Limited availability of L-arginine increases DNA-binding activity of NF-kappaB and contributes to regulation of iNOS expression.

The impact of nutrients on gene expression can be mediated by the availability of amino acids. The aim of this study is to examine the effect of limited availability of L: -arginine on the DNA-binding activity of NF-kappaB, a dominant transcription factor in inflammation, and the consequence for the expression pattern of inducible nitric oxide synthase (iNOS) in murine keratinocytes. Low availability of L: -arginine leads to activation and increased DNA-binding activity of NF-kappaB and induction of iNOS messenger RNA (mRNA) in the absence of cytokines, but not to translation into iNOS protein. Cytokine challenge at low L: -arginine also enhances iNOS mRNA expression, but translation into iNOS protein is diminished, leading to lowered nitric oxide production. The decrease in iNOS protein expression is mediated by the phosphorylation of the translation initiation factor eIF2alpha subunit, a key regulator of cellular translation. In contrast, the mRNA expression of the NF-kappaB-dependent genes IL-1alpha and cationic amino acid transporter-2 (CAT-2) are not affected by the availability of L-arginine. These results demonstrate that the availability of L: -arginine can play a role in the control of gene expression by augmenting the DNA-binding activity of NF-kappaB, which can affect the initiation and progression of dermal inflammation.

Arginase-1 overexpression induces cationic amino acid transporter-1 in psoriasis.

Regulated uptake of extracellular l-arginine by cationic amino acid transporters (CATs) is required for inducible nitric oxide synthase and arginase activity. Both enzymes were recently recognized as important in the pathophysiology of psoriasis because of their contribution to epidermal hyperproliferation. We here characterize the expression pattern of CATs in psoriatic skin compared to healthy skin. CAT-1 mRNA expression was strongly upregulated in lesional and nonlesional areas of psoriatic skin compared to healthy skin, whereas expression of CAT-2A and the inducible isoform CAT-2B was unaltered in psoriatic skin. Furthermore, we tested the hypothesis that arginase-1 overexpression regulates CAT expression via intracellular l-arginine concentration. In in vitro experiments with arginase-1 overexpressing HaCaT cells, CAT-1 mRNA expression was increased. Likewise, this occurs in l-arginine-starved HaCaT cells. Both CAT-2 isoforms were not affected. Arginase-1 overexpression limits the synthesis of NO at physiological, but not supraphysiological, l-arginine levels. Plasma l-arginine concentration was diminished in psoriasis patients and the arginase product l-ornithine was significantly increased compared to healthy controls. In summary, arginase-1 overexpression leads to upregulated CAT-1 expression in psoriatic skin, which is due to lowered intracellular l-arginine levels and limits NO synthesis at physiological l-arginine concentrations.

Impact of Mycoplasma hyorhinis infection on L-arginine metabolism: differential regulation of the human and murine iNOS gene.

Infection with mycoplasma is a common problem in cell cultures, with Mycoplasma hyorhinis being the predominant species. Here we investigate the effect of M. hyorhinis infection on L-arginine metabolism, with focus on iNOS-mediated NO synthesis in murine keratinocytes and the human colon cancer cell line DLD-1. iNOS and arginase are L-arginine-metabolizing enzymes involved in the regulation of inflammatory processes, with NO contributing to innate immunity. In murine cells, M. hyorhinis infection enhances cytokine-induced iNOS expression and augments iNOS activity, whereas in the absence of cytokines it causes de novo induction of iNOS mRNA without subsequent translation into iNOS protein. In turn, arginase-1 mRNA expression is diminished in M. hyorhinis-infected murine keratinocytes, resulting in decreased arginase activity. One of the underlying upstream mechanisms is NF-kappaB activation. In contrast, in human cells neither iNOS mRNA nor protein expression is affected by M. hyorhinis infection, but NO synthesis is enhanced, which may be caused by increased L-arginine import. This demonstrates that infection with M. hyorhinis leads to different effects on gene regulation of the murine and human iNOS gene. Our study underlines the importance of routine checking of cell cultures for mycoplasma contamination, particularly in studies on NO-mediated effects or inflammatory processes.