Gabriele Neurauter

Interferon-alpha–induced changes in tryptophan metabolism: relationship to depression and paroxetine treatment

BACKGROUND Tryptophan (TRP) degradation into kynurenine (KYN) by the enzyme, indoleamine-2,3-dioxygenase, during immune activation may contribute to development of depressive symptoms during interferon (IFN)-alpha therapy. METHODS Twenty-six patients with malignant melanoma were randomly assigned in double-blind fashion to receive either placebo or paroxetine, beginning 2 weeks before IFN-alpha treatment and continuing for the first 12 weeks of IFN-alpha therapy. At treatment initiation and at 2, 4, and 12 weeks of IFN-alpha treatment, measurements of TRP, KYN, and neopterin (a marker of immune activation), were obtained, along with structured assessments of depression, anxiety, and neurotoxicity. RESULTS Regardless of antidepressant treatment status, all patients exhibited significant increases in KYN, neopterin, and the KYN/TRP ratio during IFN-alpha therapy. Among antidepressant-free patients, patients who developed major depression exhibited significantly greater increases in KYN and neopterin concentrations and more prolonged decreases in TRP concentrations than did nondepressed, antidepressant-free patients. Moreover, in antidepressant-free patients, decreases in TRP correlated with depressive, anxious, and cognitive symptoms, but not neurovegetative or somatic symptoms. No correlations were found between clinical and biological variables in antidepressant-treated patients. CONCLUSIONS The results suggest that reduced TRP availability plays a role in IFN-alpha-induced depressive symptoms, and paroxetine, although not altering the KYN or neopterin response to IFN-alpha, attenuates the behavioral consequences of IFN-alpha-mediated TRP depletion.

Immune activation and degradation of tryptophan in coronary heart disease

Background Inflammation and immune activation appear to be important in the pathogenesis of coronary heart disease (CHD). Cytokine interferon‐γ, which is released during cell‐mediated immune responses, induces indoleamine (2,3)‐dioxygenase (IDO), an enzyme degrading tryptophan to kynurenine. Therefore, immune stimulation is commonly associated with an increased kynurenine to tryptophan ratio (kyn trp−1) indicative for activated indoleamine (2,3)‐dioxygenase and a measurable decline of tryptophan.

Effective Antiretroviral Therapy Reduces Degradation of Tryptophan in Patients with HIV-1 Infection

Activation of indoleamine-(2,3)-dioxygenase (IDO), an enzyme converting tryptophan to N-formyl-kynurenine, was found to be critical for induction of T-cell tolerance. In 45 HIV-seropositive patients we measured plasma tryptophan and kynurenine before and 6 months post-initiation of ART. Before ART, patients had decreased tryptophan and increased kynurenine levels compared to controls. During ART, average tryptophan concentrations increased, kynurenine decreased. Tryptophan degradation correlated with neopterin levels and with viral load but not with CD4 cell counts. The data support the concept that immune activation is the common background of IDO activation and could represent an important factor underlying T-cell hyporesponsiveness in HIV infection.

Rapid measurement of total plasma homocysteine by HPLC

BACKGROUND Determination of plasma homocysteine has gained increasing interest during the past few years. Several HPLC methods for determination of homocysteine are available. Based on these methods, we developed a new HPLC assay for rapid and sensitive measurement of total plasma homocysteine. METHODS As a reducing reagent tris-(2-carboxylethyl)-phosphine is used, ammonium 7-fluorobenzo-2-oxa-1,3-diazole-4-sulfonate serves as the derivatization agent. Separation is performed by reversed-phase HPLC using a precolumn and a 55-mm RP(18) cartridge; mobile phase: 0.1 mol/l KH(2)PO(4) with 5% methanol, adjusted to pH 2.7 with ortho-phosphoric acid, flow-rate 1.1 ml/min. RESULTS Homocysteine is clearly separated from other thiols, the retention time being 2.2 min, total analysis time is 6 min. Tests for linearity, recovery and precision are satisfactory, as well as the comparison with a commercial available assay method. Detection limit of the method is 0.5 micro mol/l, it could be further enhanced for measurements of even lower homocysteine concentrations in, e.g., cell culture supernatants. CONCLUSIONS The described method is well suited for analysis of thiols in blood specimens. It is more convenient and more rapid than methods described earlier.

Longitudinal study of tryptophan degradation during and after pregnancy

In mice, activation of indoleamine-2,3-dioxygenase (IDO), an enzyme converting tryptophan to N-formyl-kynurenine, was found to be necessary requirement to achieve immunotolerance against the fetus and thus uncomplicated pregnancy. In plasma from 20 healthy pregnant women with singleton pregnancies we consecutively analyzed kynurenine and tryptophan concentrations during pregnancy (1 specimen at each trimester of gestation) and postpartum (week 6). None of the women had any signs of infection at the time of plasma sampling, but the study population was otherwise unselected. The kynurenine to tryptophan ratio (kyn/trp) was calculated as an estimate of IDO activity, and data were compared to concentrations of neopterin and 55kD soluble tumor necrosis factor receptor (sTNF-R55), two indicators of immune activation, and to alanineaminotransferase (ALT) levels. Increasing kynurenine and decreasing tryptophan concentrations were found during pregnancy, data suggesting significant degradation of tryptophan. In parallel, increasing concentrations of immune activation markers neopterin and sTNF-R55 were observed, correlating significantly to kyn/trp. The data point to an involvement of cytokine-induced IDO activation in the degradation of tryptophan observed during pregnancy. After pregnancy, sTNF-R55 and also neopterin concentrations declined, whereas tryptophan concentrations increased, indicating that immune activation and activation-induced tryptophan degradation returned to baseline. By contrast, still increased kynurenine concentrations and also increased kyn/trp point to continuing catabolism of tryptophan. Postpartum elevation of liver enzyme ALT may suggest that increased activity of hepatic tryptophan pyrrolase could be involved in increased conversion of tryptophan despite low degree of immune activation. We conclude that IDO is activated in pregnancy and that the decrease of tryptophan might be related to immune activation phenomena. Sustained increase of kynurenine postpartum seems independent from immune activation process.

Serum phenylalanine concentrations in patients with ovarian carcinoma correlate with concentrations of immune activation markers and of isoprostane-8

Increased blood concentrations of essential amino acid phenylalanine are common in patients with HIV infection, in trauma and sepsis and in patients with cancer. The reason for this phenomenon is still unclear. However, all these clinical conditions are known to be linked with inflammation and immune activation. Oxidative stress resulting from chronic immune activation and inflammation could impair activity of phenylalanine (4)-hydroxylase (PAH) and thus give rise to increased phenylalanine concentrations. We therefore examined in 20 patients with ovarian cancer a possible association of serum concentrations of phenylalanine and tyrosine with immune activation markers 75 kDa soluble tumor necrosis factor-alpha receptor (sTNF-R75) and neopterin, and of oxidative stress marker isoprostane-8. Phenylalanine concentrations were higher in patients with higher FIGO stage and correlated with concentrations of sTNF-R75 (rs=0.441) and neopterin (rs=0.346; both p<0.05). No such correlations existed for tyrosine levels. The phenylalanine to tyrosine ratio (phe/tyr), an estimate of PAH activity, correlated somewhat stronger with sTNF-R75 (rs=0.549; p<0.01) and neopterin (rs=0.497; p=0.01). Finally, phenylalanine concentrations correlated with isoprostane-8 concentrations (rs=0.450, p=0.02). Correlations of phenylalanine and phe/tyr with immune activation markers point to a potential role of inflammation and immune activation in the accumulation of phenylalanine. The relationship between oxidative stress marker isoprostane-8 and phenylalanine as well as sTNF-R75 concentrations suggests a link between reactive oxygen species formed during chronic immune activation and inflammation and the decline of PAH activity, which might underlie the increase of phe/tyr (248 words).

Increased blood phenylalanine to tyrosine ratio in HIV-1 infection and correction following effective antiretroviral therapy

OBJECTIVE Higher blood levels of the essential amino acid phenylalanine (phe) have been documented in patients with HIV-1 infection. They may relate to a diminished conversion of phe to tyrosine (tyr) by the enzyme phenylalanine-hydroxylase (PAH). PAH is rate-limiting in the biosynthesis of dopamine, and impaired PAH activity is reflected by an increased phe to tyr ratio (phe/tyr). METHODS Plasma phe/tyr was measured in 107 patients with HIV-1 infection before and after 12 months of effective antiretroviral therapy (ART). Results were compared with CD4+ cell counts, HIV-1 RNA levels and concentrations of immune activation marker neopterin. RESULTS Before ART, phe/tyr was mean+/-S.D.: 0.99+/-0.57 micromol/micromol. Phe/tyr correlated significantly with plasma and urine neopterin concentrations (rs=0.434, and rs=0.392; both p<0.001) and less strongly with HIV-RNA levels (rs=0.173) and CD4+ counts (rs=-0.182, both p<0.05). After ART, phe/tyr dropped to 0.72+/-0.16 (=-27%; U=5.21, p=0.01) which was due to an average decline of -14% of phe concentrations from 73.1+/-34.0 micromol/L at baseline to 62.9+/-17.8 micromol/L after ART (U=2.51, p=0.01) and a concomitant increase of tyr concentrations (+13%, U=2.46, p=0.01). In parallel, significant reductions of plasma and urine neopterin concentrations were observed during ART. CONCLUSIONS Increased phe/tyr is frequent in patients with HIV-1 infection and is related to immune activation. ART was found to decrease phe/tyr and this change could indicate and influence on PAH activity. Future studies might be able to show whether the decline of phe/tyr under ART may concur with the often improved neuropsychiatric status in treated patients.

Serum phenylalanine in patients post trauma and with sepsis correlate to neopterin concentrations

Summary.Increased blood concentrations of phenylalanine in patients with trauma and sepsis are common but unexplained. We examined the potential relationship between serum concentrations of phenylalanine and the immune activation marker neopterin in 84 specimens of 18 patients (14 males and 4 females) post-trauma during 12–14 days of follow up. Compared to healthy controls, average phenylalanine and neopterin concentrations were elevated in patients, and there existed a positive correlation between concentrations of the two analytes (rs = 0.375, p < 0.001). No such association existed between neopterin and tyrosine concentrations (rs = −0.018), but neopterin concentrations correlated to the phenylalanine to tyrosine ratio (rs = 0.328, p = 0.001).Increased phenylalanine implies insufficient conversion by phenylalanine (4)-hydroxylase (PAH). Oxidative stress due to immune activation and inflammation may destroy cofactor 5,6,7,8-tetrahydrobiopterin and impair PAH activity. This assumption is further supported by the correlation found between higher neopterin concentrations and higher phenylalanine to tyrosine ratio, which estimates efficacy of PAH.

Enhanced tryptophan degradation in patients with ovarian carcinoma correlates with several serum soluble immune activation markers

Tryptophan-degrading enzyme indoleamine 2,3-dioxygenase (IDO) represents an antimicrobial and antitumoral immune effector mechanism, but IDO also suppresses T-cell responses and thus can cause immune system failure. Therefore, IDO was proposed as an immunoescape mechanism of tumor cells. Compared to healthy controls, accelerated tryptophan degradation was observed in the blood of 20 patients with ovarian carcinoma as is reflected by an increased kynurenine to tryptophan ratio (kyn/trp) which allows an estimate of IDO activity. Higher FIGO stage but not tumor grading was associated with a higher rate of tryptophan degradation. Kyn/trp correlated strongly with concentrations of cytokine IL-6, of soluble interleukin-2 receptor-α and 75 kDa TNF-α receptor and of the macrophage marker neopterin (all p<0.001 or p<0.01) but not with TNF-α. Findings further supports the concept that increased IDO activity in ovarian cancer patients relates to immune activation pathways. Accordingly, accelerated tryptophan degradation appears to represent an immune escape mechanism. However IDO activity is not necessarily a spontaneous activity of ovarian cancer cells rather it is elicited by the activated immune system although an additional spontaneous activity of tumor cells cannot be ruled out.

Simultaneous measurement of phenylalanine and tyrosine by high performance liquid chromatography (HPLC) with fluorescence detection

OBJECTIVES An HPLC method was developed to quantify serum concentrations of phenylalanine and tyrosine simultaneously using fluorescence detection without derivatization. METHODS Serum protein is precipitated with trichloroacetic acid, 0.015mM dihydrogen-phosphate solution is used for separation on reversed-phase C18 material, and acetonitrile is avoided. Both amino acids are monitored utilizing their natural fluorescence at 210nm excitation and 302nm emission wavelengths. RESULTS One analytical run is completed within 7min. Lower detection limit for Phe and Tyr is 0.3μM. Comparison of the new method with a classical HPLC method for total amino acids and using UV-absorption detection reveals a highly significant relationship for Phe and Tyr. CONCLUSION The new HPLC method allows rapid and very sensitive measurement of phenylalanine and tyrosine concentrations.