decellularization protocols for adult murine kidney that yielded decellularized extracellular matrices (ECMs) with varying histological properties. The resulting paraffin-embedded ECM slices were deparaffinized and reseeded with murine embryonic stem cells (mESCs). We analyzed cell attachment four days post seeding via determination of cell numbers, and used quantitative Real-Time PCR 13 days post seeding to measure gene expression levels of two genes associated with renal development, Pax2 and Pou3f3. The three decellularization protocols produced kidney-matrices that showed clearly distinguishable results. We demonstrated that formerly paraffin-embedded decellularized ECMs can effectively influence differentiation of stem cells. This method can be used to identify optimal decellularization protocols for recellularization of three-dimensional tissue-scaffolds with embryonic stem cells and other tissue-specific cell types.
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