Endoproteolytic activation of alpha(v) integrin by proprotein convertase PC5 is required for vascular smooth muscle cell adhesion to vitronectin and integrin-dependent signaling.

BACKGROUND: Integrins play an important role for vascular smooth muscle cell (VSMC) migration during the development of atherosclerosis and restenosis. Integrin alpha(v)-subunit consists of disulphide-bound 125-kDa heavy and 25-kDa light chains, which are generated by endoproteolytic cleavage. This type of activation requires the presence of suitable proprotein convertases (PCs). Based on ex vivo and in vitro data, the PC5 isozyme has been suggested to be the major integrin convertase. We have recently demonstrated that PC5 is upregulated during vascular remodeling in rodents, colocalizing with alpha(v) in VSMCs. The aim of this study was to investigate the activation of alpha(v) by PCs in VSMCs and its consequences for alpha(v)-dependent cell functions. METHODS AND RESULTS: Immunoblotting demonstrated that inhibition of PC activity by the specific pharmacological inhibitor dec-CMK inhibits alpha(v) cleavage in VSMCs. These results were confirmed using PC5-specific antisense oligonucleotides. PC5-antisense oligonucleotides and dec-CMK inhibited VSMC adhesion to the alpha(v)beta3/beta5 ligand vitronectin (both P<0.05). Furthermore, PC5-asODNs inhibited VSMC migration on vitronectin-coated wells (P<0.05). Inhibition of PC activity and consequently alpha(v) cleavage inhibited the adhesion-dependent focal adhesion kinase(Y397)-autophosphorylation and subsequent Akt activation, whereas phosphorylation of extracellular signal-regulated kinase 1/2 was not affected. In human endarterectomy lesions, PC5 colocalized with alpha(v) integrin in VSMCs in the atherosclerotic plaques. CONCLUSIONS: The present study demonstrates that alpha(v) endoproteolytic activation is necessary for integrin-mediated adhesion and migration as well as signaling and requires PC5 in VSMCs. The colocalization of PC5 and alpha(v) in human carotid plaques indicates that PC5 might play a key role for alpha(v) activation in vivo.

MPTP induces intranuclear rodlet formation in midbrain dopaminergic neurons.

Neuronal intranuclear rodlets (INRs; rodlets of Roncoroni) have been known to neuroanatomists since the turn of the century. However, the functional and/or pathological significance of these structures has remained enigmatic. We recently demonstrated that these structures are immunoreactive for class III beta tubulin and for glucocorticoid receptor. Moreover, they are markedly reduced in the temporal cortex of patients with Alzheimer's disease relative to age-matched controls and those with dementia with Lewy bodies, thereby implicating these structures in neurodegenerative disease pathogenesis. The present report represents an experimental pilot study to investigate the possible involvement of INRs in Parkinson's disease (PD). Specifically, we demonstrate significantly increased INRs in dopaminergic neurons in the substantia nigra pars compacta and ventral tegmental area in mice treated with the selective catecholaminergic neurotoxin MPTP, relative to saline-treated controls. We have hypothesized that INRs represent an intranuclear sequestrum of monomeric beta-tubulin and that their alteration in neurodegeneration may reflect disrupted or abnormal microtubule dynamics. We propose that the increased formation of INRs is related to the demonstrated ability of MPTP to cause microtubule disruption. Because tubulin has also been implicated in the pathogenesis of human PD, it is possible that the results of this study will have important implications for this most common neurodegenerative movement disorder.

Apolipoprotein D inhibits platelet-derived growth factor-BB-induced vascular smooth muscle cell proliferated by preventing translocation of phosphorylated extracellular signal regulated kinase 1/2 to the nucleus.

OBJECTIVE: Elevated apolipoprotein D (apoD) levels are associated with reduced proliferation of cancer cells. We therefore investigated whether apoD, which occurs free or associated with HDL, suppresses vascular smooth muscle cell (VSMC) proliferation, which is related to the pathobiology of disease. METHODS AND RESULTS: Intense immunoreactivity for apoD was observed in human atherosclerotic plaque but not in normal coronary artery. However, an increase in apoD mRNA was seen in quiescent relative to proliferating fetal lamb aortic VSMCs, and in the rat aortic VSMC line (A10), we demonstrated uptake of apoD from serum. Stable transfection of apoD in A10 cells in the absence of serum did not influence VSMC proliferation assessed by [3H]-thymidine incorporation. ApoD, administered at a dose of 100 ng/mL, completely inhibited basal as well as platelet-derived growth factor (PDGF)-BB-induced VSMC proliferation (P<0.01) but had no effect on fibroblast growth factor-induced VSMC proliferation. ApoD did not suppress PDGF-BB or fibroblast growth factor-2-induced phosphorylation of extracellular signal regulated kinase (ERK) 1/2 but selectively inhibited PDGF-BB-mediated ERK1/2 nuclear translocation. CONCLUSIONS: Our data suggest that apoD selectively modulates the proliferative response of VSMC to growth factors by a mechanism related to nuclear translocation of ERK1/2.

Intranuclear rodlets in human pancreatic islet cells.

OBJECTIVES: Intranuclear rodlets (INRs) are rod-shaped intranuclear inclusions that we have described in neurons of the human brain. We recently identified these structures in pancreatic islet cells. The objectives of this study are to describe the light microscopic features and cellular pattern of distribution of INRs in human pancreatic islet cells. METHODS: Double immunofluorescence staining was performed on 5 human pancreatic tissue samples for the detection of class III beta tubulin (C3T) to detect INRs and for promyelocytic leukemia (PML) protein to examine the relationship between PML and INRs. RESULTS: Intranuclear rodlets were detected in 22.99% of pancreatic B cells compared with only 3.11%, 1.80%, and 1.60% of A, D, and PP cells, respectively. Twenty-four percent of C3T-immunoreactive INRs showed partial or complete immunoreactivity for PML. Promyelocytic leukemia staining within the nuclei of B cells was confined to INRs and was not present in the typical PML bodies present in other cell types. Spatially, PML and C3T staining of islet cell INRs appeared to be mutually exclusive within individual INRs. CONCLUSIONS: Intranuclear rodlets are present within the nuclei of pancreatic islet cells, where they reside predominantly but not exclusively in B cells. Immunoreactivity of B-cell INRs for PML suggests that the functional significance of INRs may be related to that of PML and/or PML bodies. Conversely, the exclusive localization of PML staining to INRs in B cells indicates that PML's function in B cells is selectively associated with INRs. The mutually exclusive pattern of PML and C3T staining suggests dynamic interactions between these 2 proteins in B-cell INRs. In light of evidence for the involvement of INRs and of PML bodies in disease, it will be of interest to investigate these structures in animal models of diabetes and in human diabetes.