key: cord-0964297-rieh5zbd authors: Gritti, Giuseppe; Raimondi, Federico; Bottazzi, Barbara; Ripamonti, Diego; Riva, Ivano; Landi, Francesco; Alborghetti, Leonardo; Frigeni, Marco; Damiani, Marianna; Micò, Caterina; Fagiuoli, Stefano; Lorini, Ferdinando Luca; Gandini, Lucia; Novelli, Luca; Morgan, Jonathan P.; Owens, Benjamin M. J.; Kanhai, Karan J. K.; Reljanovic, Gordana Tonkovic; Rizzi, Marco; Di Marco, Fabiano; Mantovani, Alberto; Rambaldi, Alessandro title: Siltuximab downregulates interleukin-8 and pentraxin 3 to improve ventilatory status and survival in severe COVID-19 date: 2021-05-24 journal: Leukemia DOI: 10.1038/s41375-021-01299-x sha: 7e06f5f8070220cd8fbcd643d4d7147a3d831c7c doc_id: 964297 cord_uid: rieh5zbd nan their legal representative, provided either verbal or written consent to participate in the study. The inclusion and exclusion criteria are detailed in the Supplementary Materials and Methods. All patients were monitored according to the hospital and Italian national guidelines for a minimum of 30 days, and if a patient was discharged from the hospital, they were asked to provide relevant laboratory results and safety information for 30 days following the start of treatment. The primary endpoint of this study was mortality in COVID-19 patients treated with siltuximab, calculated as the time from ventilation to death from any cause within 30 days of treatment [6] . As part of the exploratory analyses, we wanted to assess the prognostic effects of the down-modulation of cytokines by siltuximab. For this reason, we explored the change in cytokine levels and ventilatory status within 30 days of treatment and patient mortality. In addition, the ventilatory support parameters, respiratory function (ratio of arterial oxygen partial pressure to fractional inspired oxygen), and adverse events according to the US National Cancer Institute Common Terminology Criteria for Adverse Events v4.03, within 30 days of siltuximab treatment, were evaluated. Data were obtained from hospital medical records and included demographic data, presenting symptoms and history of previous treatments, vital signs, ventilatory support, and laboratory data, including blood counts and AST, ALT, creatinine, procalcitonin, lactate dehydrogenase, and CRP levels. The following cytokines and chemokines were measured on days 1 and 4 of the study: pentraxin 3 (PTX3), IL-8, IL-10, IL-12, TNF, CXCL10/IP-10, CXCL9/MIG, CCL2/MCP-1, and sCD163 (details in Supplementary Materials and Methods). Response to treatment was defined as a reduction in the need for ventilatory support and the resolution of symptoms and signs of COVID-19. Patients received a siltuximab dose of 11 mg/kg administered intravenously over an hour. A second dose was permitted 72 h after the first dose at the physician's discretion. Standard treatment was provided according to hospital guidelines (detailed in the Supplementary Materials and Methods). Forward stepwise regression modeling was performed to assess the association of cytokines with mortality status and ventilatory outcomes (details in Supplementary Materials and Methods). A p value of ≤ 0.05 was considered significant. The baseline characteristics and hematological parameters of patients treated with siltuximab are provided in the Supplementary Results (Supplementary Tables 1 and 2) . Of the 30 patients treated with siltuximab, 10 died, the condition of four patients either remained the same or deteriorated, and 16 showed improvements in ventilatory status and were discharged from the hospital (Fig. 1a) . Twelve of the 30 siltuximab-treated patients did not receive corticosteroids at any time during the study period. Corticosteroids were intravenously administered to the other 18 siltuximab-treated patients. Of these 18, five patients received corticosteroids prior to siltuximab treatment, while 13 patients received corticosteroids after day 4 and, therefore, after siltuximab treatment. Three patients received corticosteroids only for 1 day, of which only one had them administered prior to siltuximab treatment (Fig. 1b) . Ten patients who had concomitant siltuximab and corticosteroids improved and were discharged. Two patients remained stable, and six patients died. Of patients who had siltuximab and corticosteroid dosing for longer than 5 days, seven had improved ventilatory status and survival, the condition of two patients remained stable, and four died (Fig. 1b) . Baseline levels of blood cytokines and chemokines (PTX3, IL-8, IL-10, IL-12, CRP, sCD163, CXCL10, CCL2, CXCL9, and TNF) were neither correlated with nor predictive of mortality ( The univariate analysis identified that patients with lower levels compared with higher levels of PTX3 (p = 0.0056), IL-8 (p = 0.015), IL-10 (p = 0.0196), and IL-12 (p = 0.0113) measured on day 4 following siltuximab treatment had improved ventilatory status at day 30 (Fig. 2b) . However, stepwise regression modeling only retained PTX3 (p = 0.051) and IL-8 (p = 0.061) as cytokines that were associated with improved ventilatory status. In the predictive model, patients with PTX3 levels within Q1 and IL-8 levels within median levels had a 92.0% probability of improvement in ventilatory status (95% CI 41.7-99.5), while this dropped to 89.2% for patients with PTX3 within median levels and IL-8 within Q1 (95% CI 43.3-98.9). Meanwhile, patients with PTX3 within Q3 and median IL-8 had just a 27.8% probability of improvement in ventilatory status (95% CI 7.3-65.5). Similarly, patients with median PTX3 and IL-8 within Q3 had a 40.6% probability of improvement in ventilatory status (95% CI 13.1-75.6; Supplementary Fig. 1b) . The multivariable stepwise regression model was able to correctly predict outcomes in 19/22 (86%) and 20/22 (91%) patients for day 30 mortality and day 30 ventilatory status, respectively (Supplementary Table 3 ). Adverse events were recorded for all 30 siltuximabtreated patients included in the study. No new or unexpected drug-related adverse events were reported in siltuximab-treated patients, and the majority were Grade 3 or below (Supplementary Tables 4 and 5) . To our knowledge, this is the first study to report on treatment with siltuximab in patients with COVID-19 and to show that modification of the cytokine profile after treatment is prognostic of outcome. Our data suggest that a timely modulation of PTX3 by siltuximab represents a local effect of IL-6 inhibition in reducing inflammation in the lung bronchoalveolar lavage fluid [7, 8] . Moreover, modulation of IL-8 levels by siltuximab suggests an inhibition of systemic inflammation, which may prevent IL-8-mediated recruitment and activation of neutrophils [9, 10] . The beneficial effects of siltuximab in reducing local and systemic inflammation are reflected in the improved survival and respiratory function in patients with severe COVID-19 who had attenuated cytokine storms. We hypothesize that patients who do not exhibit a response to siltuximab-mediated inhibition of the cytokine storm are less likely to show improvements in response to severe COVID-19 infection without a change in management strategy. Siltuximab was well tolerated, and the adverse event profile in patients with COVID-19 was similar to that reported for patients with idiopathic multicentric Castleman disease [11] . There were no adverse events that were related to siltuximab. Our study has limitations. It is an observational study with a small sample size and no control patients, which limits the interpretation and generalizability of the results. Unlike multivariable analysis, univariate analysis cannot examine relationships between different factors. However, careful consideration is required for the interpretation of the multivariable analyses performed on a small sample size. Given the study's limitations, the results require a comprehensive assessment in adequately powered randomized controlled trials. In conclusion, this preliminary study suggests that the reduction of IL-8 and PTX3 levels on day 4 following siltuximab treatment is associated with improved survival and ventilatory outcomes in patients hospitalized for COVID-19. A randomized clinical trial would be informative to confirm the efficacy and safety of this IL-6-neutralizing monoclonal antibody in the treatment of patients with viral acute respiratory distress syndrome. Ethics approval and consent to participate We complied with all relevant ethical rules. The protocol and informed consent forms were approved by the Hospital Ethics Board at the Papa Giovanni XXIII Hospital in Bergamo, Italy. Patients, or their legal representative, provided either verbal or written consent to participate in the study. Publisher's note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. 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Data collection and analysis were completed by Federica Delaini and Silvia Lanzani from Papa Giovanni XXIII Hospital and Eva E. Alder from ErgoMed. Medical writing assistance was provided by Cheryl Jenkins and Azhaar Ashraf from TVF Communications (London, UK). The study was supported by COVID -2020-12371640 "Innate and adaptive immunity in COVID-19: from mechanisms to patients". Conflict of interest JPM, BMJO, and KJKK are employees of EUSA Pharma. AR reports consultancy fees from Amgen, Celgene, Gilead, Italfarmaco, Novartis, Omeros, Pfizer, and Roche; travel support from Amgen, Celgene, Gilead, Italfarmaco, Novartis, and Roche; and research grants from Amgen, Italfarmaco, and Roche. CM reports travel support from Medac. DR reports personal fees from Gilead, Janssen, and ViiV. FDM reports grants from AstraZeneca, Boehringer Ingelheim, GlaxoSmithKline, and Novartis; and personal fees from Almirall, AstraZeneca, Boehringer Ingelheim, Chiesi, GlaxoSmithKline, Guidotti/Malesci, Menarini, Mundipharma, Novartis, Teva, and Zambon. GG reports non-financial support from Gilead Kite, Janssen, Roche, and Takeda; and personal fees from Amgen, Autolus, The online version contains supplementary material available at https://doi.org/10.1038/s41375-021-01299-x.