Serum neopterin levels in relation to mild and severe COVID-19

The COVID-19 pandemic, caused by the coronavirus SARS-CoV-2, is rapidly spreading worldwide [1]. Most patients have mild symptoms from the upper respiratory tract, whereas a minor but not negligible proportion suffers from a severe form of the disease, which in some cases require intensive care [2]. There is limited information about prognostic markers that could help clinicians to identify COVID-19 patients with a poor prognosis. During the outbreak of the severe acute respiratory syndrome (SARS) in 2002–2003, caused by the similar coronavirus SARS-CoV, levels of the immune activation marker neopterin were found to predict the course of disease [3].

Neopterin (6-(D-erythro-1′, 2′, 3′-trihydroxypropyl)-pterin) is a well-established immune activation marker with elevated concentrations seen in many inflammatory states including infections, autoimmune disorders, and cancer [4]. In acute viral infections such as hepatitis [5], Cytomegalovirus disease [6], Rubella [7], and dengue fever [8], serum neopterin levels correlate with the activity of the disease, and can be detected before antibody production [4]. The elevation of neopterin originates mainly from the increased synthesis by human monocyte-derived macrophages, whereby interferon-gamma (IFN-y) is the most central activating cytokine [9]. IFN-y also promotes the conversion of the essential amino acid L-tryptophan (TRP) to N-formylkynurenine, which is rapidly converted into the more stable kynurenine (KYN), by induction of the anti-proliferative and immunoregulatory enzyme indoleamine 2,3-dioxygenase (IDO). The first step of the TRP breakdown is the rate-limiting step in the TRP catabolic route along the KYN axis, and the KYN to TRP ratio can be used as a measure of the IDO enzyme activity [10]. Taken together, IFN-y mediated immune response to viral infections may lead to elevated neopterin levels, as well as increased TRP degradation and elevated KYN to TRP ratio [4, 11].

In patients with SARS, elevated levels of neopterin were detected already at the day of symptom onset, and rose to a maximum level at day 3 [3]. Moreover, patients with higher levels of neopterin at an early stage suffered from a severer course of disease, including higher and longer period of fever, more severe dyspnea, longer hospitalization, and more complications [3]. Considering these findings and the similarity of the coronaviruses, neopterin may be a useful prognostic marker for the course of COVID-19. The aim of this study was to investigate whether serum neopterin levels in COVID-19 patients are associated with the severity of disease.

The study population comprised 34 patients with COVID-19, of which 15 displayed mild symptoms (mean age 51.3 years (SD 13.7)), and 19 developed a severe form of the disease (mean age 61.3 years (SD 11.4)). Cough, myalgia, nasal congestion, fever, and sore throat were the most common symptoms among mild cases, whereas fever, cough, dyspnea, and fatigue were most frequent in severe cases (Table 1). Among severe cases, all but four required invasive mechanical ventilation, and three were in need of continuous renal replacement therapy. Four deaths occurred in this group. Comorbidities among mild cases were rare, while a majority of severe cases had one or more comorbidities, of which hypertension and diabetes mellitus were most frequent (Table 1).

To test whether neopterin levels are associated with the severity of COVID-19, we compared serum neopterin concentrations between patients with mild and severe disease. We found a more than two-fold higher mean concentration of neopterin in severely ill patients (mean value 42.0 nmol/L (SD 18.2)) compared to patients with mild symptoms (16.9 nmol/L (SD 11.0)) (Table 2, Figs. 1 and 2). All of the severe cases had elevated neopterin concentrations (> 9.1 nmol/L) at the initial sampling with values ranging from 17.2 to 86.7 nmol/L, measured at day 4–20 (mean 11.7 (SD 5.8); median 14) since onset of symptoms. In comparison, 10 of 15 patients with mild disease had neopterin levels above 9.1 nmol/L at day 2–19 (mean 10.2 (SD 9); median 9), with concentrations for the entire group in the range from 4.9 to 31.6 nmol/L. These results show that patients with severe COVID-19 display higher levels of neopterin than mild cases. Since renal insufficiency may affect serum neopterin levels [14], we analyzed creatinine levels in relation to neopterin in severe cases. However, no significant correlation was found (r = 0.36, p = 0.13). Moreover, we found no association between neopterin levels and C-reactive protein (CRP) or B-lymphocytes among the severely ill (data not shown).

As a next step, we studied the trajectory of neopterin during the progression of COVID-19 by repeated measurements. We found that serum neopterin levels decreased over time, regardless of mild or severe disease (p < 0.0001, Fig. 3). At day 14 after symptom onset, the group with severe disease displayed 2.3 times higher neopterin levels than patients with mild disease. Moreover, neopterin concentrations decreased 23% per week in severe cases compared to 31% per week in mild cases. The difference in slope was, however, not significant (p = 0.23). Twelve of the patients with mild disease had normal levels (< 9.1 nmol/L) at the last measurement. In contrast, only one patient among the severely ill returned to a normal level during the study period (Fig. 3). These results show that neopterin levels gradually decrease during the course of COVID-19, but that severe cases maintain elevated levels for a longer period. Collectively, our findings indicate an association between neopterin and the severity of COVID-19.

Furthermore, we investigated TRP, KYN, and IFN-y concentrations in relation to mild and severe COVID-19. As seen in Fig. 1, we found lower levels of TRP and higher levels of KYN in severe cases, as compared to mild cases. This indicates that a severe form of COVID-19 is associated with an increased TRP catabolism. Additionally, KYN/TRP concentrations closely correlated to neopterin (r = 0.7, p < 0.0001, Fig. 4). Analysis of IFN-y in serum revealed significantly higher levels in severe cases compared to mild cases (Table 2), and the levels of IFN-y correlated to neopterin (r = 0.8, p < 0.0001).

In the present study, we investigated if serum neopterin levels in patients with COVID-19 are associated with the severity of disease. We report that higher neopterin concentrations were seen in patients who developed severe disease compared to patients with mild disease. In the group with severe COVID-19, we also found an increased metabolism of TRP, as expressed by higher KYN to TRP ratio.

The observed difference in neopterin concentrations between mild and severe COVID-19 is in agreement with previous results from SARS patients [3]. In that study, higher neopterin levels were associated with a longer fever period, as well as a severer course of disease. Moreover, a recent report on hospitalized COVID-19 patients showed that neopterin levels were significantly higher in severe cases compared to mild cases [15]. Besides supporting these findings, our study adds the trajectory of neopterin levels with repeated measurements, where we found that most patients with mild symptoms returned to normal neopterin levels at the end of the study period. In contrast, neopterin levels remained elevated during the course of disease in the severely ill. This probably illustrates a more advanced and prolonged inflammatory state, as suggested by others [16].

The elevated levels of neopterin and IFN-y in severely ill patients with COVID-19 indicate a potent stimulation of the monocyte/macrophage–T cell interplay during the symptomatic period [9]. Our detection of high neopterin concentrations already at day 2 after symptom onset suggests an early inflammatory response to SARS-CoV-2. Likewise, the study of SARS patients [3], and also a study of dengue fever [8], found neopterin elevation at the first day of symptoms. The characteristics of neopterin being elevated at an early stage of disease, as well as being associated to disease severity, suggest it as a useful prognostic marker for COVID-19.

The increased KYN to TRP ratio in patients with severe COVID-19 reflects an increased TRP catabolism. Similar findings have been presented for HIV-infected patients with a progressive disease [17]. TRP deprivation is an effective strategy of the Th1-type immune response to reduce undesirable proliferation of pathogens and infected cells [18], which may be useful for disease control in COVID-19.

When interpreting our results, one must consider the potential involvement of renal function [14]. Acute kidney injury has been found in 50% of fatal COVID-19 cases [19]. In this context, the lack of creatinine measurements in mild cases make out a limitation of the present study. However, we found no correlation between creatinine and neopterin levels in the severe cases at the first measurement.

The present study shows an association between neopterin levels and severity of COVID-19, and also elevated concentrations early in disease progression. In conclusion, serum neopterin is a potential marker for the prognosis of COVID-19 when detected in blood samples from a few days since symptom onset, but further studies are needed to elucidate how it can be used in the clinic.