key: cord-305770-xygg4lxu authors: Busetto, Gian Maria; Porreca, Angelo; Del Giudice, Francesco; Maggi, Martina; D'Agostino, Daniele; Romagnoli, Daniele; Musi, Gennaro; Lucarelli, Giuseppe; Palmer, Katie; Colonna di Paliano, Ascanio; Muto, Matteo; Hurle, Rodolfo; Terracciano, Daniela; de Cobelli, Ottavio; Sciarra, Alessandro; De Berardinis, Ettore; Ferro, Matteo title: SARS-CoV-2 Infection and High-Risk Non-Muscle-Invasive Bladder Cancer: Are There Any Common Features? date: 2020-06-09 journal: Urol Int DOI: 10.1159/000509065 sha: doc_id: 305770 cord_uid: xygg4lxu BACKGROUND: The new severe acute respiratory syndrome virus (SARS-CoV-2) outbreak is a huge health, social and economic issue and has been declared a pandemic by the World Health Organization. Bladder cancer, on the contrary, is a well-known disease burdened by a high rate of affected patients and risk of recurrence, progression and death. SUMMARY: The coronavirus disease (COVID-19 or 2019-nCoV) often involves mild clinical symptoms but in some cases, it can lead to pneumonia with acute respiratory distress syndrome and multiorgan dysfunction. Factors associated with developing a more severe disease are increased age, obesity, smoking and chronic underlying comorbidities (including diabetes mellitus). High-risk non-muscle-invasive bladder cancer (NMIBC) progression and worse prognosis are also characterized by a higher incidence in patients with risk factors similar to COVID-19. Immune system response and inflammation have been found as a common hallmark of both diseases. Most severe cases of COVID-19 and high-risk NMIBC patients at higher recurrence and progression risk are characterized by innate and adaptive immune activation followed by inflammation and cytokine/chemokine storm (interleukin [IL]-2, IL-6, IL-8). Alterations in neutrophils, lymphocytes and platelets accompany the systemic inflammatory response to cancer and infections. Neutrophil-to-lymphocyte ratio and platelet-to-lymphocyte ratio for example have been recognized as factors related to poor prognosis for many solid tumors, including bladder cancer, and their role has been found important even for the prognosis of SARS-CoV-2 infection. KEY MESSAGES: All these mechanisms should be further analyzed in order to find new therapeutic agents and new strategies to block infection and cancer progression. Further than commonly used therapies, controlling cytokine production and inflammatory response is a promising field. ated with developing a more severe disease are increased age, obesity, smoking and chronic underlying comorbidities (including diabetes mellitus). High-risk non-muscle-invasive bladder cancer (NMIBC) progression and worse prognosis are also characterized by a higher incidence in patients with risk factors similar to COVID-19. Immune system response and inflammation have been found as a common hallmark of both diseases. Most severe cases of COVID-19 and highrisk NMIBC patients at higher recurrence and progression risk are characterized by innate and adaptive immune activation followed by inflammation and cytokine/chemokine storm (interleukin [IL]-2, IL-6, IL-8). Alterations in neutrophils, lymphocytes and platelets accompany the systemic inflammatory response to cancer and infections. Neutrophil-tolymphocyte ratio and platelet-to-lymphocyte ratio for example have been recognized as factors related to poor progno- The new severe acute respiratory syndrome SARS-CoV-2 outbreak in Italy, and in the rest of Europe, is a huge health, social and economic issue that is changing lives worldwide and was declared a pandemic by the World Health Organization. To date (May 15, 2020), more than 200,000 cases of coronavirus disease (COVID -19 or 2019-nCoV) have been registered in Italy with numbers increasing daily (Fig. 1 ). In this century global health has been already threatened by two severe coronavirus acute respiratory infections: SARS-CoV in 2002 and MERS-CoV in 2012. Coronaviruses are single-strand positive RNA viruses that mainly attack the respiratory system. In the case of COVID-19, clinical symptoms are usually mild but in some cases it can lead to pneumonia with acute respiratory distress syndrome (ARDS) and multiorgan dysfunction requiring hospitalization and intensive care unit (ICU) support [1] . In approximately 7% of cases it leads to death, although the case-fatality rate will not be accurately established until after the outbreak [1] . Virus proteins support a strong interaction with human angiotensin-converting enzyme 2 (ACE2) with activation of the immune system and inflammatory response followed in severe cases by degeneration (necrosis), infiltration and hyperplasia of pulmonary tissue, particularly in the interstitial arteriolar walls leading to reduced lung capacity and functional impairment [2] . Interestingly COVID-19 patients who develop ARDS, suffering from worse prognosis and more severe disease, are very often older persons and those affected by one or more underlying chronic conditions like diabetes mellitus (DM), hypertension and cardiovascular disease [3] . When compared with COVID-19 patients without ARDS, patients with ARDS are generally older and have a higher proportion of comorbidities, and there are more observations of neutrophilia associated with lymphocytopenia, neutrophil-to-lymphocyte ratio (NLR) increase, increase in several inflammation indices (including interleukins, IL-2 and IL-6, tumor necrosis factor α, C-reactive protein and many other cytokines), elevated coagulation function and alteration of other organ dysfunction indices (liver, kidney, etc.) [4] . On the other side, bladder cancer is the 7th most frequent cancer in men and 17th in women. The majority of patients develop a non-muscle-invasive bladder cancer (NMIBC), which involves a heterogeneous tumor associated with high recurrence (up to 70%) and progression rates (up to 30%) [5] . The clinical prognosis of highrisk NMIBC is often difficult to predict, and even when it is treated with transurethral resection of the tumor (TURB) followed by maintenance bacillus Calmette-Guérin (BCG) it can have a heterogeneous prognosis [6] . The best surveillance strategy should be performed with an accurate risk stratification and identification as indolent from aggressive NMIBC. In the era of precision medicine, a model based on standard clinicopathological features (T stage, grade, focality, tumor size, lymphovascular invasion, concomitant carcinoma in situ) should be overcome in favor of more reliable biomarkers able to better understand tumor behavior and to personalize treatment [7] . In particular, the role of inflammation and the immune system are among the main research fields for better understanding the association with tumor recurrences and progression to metastasis [8] . Among inflammation markers, the NLR has been described as promising for bladder cancer, and its increase has been associated with worse cancer specific survival and overall survival [7] [8] [9] . A recent systematic meta-analysis described the clinical relevance of NLR for better understanding the prognosis of bladder cancer [10] . Another interesting research area is the possible association of comorbidities with cancer evolution. In particular, there is a focus on understanding metabolic mechanisms that have been described for certain diseases. One of the most studied is DM, and there are some reports that define it as a negative prognostic factor [11] , a possibility due to a correlation with inflammation and immune system altered function [11] . Finally aging may increase or decrease the susceptibility of various tissues to carcinogenesis. In fact, unrestrained expression and production of inflammatory mediators is a feature at the cellular and organism level, and structural alteration of the immune system accompanies this process [12] . The aim of the current paper is to analyze two completely different diseases with their known biological and pathological characteristics to examine whether common features can be found. We searched Medline/PubMed, Web of Science, Google Scholar and Cochrane library on March 19, 2020. Randomized controlled trials, systematic reviews, meta-analyses and case series describing SARS-CoV-2 and bladder cancer were identified. In particular, we focused our research on epidemiology, risk factors, biological process and therapeutic options. The following terms were the most commonly used: SARS-CoV-2, COVID-19, bladder cancer, risk factors, diabetes, obesity, aging, inflammation, cytokine, interleukin (IL), IL-6, smoking. There were no date or language restrictions on the search. References of relevant papers were searched manually for relevant studies. If more than one publication was identified from the same group, the most recent or complete one was included. Two reviewers independently conducted the search, reviewed full texts and extracted data. The quality of included studies was assessed subjectively and classified as anecdotal, low, medium or high. The search on Medline/PubMed, Web of Science, Google Scholar and Cochrane library identified 9,525 results in total. After screening the abstracts, 95 papers were selected. After reading the full text, a further 32 were excluded leaving 64 to be included. Studies have been divided between those concerning cancer (n = 44) and those concerning COVID-19 (n = 20). Early research suggests that advanced age is a risk factor for severe laboratory-confirmed COVID-19 disease [13] [14] [15] [16] (Tables 1, 2). One report by Huang et al. [13] reports a median age of COVID-19-related hospital admission of 49 years. Another interesting analysis focused on 201 hospitalized COVID-19 patients and reported that older age was associated with a higher risk of developing ARDS and that 52.4% of ARDS patients Review died [4] . In this case the median age of hospitalized patients was 51 years. Bivariate Cox regression analysis confirmed that aging was a risk factor for ARDS and progression to death [4] . Wang et al. [14] , on the other hand, described a higher median age of patients admitted to hospital (56 years old), and patients transferred to an ICU were even older, with a median age of 66 years. This increased risk of hospitalization, ARDS and mortality in older persons may be due in part to comorbidities. Comorbidities were reported to be more present in those treated in an ICU (72.2% of cases) and even in those who died (overall mortality 4.3%). Huang et al. [13] also reported that many hospitalized patients had underlying comorbidities. Older age was confirmed between worse prognosis risk factors in another group of 140 hospitalized patients who were on average 57 years old, and 64.3% of cases had underlying comorbidities [15] . Further, data from Italy suggest that a large proportion of COVID-19 patients who die have multiple preexisting chronic conditions [16] . [17] . Aging is a multifactorial process observed in different organs that involves several cellular and molecular mechanisms. In particular, a structural alteration of the immune system can cause an inability to fight infections, decreased immune activation with vaccines and autoimmunity. Further, increased cancer progression may even be a consequence of a constitutive lowgrade inflammation state. These changes can occur at a cellular level with impaired innate and adaptive immune cells and at the stromal microenvironment mainly on lymphoid organs [18] . A previous study described aging as a complex biological process that connects development and behavior of individual malignances with inflammation, immunosenescence, associated chronic diseases, extrinsic environment and psychosocial factors [19] . Senescence acts on the cell cycle because it is characterized by an arrest of cell proliferation that is reported when cells are under a potentially oncogenic stress. This arrest is considered irreversible because of lack of stimuli allowing cells to re-enter inside the cycle [20] . On the other hand, there are two major tumor suppressor pathways (p53/p21 and p16 INK4a /pRB) against malignant evolution [21] . In addition, chromatin compaction and gene expression change inside the cells causing the senescence-associated secretory phenotype with secretion of proinflammatory cytokines, chemokines, growth factors and proteases [22] . The microenvironment in which all these processes take place is permissive for initiation, development and progression of cancer. This evidence is in favor of degenerative pathology driving to hyperplasia, even evident in several xenograft studies [23] . The senescence-associated secretory phenotype in culture can also stimulate carcinogenesis that could evolve to epithelial-to-mesenchymal transition, a key point of the metastatic process [24] . Researchers from the Hebrew University of Israel described senescent cells as metabolically and transcriptionally active that secrete molecules continuously and as capable of altering the microenvironment through increased production of inflammatory mediators. It is a senescence-inflammatory effect that drives tumor proliferation feeding its progression mainly because their persistence promotes damage [25] . Smoking has been described as a factor for poor COVID-19 disease evolution [26] (Tables 1, 2). As al-ready reported, virus proteins support a strong interaction with human ACE2 followed by activation of immune system and inflammatory responses [2] . Smoking is considered to increase the expression of ACE2, a basic receptor leading to ARDS. It is possible that sex differences in hospitalization and mortality (more frequent in males) could partly be related to different smoking habits between males and females [27] . Liu et al. [26] divided 76 patients hospitalized for COVID-19 into an improved/stabilized group and a progression group. The progression group had a significantly higher history of smoking in comparison with others (27.3 vs. 3%). Multivariate logistic analysis confirmed that history of smoking, together with age, is a risk factor for disease progression. However, there is a lack of conclusive data in the literature regarding smoking and COVID-19 progression. Bladder Cancer Tobacco smoking is considered a risk factor for bladder cancer recurrence and progression. Smoking pattern, intensity and duration are responsible for poorer bladder cancer tumor features, and smoking is associated with a higher incidence of recurrences [28] . A recent paper on 1,859 patients affected by bladder cancer reported that 33.9% were current smokers, 46.8% former smokers and 17.4% nonsmokers. The authors found that smokers are at an increased risk of developing high-risk NMIBC than former and nonsmokers, and there is a statistically significant dose response for the risk of a more aggressive cancer type. However, this evidence is not completely supported by specific gene mutations [29] . On the other side a retrospective review conducted on 623 patients treated with BCG for high-grade NMIBC confirms, in both univariate and multivariate analyses, that smoking status is not associated with BCG response [30] . The bladder function is to store urine, and there is much time for carcinogens in the urine to affect the bladder. The carcinogens associated with smoking remain in contact with the genitourinary system until eliminated, thus a high rate of bladder cancer recurrences and progressions are reported among smokers [31, 32] . Coronaviruses can cause more severe symptoms and complications in people with obesity-related conditions [33] [34] [35] [36] (Tables 1, 2 Review diovascular disease. They were divided into a critical group (admitted to the ICU) and a general group in accordance with the severity of the disease. Compared with the general group, the body mass index (BMI) of the critical group was significantly higher (average 22.0 vs. 25.5). After a further division into nonsurvivors and survivors, there was a statistically significant difference in survival between patients with a BMI > 25 and those with a BMI < 25 [33] . Several other studies found an association between obesity and worse viral influenza course, and between obesity and hospitalization due to influenza [34, 35] . A large trial with 4,778 participants suffering from influenza-like illness concluded that adults were more likely to be hospitalized if they were obese or morbidly obese compared to normal-weight people. Focusing the analysis on subjects who had an influenza secondary to coronavirus, once again, normal-weight participants were less likely to be hospitalized. The authors concluded that there is an increased risk of being hospitalized in adults, regardless of the viral pathogen status, depending on their weight [36] . There is much evidence that correlates cancer and obesity. Weight, weight gain and obesity account for approximately 20% of all cancer cases, and there is evidence that cancer prognosis and survival are worse between obese people [37] . Biological mechanisms underlying the association between cancer and obesity are complex and include several different factors, such as increased secretion of steroid hormones, chronic high insulin levels, insulin resistance and a persistent inflammatory state [38] . Obesity is also recognized as a risk factor for poorer outcomes in bladder cancer as reported in a multicenter retrospective trial that included 892 patients with primary NMIBC treated with transurethral resection of the bladder with or without intravesical instillations. Univariate analysis confirmed that higher BMI and age were associated with a significantly increased risk of recurrences, progressions and cancer specific mortality. Multivariate analysis, adjusted for sex, concomitant carcinoma in situ, tumor size, number of tumors and intravesical therapy, reported that higher BMI and age remained independent predictors of recurrence, progression and cancer specific mortality [39] . An important trial on 1,155 patients affected by T1G3 NMIBC that underwent TURB followed by adjuvant instillation with BCG (induction and maintenance) found a statistically significant difference between obese and normal-weight patients in cancer recur-rence and progression. Overweight and obesity were significantly associated with an increased risk of recurrence and progression after adjustment for classical clinicopathological parameters. In a model that included standard clinicopathological factors in addition to BMI, obesity increased the C index by 9.9 for recurrence and by 1.9 for progression. The authors concluded that obesity could have a relevant role in the management of T1G3 NMIBC if associated with obesity and that BMI should be taken into consideration at the initial diagnosis and when planning a therapeutic strategy [40] . Pneumonia, ARDS, end-organ failure and death are the most common complications of COVID-19 infection (Tables 1, 2) , and those with underlying chronic comorbidities could be at higher risk of developing these conditions and having poorer outcomes [1] . One of the latest papers on the clinical characteristics of hospitalized patients affected by COVID-19 that included 201 subjects, ARDS was more frequent in those with comorbidities (especially hypertension and DM) [4] . An interesting metaanalysis reported that the COVID-19 pandemic spread as a disease mainly involving adults with comorbidities such as hypertension, diabetes and cardiocerebrovascular disease [1] . In particular, these comorbidities were strongly associated with poor prognosis. The heterogeneity test found that DM accounted for 11.7% of ICU/severe cases, but 4% of non-ICU/severe cases, although results were not statistically significant, possibly due to the small sample size. Even hypertension and cardiocerebrovascular disease were strongly and significantly associated with ICU/severe cases [41] . Another paper, published at the beginning of the epidemic, reports data of 813 hospitalized patients with exclusion of 600 individuals because they were still hospitalized at the moment of publication. Comorbidities were found in 48% of patients, with hypertension as the most common, followed by DM and coronary heart disease. The univariate analysis found a correlation between death and DM or coronary heart disease [42] . In a small case series, 64.7% of severe cases in patients developing pneumonia and ARDS showed one or more comorbidities, most commonly hypertension and DM [14, 15] . In the literature there is much evidence suggesting a strong association between DM (mainly type 2) and cancer progression. One possible link is represented by hy- Review perinsulinemia, hyperglycemia and fat-induced chronic inflammation [11] . On the other side there is some research suggesting an association between carcinogenesis and antidiabetic medications [43] . Hwang et al. [44] reported results from a trial of 251 patients treated with TURB who were divided into two groups in accordance with being affected or unaffected by DM at the time of surgery. Univariate analysis showed that DM was associated with recurrence-free and progression-free survival. Multivariate analysis also confirmed DM as an independent factor for recurrence and progression. Another association was found between DM and tumor multifocality and grade. Patients with diabetes were at a higher risk for recurrence and progression but for those taking metformin the risk decreased [45] . Another trial with a total of 1,172 patients affected by T1 high-grade NMIBC treated with TURB followed by maintenance BCG found that 19.7% of patients were affected by type 2 DM, and cancer recurrence was observed in 89.7% of these patients compared to 62.1% of patients without type 2 DM. Progression was seen in 38.1% of DM patients and 28.2% of non-DM patients. Evidence suggests that the hallmark of cancer evolution in DM patients is chronic inflammation caused by insulin, insulin-like growth factor-1, proinflammatory cytokines, oxidative stress and growth factor effects [46] . In particular, lowgrade systemic inflammation, characteristic of type 2 DM, could favor initiation and progression of bladder cancer. At the moment the role of immune cells for bladder cancer pathogenesis is under evaluation. In particular, a protumor effect has been attributed to the innate immune system while the adaptive immune system seems to play an antitumor effect . Immune response together with inflammation is essential to control and eliminate coronavirus infection (Tables 1, 2 ). Our role is to exactly understand the interaction between COVID-19 and the immune system, to clarify the course of inflammation, understand cytokine storm liberation and avoid the major damage occurring to our lungs and preserve health. The immune system develops an innate response through detection of viral pathogen using pattern recognition receptors including Toll-like receptors, retinoic acid-inducible gene-I-like, nucleotide-binding oligomerization domain-like receptor, C-type lectin-like receptor and free-molecule receptors. Even interferons, dendritic cells and defensins play a role in the innate response. The adaptive immune re-sponse is acted by T cells (mainly CD4+ and CD8+), humoral and antibody response [2] . The typical presentation of severe cases of SARS-CoV-2-infected patients is with lymphopenia, neutrophilia, high neutrophil-tolymphocyte ratio and lower monocytes, eosinophils and basophils [3] . Furthermore, high infection-related biomarkers such as procalcitonin, erythrocyte sedimentation rate, serum ferritin and C-reactive protein are reported [3] . The cytokine storm is another typical process related to inflammation and immune response; tumor necrosis factors, IL-2R, IL-6, IL-8 and IL-10 are delivered in the blood stream. Severe COVID-19 cases commonly have T lymphopenia (mainly CD4+) and increased neutrophils [3] . In these cases, NLR, an important item to evaluate systemic inflammation and infection, is reported to be very high and could be used as a marker to understand disease course and to identify those patients who have a higher risk to evolve to ARDS or death [48] . Cytokines and chemokines, on the other side, play an important role for immunity and inflammation during infection and are, as well, related to adverse outcomes [49] . A retrospective multicenter study with 150 patients affected by COVID-19 found that elevated ferritin and IL-6 are predictors of mortality, suggesting that mortality might be due to virally driven hyperinflammation [50] . Another group of researchers screened 30 hospitalized patients for COVID-19 excluding those with chronic diseases and found that the average platelet peak during the treatment of severely affected patients was significantly higher than in non-severely affected ones, and the platelet-to-lymphocyte ratio (PLR) as well was on average triple in severe cases. Multivariate analysis confirms that platelet peak and PLR were influencing factors in severe cases. Mature megakaryocytes in the bone marrow produce platelets. Inflammation response with cytokine storm (thyroid peroxidase, IL-3, IL-6, IL-9, IL-11) and stem cell factor can promote the production of megakaryocytes. For this reason, lymphocytes and platelet level, together with PLR, can be used as a marker reflecting body infections and inflammation. Once again inflammation, immune response and cytokine storm are essential for understanding COVID-19 patients with poor prognosis and higher death risk [51] . The role of inflammation in cancer is increasingly studied to help understand mechanisms such carcinogenesis, resistance, progression and metastasis. Neutrophils, part of the innate immune system, play a primary role in resistance against extracellular pathogens and in-Urol Int DOI: 10.1159/000509065 Review flammation. In the tumor, microenvironment stimulation of the immune system takes place; increases in host components, growing blood vessels and inflammatory infiltrates are reported [52] . In addition, cytokines released by the tumor microenvironment have a pivotal role in the development and progression of bladder cancer. Between inflammatory cytokines, IL-6 is proinflammatory and produced by various cells. There is evidence showing how IL-6 plays a crucial role in cancer development, progression and metastasis by regulating the tumor microenvironment and cancer stem cells [53] . For different cancers, including bladder cancer, the IL-6/Janus kinase (JAK)/ STAT3 pathway is hyperactivated, and this is generally a poor prognostic signal. In the tumor microenvironment, the IL-6/JAK/STAT3 axis acts suppressing the antitumor immune response and on the other side facilitating proliferation, survival, invasiveness and metastasis of tumor cells [54] . IL-6 acts directly on tumor cells to induce the expression of STAT3 target genes, which encode proteins that drive tumor proliferation and/or survival [55] . A group of researchers measured mean IL-6 levels in urine samples from patients with NMIBC (81 ± 30.8 pg/mL), which were slightly higher than those without malignant disease (25.14 ± 9.71 pg/mL) [56] . Alterations in neutrophils, lymphocytes and platelets accompany the systemic inflammatory response to cancer, and the NLR has been recognized as a factor related to poor prognosis for many solid tumors, including bladder cancer [57] . Cantiello et al. [58] conducted a trial on 1,155 patients with high-risk NMIBC, and they calculated a systemic inflammatory marker score based on cutoffs for the NLR, PLR and lymphocyte-monocyte ratio. Results showed that systemic inflammatory marker scores 1, 2 and 3 were associated with higher recurrence and progression rates, and results confirm a relation with worse outcomes even when adjusted for pathological variables such as tumor size, carcinoma in situ and multifocality. A systematic meta-analysis on the role of the NLR in patients with NMIBC undergoing surgery with TURB has been conducted. Six studies and 2,298 patients included in the analysis showed that worse recurrencefree survival and worse progression-free survival were associated with high NLR blood levels. Even considering patients treated with BCG immunotherapy, the NLR was an independent predictor of recurrence and progression [7] . The immune system plays an antagonist role in the pathogenesis of bladder cancer, considered a highly immunogenic malignancy with a strong mutagenic rate [47] . The adaptive immune system has an antitumor effect while the innate system has a protumor effect. When investigating the role of NLR in cancer development and aggression, the increased number of neutrophils that interact with other cell populations responsible for the production of cytokines and effector molecules should be noted [52] . Even the microenvironment plays an important role for correct neutrophil function, considering their recruitment to mediate host defense through a variety of signals including chemokines, lipid mediators and pathogen signals [59] . On the other hand, protumor activities include extracellular matrix remodeling, cell invasion, metastasis, angiogenesis, cancer cell proliferation, lymphangiogenesis and inhibition of the antitumoral immune surveillance [60] . A further trial reported an association between basophil count and time to recurrence in NMIBC patients treated with BCG. In fact, the multivariate analysis on a total of 1,045 patients showed that logarithmic transformation of basophil count was associated with a 30% increase in the risk of recurrence per unit increase of logarithmic basophil count [61] . BCG response has been evaluated by Racioppi et al. [62] on 100 high-risk NMIBC patients. They reported an optimal cutoff for NLR ≥3 and a mean NLR value of 3.65 ± 1.16 for BCG nonresponders and 2.61 ± 0.77 for BCG responders. They concluded that the NLR correlated with recurrence and progression risk scores, and in multivariate analysis, the NLR was associated with bladder cancer evolution. Zhang et al. [63] retrospectively analyzed 28 patients affected by cancer who developed SARS-CoV-2 infection. They reported a mortality (28.6%) 10 times higher than all other COVID-19 patients in China and noted that recent use of anticancer therapies was an independent predictor of death or severe complications. Interestingly, even patients already in the hospital for cancer treatment were at a higher risk of developing COVID-19. Patients with cancer could have a poorer prognosis and higher risk of SARS-CoV-2 infection compared with those without cancer because immunosuppression could be caused by the tumor and anticancer treatments [64] . Furthermore, the risk of severe events has been reported as higher for cancer patients and even higher for patients undergoing treatments like chemotherapy [65] . A recent paper reports that overwhelming inflammation and cytokine-associated injury during cancer could be important in facilitating severe events in patients with COVID-19. On the other side, there is evidence showing how cancer development is usually associated with a blunted immune status characterized by overexpression of immunosuppressive cytokines, suppressed induction of proinflam-DOI: 10.1159/000509065 Review matory danger signals, impaired dendritic cell maturation, and enhanced functional immunosuppressive leukocyte populations. This cascade of events is in contradiction to what is believed to result in severe complications in patients with COVID-19 [66] . In conclusion, reported data are not sufficient to conclude that patients with cancer have a higher risk of COVID-19. Currently only small case studies with several heterogeneities (different cancer types, highly variable disease courses and uncommon treatment strategies) are available; thus, it is difficult to draw final conclusions. More well-conducted analyses of the association between cancer and COVID-19 are expected in the upcoming months/years. ACE2 expression is organ-specific, and its distribution is mainly in the kidney, male testis, and cardiovascular and gastrointestinal systems. ACE2 expression is correlated with an increased survival rate in renal and liver cancer; thus, it could even be a prognostic marker. While ACE2 is a functional receptor for COVID-19, it has a potential antitumor role in cancer [67] , especially in kidney cancer. Prostate cancer is regulated by androgen receptors that are related to transcription of the transmembrane protease serine 2, which is required for SARS-CoV-2 because it primes the spike protein of the virus [68] . A group of researchers extracted data regarding 4,532 males with confirmed SARS-CoV-2 infection and found that prostate cancer patients receiving androgen deprivation therapy had a significantly lower risk of infection compared to patients who did not receive androgen deprivation therapy [69] . In conclusion, androgen sensitivity is a determinant for COVID-19 disease severity, and even gender incidence of COVID-19 and cancer are probably related to androgens and ACE2 expression. Even if studies are still needed before making epidemiological conclusions, recognizing the importance of androgens may offer another targeted therapy for trials, with androgen suppression to reduce host vulnerability [70] . Worldwide we are facing a fast demographic shift toward an increasingly aging population, which brings several changes to the social, economic, political and, particularly, medical fields. COVID-19 is a pandemic, and all countries worldwide are fighting against it. Currently, Italy is one of the most affected countries, and the Italian population demographic characteristics (approx. 23% of people are aged 65 years or older) could partly explain the higher case-fatality rates [17] . This novel disease can affect anyone, although people at higher risk of negative outcomes such as ARDS and death are often older persons with comorbidities such as diabetes, hypertension or coronary artery disease. Even obesity and smoking have been suggested as risk factors for a worse prognosis. However, considering the fact that this is a novel problem, current data need to be confirmed by further, larger studies on diverse populations to provide more concrete evidence. Bladder cancer, on the other hand, is a well-known disease that has been studied for a longer period, and it shares some prognostic risk factors, including aging, obesity, smoking and comorbidities (DM in particular). Evidence in this case is stronger but still far from being fully confirmed. Inflammation is considered to be one of the hallmarks of cancer, and approximately 20% of tumors progress because of chronic inflammation [26] . Immune system response, as well, is a major player in carcinogenesis, cancer progression and metastasis processes. Innate and adaptive immune response are involved during bladder cancer. Prognosis and sensitivity to treatment of bladder cancer are related to tumor-infiltrating immune cells, and understanding the immune response could be the starting point for the development of personalized therapy and precision medical treatments [71] . A similar interplay between inflammation and immune response is reported during SARS-CoV-2 infection. The cytokine storm, including interleukins and tumor necrosis factors, is part of the inflammation and immune system activation reported in both diseases. There are several inflammatory mediators (e.g., tumor necrosis factor α, IL-6 and IL-17) facilitating chronic inflammation and leading to decreased antitumor immunity with faster tumor progression. This status could facilitate COVID-19 with respiratory distress and accelerate cancer progression, increasing the risk of mortality of patients affected by most common uro-oncological tumors like bladder cancer. The innate immune system is important for the fight against bladder cancer but more importantly against viruses including SARS-CoV-2 [72] . All these prognostic risk factors are reported not only for bladder cancer and are common with several solid tumors (including breast, colorectal, prostate cancers, etc.). Cancer progression can be exacerbated by inflammation and infections while the microenvironment is Urol Int DOI: 10.1159/000509065 important for offering the correct place for tumorigenesis. The link between them and the immune system is mediated by the cytokines produced from innate immune cells that stimulate tumor growth and progression [73] . For this reason, it is important to understand all these mechanisms in order to find new therapies and strategies to block infection and cancer progression. Further than commonly used therapies, controlling cytokine production and the inflammatory response is promising. Agents targeting IL-6, the IL-6 receptor or JAKs are already used for the treatment of inflammatory conditions or myeloproliferative neoplasms. Elevated levels of IL-6 are observed in chronic inflammatory conditions, such as rheumatoid arthritis and inflammatory bowel disease and in a large number of patients with hematopoietic malignancies or solid tumors [57] . Inhibition of tumor cell growth and stimulation of antitumor immunity are promising treatments that target the IL-6/JAK/STAT3 pathway in patients with cancer. Novel inhibitors of the IL-6/JAK/STAT3 pathway, including STAT3-selective inhibitors, are under analysis, and the combination of these inhibitors with currently approved therapeutic agents directed against immune-checkpoint inhibitors could offer other possibilities [54] . Different monoclonal antibodies for anti-IL-6/IL-6 receptor therapy, such as siltuximab, have shown potential benefits toward cancers either as a single agent or in combination with other agents. Another anti-IL-6, tocilizumab, commonly used for rheumatoid arthritis, offers promising results for treating cancer, particularly when combined with conventional drugs. Another association that may be helpful to improve immunotherapy of cancer is the link between IL-6-blocking agents and epidermal growth factor receptor inhibitors or other targeted therapy [47, 52, [54] [55] [56] [57] [58] [59] [60] [61] [62] 64] . Therefore, the IL-6-signaling pathway represents an attractive target for therapeutic or preventive interventions, not only for cancer, but even for infectious diseases and chronic inflammatory diseases. Few multicenter randomized controlled trials, still unpublished, are in progress for tocilizumab in patients with COVID-19 pneumonia considering that elevated IL-6 and JAK inhibition could affect both inflammation and cellular viral entry of SARS-CoV-2. Another possible common target could be IL-4 that inhibits SARS-CoV-2 replication partly through downregulation of ACE2, and this role could be speculated even for SARS-CoV-2 infection [74] . In contrast, IL-4 is overexpressed in bladder cancer and could have a role as prognostic biomarker and as therapeutic target [75] . BCG, which has long been used as an adjuvant therapy for high-risk NMIBC, has been proposed recently as another possible strategy for COVID-19. Mandated BCG vaccination patients can have a different response against COVID-19 [76] . On a recent update, de Vrieze [77] reports that researchers started testing whether a centuryold vaccine against tuberculosis can stimulate the human immune system in a broad way, allowing it to better fight SARS-CoV-2 and, perhaps, prevent infection. Comparing COVID-19 daily incidence between countries with or without BCG vaccination there is a strong difference: 0.8 versus 34.8 per million, respectively. This report hypothesizes a potential expansion of memory T lymphocytes and B lymphocytes that can combat future exposures [78] . This also reaffirms the role of the innate immune system that can develop memory and could play a vital role against bladder cancer and viral infections. A universal vaccine may be the best solution to control the COVID-19 pandemic but unfortunately it will take a long time to be developed, so alternative therapeutic measures could be directed toward the innate immune response and inflammation. Vaccines are promising even for some cancers, and those that have been developed offer an optimal protection. 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Science COVID-19 and Bacillus Calmette-Guérin: what is the Link? We thank the Fondazione Muto Onlus, Casavatore (NA), Italy. The authors have nothing to disclose.