NEMO shuttle: a link between DNA damage and NF-kappaB activation in progeroid syndromes?

Activation of NF-kappaB transcription factor signaling is one of the hallmarks of genotoxic stress. Recently, the NEMO shuttle was revealed to mediate this nucleo-cytoplasmic signaling linking DNA damage to the activation of NF-kappaB system. DNA damage is the causative factor of several segmental progeroid syndromes, such as Werner syndrome and Hutchinson-Gilford syndrome.

Activation of innate immunity system during aging: NF-kB signaling is the molecular culprit of inflamm-aging.

Innate and adaptive immunity are the major defence mechanisms of higher organisms against inherent and environmental threats. Innate immunity is present already in unicellular organisms but evolution has added novel adaptive immune mechanisms to the defence armament. Interestingly, during aging, adaptive immunity significantly declines, a phenomenon called immunosenescence, whereas innate immunity seems to be activated which induces a characteristic pro-inflammatory profile.

Voxel-based morphometry to detect brain atrophy in progressive mild cognitive impairment.

Recent research has shown an increased rate of conversion to dementia in subjects with mild cognitive impairment (MCI) compared to controls. However, there are no specific methods to predict who will later develop dementia. In the present study, 22 controls and 56 MCI subjects were followed on average for 37 months (max.

Amyloid-beta 1-42 induced endocytosis and clusterin/apoJ protein accumulation in cultured human astrocytes.

Recent studies indicate that astrocytes may be the primary target of secreted amyloid-beta 1-42 peptides, with the neurotoxicity representing a secondary response to astrocytic stress. Our purpose was to clarify the astrocytic stress response induced by amyloid-beta peptides in human and rat astrocytes. Human amyloid-beta 1-42 peptides and fibrils induced the appearance of cytoplasmic vacuoles in normal human astrocytes (NHA) and CCFsttg1 astrocytoma cells.

Characterization of the pro-inflammatory signaling induced by protein acetylation in microglia.

Protein acetylation regulates the extent of inflammatory responses and disturbances in protein acetylation have been proposed to play an important role in inflammatory and neurodegenerative diseases. We have recently observed that histone deacetylase inhibitors, such as trichostatin A (TSA) and SAHA, strongly potentiate the LPS induced inflammatory response in several rat and mouse inflammatory models. Our aim here was to characterise pro-inflammatory signaling mediated via increased protein acetylation and protein phosphorylation in microglial N9 cells.

A refined in vitro model to study inflammatory responses in organotypic membrane culture of postnatal rat hippocampal slices.

Background: Propagated tissue degeneration, especially during aging, has been shown to be enhanced through potentiation of innate immune responses. Neurodegenerative diseases and a wide variety of inflammatory conditions are linked together and several anti-inflammatory compounds considered as having therapeutic potential for example in Alzheimer's disease (AD). In vitro brain slice techniques have been widely used to unravel the complexity of neuroinflammation, but rarely, has the power of the model itself been reported.

Induction of clusterin/apoJ expression by histone deacetylase inhibitors in neural cells.

The regulation of clusterin expression is poorly characterized although some regulatory elements have been identified, such as CpG-rich methylation domain. Environmental stress, aging, diet and diseases regulate DNA methylation and protein acetylation status but interestingly, the same insults increase clusterin expression in vivo. Our purpose was to elucidate whether histone deacetylase inhibitors, such as TSA, SAHA and M344, as well as an inhibitor of DNA methylation, 5'-aza-2'-deoxycytidine, could regulate the expression of clusterin in cultured neural cells.

Regulation of microglial inflammatory response by sodium butyrate and short-chain fatty acids.

1. Recent studies have shown that sodium butyrate and other short-chain fatty acids (SCFAs) can prevent inflammation in colon diseases. Our aim was to elucidate whether sodium butyrate and SCFAs regulate the inflammatory responses in different neural inflammation models in cell cultures.

Regulation of microglial inflammatory response by histone deacetylase inhibitors.

The activation of microglial cells is involved in the pathogenesis of a variety of neurodegenerative diseases, stroke and traumatic brain injuries. Recent studies suggest that protein acetylation can affect the extent of inflammatory responses. Our aim was to elucidate whether histone deacetylase inhibitors, inducers of protein hyperacetylation, regulate the inflammatory response in neural models of inflammation in vitro and whether neurone-glia interactions affect this regulation.