The cerebellum has been little studied in these conditions, proba

The cerebellum has been little studied in these conditions, probably because of the lack of cerebellar signs in most cases. We examined p62 immunohistochemistry on cerebellar sections from 43 TDP-43 proteinopathies (including cases of FTLD-TDP, FTLD-MND/ALS and LY2157299 ic50 MND/ALS) together with 72 cases of other neurodegenerative diseases, seven controls and three other disease conditions. In 11 of the TDP-43 proteinopathies (26%) there were numerous p62-positive cerebellar inclusions, predominantly within the granular layer, but also the molecular and Purkinje cell layer.

Furthermore, only one of the remaining 82 cases (a familial tauopathy) showed similar p62 positivity. Immunohistochemistry for ubiquitin was positive in the granular

layer inclusions. The immunohistochemistry for phosphorylation-independent TDP-43, hyperphosphorylated tau, α-synuclein, fusion sarcoma protein (FUS), and neurofilament was negative. In only one case (a case of FTLD-TDP) were the inclusions positive for phosphorylation-dependent TDP43 (p-TDP-43). Those TDP-43 proteinopathy cases that showed the cerebellar inclusions also tended to display other common features, such as a notable excess of p62 pathology when compared to TDP-43 pathology, especially within the pyramidal neurones of the hippocampus but also in some cases within the neocortex. The results suggest that p62-positive inclusions within the cerebellum are seen in a proportion of cases across the range of the TDP-43 proteinopathy spectrum Trametinib in vivo and they appear to be relatively specific for this group of diseases. The question as to whether these cerebellar-positive cases represent a distinct subgroup remains to be answered. Furthermore, the relationship of the p62 positivity in the cerebellum to the underlying pathological processes awaits to be established. “
“J. M. A. Kuijlen, E. Bremer, J. J. A. Mooij, W. F. A. den

Dunnen and W. Helfrich (2010) Neuropathology and Applied Neurobiology36, 168–182 On TRAIL for malignant glioma therapy? Glioblastoma (GBM) is a devastating cancer with a median Tacrolimus (FK506) survival of around 15 months. Significant advances in treatment have not been achieved yet, even with a host of new therapeutics under investigation. Therefore, the quest for a cure for GBM remains as intense as ever. Of particular interest for GBM therapy is the selective induction of apoptosis using the pro-apoptotic tumour necrosis factor-related apoptosis-inducing ligand (TRAIL). TRAIL signals apoptosis via its two agonistic receptors TRAIL-R1 and TRAIL-R2. TRAIL is normally present as homotrimeric transmembrane protein, but can also be processed into a soluble trimeric form (sTRAIL). Recombinant sTRAIL has strong tumouricidal activity towards GBM cells, with no or minimal toxicity towards normal human cells. Unfortunately, GBM is a very heterogeneous tumour, with multiple genetically aberrant clones within one tumour.

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