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Removal of apoptotic cells by macrophages or resident semi-professional phagocytes is a prominent principle with important implications for the pathophysiology of chronic inflammatory diseases, viral infections, or cancer. To characterize mechanisms which may determine the fate of apoptotic cells, I investigated chemokine expression in apoptotic promonocytic U-937 cells or PBMC. Exposure of U-937 cells to the anti-cancer drug etoposide (VP-16), an inducer of apoptosis in these cells, was associated with increased expression of the chemokines IL-8 and macrophage inflammatory protein 1alpha (MIP-1alpha). Upregulation of IL-8 mRNA expression by VP-16 was observed as early as 4 h after onset of treatment and was still detectable after 19h of exposure. A serine protease inhibitor prevented both VP-16-induced apoptosis and release of IL-8, whereas inhibition of p38 MAP-kinases reduced IL-8 secretion only. Moreover, I observed that incubation with 2-chlorodeoxyadenosine (CdA) upregulated release of IL-8 from adherent PBMC in parallel to induction of apoptosis. In these cells a modest but significant induction of TNF-alpha release by CdA was also detected. In addition, CdA augmented release of IL-8 from whole blood cultures. By facilitating adequate recruitment of phagocytes to sites of cell death, stress-induced upregulation of chemokines associated with apoptosis may contribute to mechanisms aiming at efficient removal of apoptotic cells.
The substantia nigra is not the induction site in the brain of the neurodegenerative process that underlies Parkinson’s disease. Instead, the results of this semiquantitative study of 30 autopsy cases with incidental Lewy body pathology indicate that Parkinson’s disease in the brain commences with the formation of the very first immunoreactive Lewy neurites and Lewy bodies in noncatecholaminergic visceromotor neurons of the dorsal glossopharyngeusvagus complex, in projection neurons of the intermediate reticular zone, and in specific nerve cell types of the gain setting system (coeruleussubcoeruleus complex, caudal raphe nuclei, gigantocellular reticular nucleus), olfactory bulb, olfactory tract, and/or anterior olfactory nucleus in the absence of nigral involvement. The topographical parcellation of the nuclear grays described here is based upon known architectonic analyses of the human brain stem and takes into consideration the pigmentation properties of a few highly susceptible nerve cell types involved in Parkinson’s disease. In this sample and in all 58 ageand gendermatched controls, Lewy bodies and Lewy neurites do not occur in any of the known telencephalic Parkinson’s disease predilection sites (hippocampal formation, temporal mesocortex, proneocortical cingulate areas, amygdala, basal nucleus of Meynert, interstitial nucleus of the diagonal band of Broca, hypothalamic tuberomamillary nucleus).