Yasuomi Yamasaki scite author profile

Nitric oxide (NO) is believed to be an effector molecule that mediates interleukin (IL)-1 beta-induced destruction and dysfunction of pancreatic beta-cells. We have demonstrated that both exogenous NO and NO generated endogenously by IL-1 beta brought about apoptosis of isolated rat pancreatic islet cells as well as pancreatic beta-cell tumor-derived cell line HIT. This apoptosis was characterized by cleavage of DNA into nucleosomal fragments of 180-200 bp and morphologically by nuclear shrinkage, chromatic condensation, and apoptotic body formation. The IL-1 beta-induced internucleosomal DNA cleavage occurred in a time- and dose-dependent manner. Actinomycin D, cycloheximide, and nitric oxide synthase inhibitors inhibited the DNA cleavage, which was correlated with the amount of NO produced, indicating that NO produced by HIT cells themselves could mediate the apoptosis. Furthermore, in the presence of tumor necrosis factor (TNF)-alpha, large amounts of NO were produced by IL-1 beta and DNA cleavage occurred more noticeably, although TNF-alpha alone did not generate NO. Streptozotocin (STZ), a diabetogenic reagent containing a nitroso moiety, also released NO and induced internucleosomal DNA cleavage in HIT cells. These results suggest that NO-induced internucleosomal DNA cleavage is an important initial step in the destruction and dysfunction of pancreatic beta-cells induced by inflammatory stimulation or treatment with STZ.

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Pharmacokinetic Analysis of in Vivo Disposition of Succinylated Proteins Targeted to Liver Nonparenchymal Cells via Scavenger Receptors: Importance of Molecular Size and Negative Charge Density for in Vivo Recognition by Receptors

Yamasaki¹,

Sumimoto²,

Nishikawa³

et al. 2002

J Pharmacol Exp Ther

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In vivo disposition characteristics of succinylated (Suc-) proteins were studied after intravenous injection in mice in relation to their molecular characteristics as negatively charged macromolecules. Recombinant superoxide dismutase (SOD; molecular mass, 32 kDa), bovine serum albumin (BSA; molecular mass, 67 kDa), and bovine IgG (molecular mass, 150 kDa) were used to produce succinylated derivatives with different degrees of modification.111 In-labeled Suc-SODs were rapidly excreted into the urine with no significant hepatic uptake. In contrast, 111 In-Suc-BSA and Suc-IgG were significantly taken up by liver nonparenchymal cells via scavenger receptors (SRs) according to the degree of succinylation and the dose injected. Interestingly, highly succinylated BSAs exhibited significant accumulation in the kidney at higher doses when the hepatic uptake was saturated. Pharmacokinetic analysis demonstrated that the hepatic uptake of succinylated proteins depended on the molecular size and the estimated surface density of succinylated amino residues. Further analysis based on a physiological pharmacokinetic model, involving a saturable process with Michaelis-Menten kinetics, revealed that the surface density of negative charges was correlated with the affinity of larger succinylated proteins for the hepatic SRs. Thus, the present study has provided useful basic information for a therapeutic strategy and the molecular design of succinylated proteins for use as drug carriers and therapeutic agents per se for SR-mediated targeting in vivo.

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Efficient scavenger receptor‐mediated uptake and cross‐presentation of negatively charged soluble antigens by dendritic cells

et al. 2004

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SUMMARYExogenous antigens endocytosed in large amounts by antigen-presenting cells (APC) are presented on major histocompatibility complex (MHC) class I molecules as well as on class II molecules, a process called cross-presentation. Among APC, dendritic cells (DC) play a key role in cross-presentation by transporting internalized antigen to the cytosol. The present study shows that ovalbumin (OVA) introduced with negative charges by succinylation (Suc-OVA), maleylation (Mal-OVA) or cis-aconitylation (Aco-OVA) was efficiently taken up by DC via scavenger receptors (SR). Mal-OVA and Aco-OVA were efficiently cross-presented by DC, while cross-presentation of Suc-OVA was hardly observed. MHC class I presentation of acylated OVA introduced directly into the cytosol was inefficient and presentation of exogenous native OVA but not of Aco-OVA was markedly augmented by chloroquine, an inhibitor of endosomal acidification, suggesting that deacylation in endosomes or lysosomes is necessary for cross-presentation of acylated OVA. MHC class I presentation of exogenous native OVA and Aco-OVA by DC was blocked by lactacystin and brefeldin A, demonstrating that exogenous antigens taken up by DC are cross-presented through the conventional cytosolic pathway. Therefore, SR-mediated delivery of antigen to DC leads to efficient cross-presentation, although the pathway of chemical modification should be considered.

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