key: cord-0935499-0n41gylj authors: Villoutreix, Bruno O.; Beaune, Philippe H.; Tamouza, Ryad; Krishnamoorthy, Rajogapal; Leboyer, Marion title: Prevention of COVID-19 by drug repurposing: rationale from drugs prescribed for mental disorders date: 2020-06-25 journal: Drug Discov Today DOI: 10.1016/j.drudis.2020.06.022 sha: d2fb3309062809d0de730453c931c374c4516ac2 doc_id: 935499 cord_uid: 0n41gylj nan At present, no treatments or vaccines are available to treat or prevent the coronavirus SARS-Cov-2 infection. As drug development is time-consuming and costly, there is an urgent need to find a rationale for repurposing clinically approved compounds that could rapidly enter clinical trials. To guide the selection of molecules for the prevention of SARS-Cov-2 infection, we believe that there is great potential in exploring drugs prescribed for mental disorders. Indeed, these past few weeks, an intriguing relationship appeared between SARS-CoV-2 infection and psychiatric disorders. Patients with mental disorders were intuitively thought to be at increased risk of becoming infected: non-compliance to protective measures, delayed access to health services due to social discrimination, confined conditions in psychiatric units favoring dissemination of infections, and a high prevalence of high risk co-morbidities (diabetes, cardiovascular disorders, obesity). Alarmed by these high risk situations, psychiatric departments in France created specialized COVID-19 units dedicated to psychiatric patients. Very much to our surprise, these units remained nearly empty during the lock-down period since only a small proportion of psychiatric patients were found to have COVID-19, suggesting that these patients, under treatment surveillance, may be at reduced risk of SARS-CoV-2 infection. This raised a compelling question: do the pharmacological treatment of these patients play a role in the observed protective effect? In order to rationalize our observations, we first identified the most commonly used drugs for in and out-patients (i.e., consumption of all the drugs in the Psychiatric department of Henri Mondor Hospital, Creteil, France from 2019 to April 2020). We ended up with a list of 18 drugs (Table 1) . We then mined the literature to find information about possible, at least in vitro, antiviral activity of these 18 compounds. We also compared these 18 drugs with published molecules known to have in vitro antiviral activities [1, 2] using various chemoinformatics strategies (e.g., computation of molecular descriptors and compounds clustering carried out on J o u r n a l P r e -p r o o f about 300 molecules with in vitro antiviral activities on various viruses including SARS-CoV-2). The reasoning here is that if a molecule X belonging to our list of 18 most commonly prescribed drugs is not documented to have in vitro antiviral activity but can be chemically grouped (e.g., presence of identical substructures) with a molecule with known in vitro antiviral activity, it is highly likely that molecule X will also have antiviral activity (i.e., the so-called similarity principle in medicinal chemistry). Among the 18 most commonly prescribed psychotropic drugs, ten have documented in vitro antiviral activities, while four of the eight remaining compounds were found structurally very similar to compounds with known in vitro antiviral activity (Table 1) using various clustering approaches. For example, no publications about antiviral activity were found for Alimemazine and Cyamemazine but these molecules are very similar to Promethazine which acts on Ebola and MERS [3]) and Chlorpromazine which acts on MERS and SARS [4] . We also observed that 14 of the 18 most prescribed psychotropic drugs are cationic amphiphilic drugs (CADs) which are known to perturb intracellular trafficking (Table 1 ). CADs are characterized by hydrophobic-aromatic ring systems and a side chain that carries one (or more) ionizable amine functional group. To define the CAD nature of our 18 compounds, we computed pKa and log P values as reported earlier [5] with the ChemAxon chemistry toolkit (https://chemaxon.com/). Further, CADs often induce phospholipidosis (drug-induced phospholipidosis or PLD) in vitro [6] and hundreds of drugs have already been tested in vitro or the property can be predicted in silico [7] . The four molecules that are not CADs or PLP inducers are Lithium (not an organic molecule), Diazepam, Lorazepam and Valproate. In addition, Nicotine which is largely prescribed to psychiatric patients to help them quit smoking, could be considered as a partial CAD and is predicted to be a PLD. This compound may not modulate intracellular trafficking but could act via binding to specific receptors such as the acetylcholine receptor (nAChR) and possibly regulate the angiotensin converting enzyme 2 (ACE2) receptor [8] . Drugs against SARS-CoV-2 could operate at different stages of the virus lifecycle. Yet, to protect the population, acting on the virus entry phases through drug repurposing represent an attractive solution. Different strategies can be envisioned, from specific inhibition of some proteases and receptors, to mechanisms such as endocytosis. Overall, our analysis suggests that the most commonly prescribed psychotropic drugs, including some antihistamine agents used as anxiolytics, possess in vitro antiviral activity ( Table 1 ). The vast majority of these drugs are CAD and/or PLD compounds. If we take the example of the highly debated anti-malarial Chloroquine and Hydroxychloroquine that have in vitro antiviral activity, these compounds are also CAD and PLD compounds (they display two ionizable amine groups while most often, psychotropic drugs contain only one ionizable amine group). These two anti-malarial drugs are lysosomotropic agent that accumulates in acidic organelles such as endosomes and lysosomes and neutralizes their pH thereby inhibiting the activity of some proteases such as Cathepsins required for effective viral infection (NB: they also have other functions as most medicinal drugs). Another example is Chlorpromazine, related to the commonly prescribed Alimemazine or Cyamemazine (Table 1) . Chlorpromazine is a CAD and PLD agent and is known to inhibit cell-cell fusion and disrupt clathrin-mediated endocytosis [9] . In addition, several of the above mentioned commonly used psychotropic drugs may also act by interacting with some specific receptors. For instance, a number of psychoactive drugs (antipsychotics, antidepressants, anticonvulsants) and psychostimulants, all belonging to a variety of structural, pharmacological and therapeutic classes, can bind to sigma-1 receptors, and induce numerous molecular events [10] . In summary, we propose that some of the drugs commonly prescribed to psychiatric patients could protect them from SARS-CoV-2 infection via the modulation of the endo-lysosomal pathway, membrane fusion and yet to be characterized interactions with specific receptors (e.g., nAChR, ACE2 and Sigma receptors, Fig. 1 ). Based upon the above analysis, we suggest that one of these CAD molecules or a combination could be used as preventive treatment against SARS-CoV-2 infection, especially drugs with reduced adverse effects (e.g., low dosage nicotine patch associated with an antihistamine agent). Further studies are currently ongoing in our groups to identify and test the above mentioned molecules in vitro and in clinical settings. This very simplified cartoon highlights SARS-CoV-2 cell entry. Angiotensin-converting enzyme 2 receptor (ACE2), Acetylcholine receptor (nAChR), Transmembrane surface serine protease (TMPRSS2). Some graphical elements were taken from the free medical art collection distributed by the Servier laboratory. J o u r n a l P r e -p r o o f Antiviral activity of cationic amphiphilic drugs Deja vu: Stimulating open drug discovery for SARS-CoV-2 A screen of approved drugs and molecular probes identifies therapeutics with anti-Ebola virus activity Repurposing of clinically developed drugs for treatment of Middle East respiratory syndrome coronavirus infection Identification of drugs inducing phospholipidosis by novel in vitro data Emerging mechanisms of drug-induced phospholipidosis How does the quality of phospholipidosis data influence the predictivity of structural alerts? 2020) A nicotinic hypothesis for Covid-19 with preventive and therapeutic implications Clathrin-dependent entry of severe acute respiratory syndrome coronavirus into target cells expressing ACE2 with the cytoplasmic tail deleted The Molecular Function of sigma Receptors: Past, Present, and Future We thank INSERM and the foundation FondaMental for supports.