Petra Gruber scite author profile

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.

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Dewaxed ECM: A simple method for analyzing cell behaviour on decellularized extracellular matrices

Ofenbauer

Sebinger

Prewitz

et al. 2012

J Tissue Eng Regen Med

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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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Petra Gruber

Mutations in apoptosis genes: a pathogenetic factor for human disease

ECM modulated early kidney development in embryonic organ culture

FAS (CD95) Mutations Are Rare in Gastric MALT Lymphoma but Occur More Frequently in Primary Gastric Diffuse Large B-Cell Lymphoma

Dewaxed ECM: A simple method for analyzing cell behaviour on decellularized extracellular matrices

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