Association of genetic polymorphisms in glucocorticoid pathway with dexamethasone treatment in COVID-19 patients

Background/Objectives: Corticosteroids are widely used for the treatment of coronavirus disease (COVID)-19 caused by SARS-CoV- 2 as they attenuate the immune response with their antiinflammatory properties. Genetic polymorphisms of glucocorticoid receptor, metabolizing enzymes or transporters may affect treatment response to dexamethasone. The aim of this study was to evaluate the association of polymorphisms in glucocorticoid pathway with disease severity and duration of dexamethasone treatment in COVID-19 patients. Method(s): Our study included 107 hospitalized COVID-19 patients treated with dexamethasone. We isolated DNA from peripheral blood and genotyped all samples for polymorphisms in NR3C1 (rs6198, rs33388), CYP3A4 (rs35599367), CYP3A5 (rs776746), GSTP1 (rs1695, rs1138272), GSTM1/GSTT1 deletions and ABCB1 (1045642, rs1128503, rs2032582 Fisher's and Mann- Whitney tests were used in statistical analysis. Result(s): The median (min-max) age of the included patients was 62 (26-85) years, 69.2 % were male and 30.8 % female and they had moderate (1.9 %), severe (83 %) or critical (15.1 %) disease. NR3C1 rs6198 polymorphism was associated with more severe disease in additive genetic model (P = 0.022). NR3C1 rs6198, ABCB1 rs1045642 and ABCB1 rs1128503 polymorphisms were associated with a shorter duration of dexamethasone treatment in additive (P = 0.048, P = 0.047 and P = 0.024, respectively) and dominant genetic models (P = 0.015, P = 0.048 and P = 0.020, respectively), while carriers of the polymorphic CYP3A4 rs35599367 allele required longer treatment with dexamethasone (P = 0.033). Other polymorphisms were not associated with disease severity or dexamethasone treatment duration. Conclusion(s): Genetic variability of glucocorticoid pathway genes was associated with the duration of dexamethasone treatment of COVID-19 patients.

NR3C1 rs41423247: genetic predictor of complications in pneumonia caused by SARS-CoV-2

Background/Objectives: Runaway inflammation is a key feature of COVID-19. NR3C1 gene encodes for glucocorticoid receptor which plays an important role in inflammation reaction. The variant rs41423247 cause increased glucocorticoid receptors sensitivity. This study aimed to investigate the impact of variants of NR3C1 gene on the course of COVID-19 pneumonia in patients with necessarily artificial lung ventilation. Method(s): The study group included 20 patients (9 women and 11 men) with diagnosis viral COVID-19 pneumonia on artificial lung ventilation at the intensive care unit. All patients underwent daily standard examinations according clinical protocols. Determination of NR3C1 gene variants was carried out by using PCRRFLP. Result(s): There were found the significant negative correlations between NR3C1 gene variants and level of SpO2 (rS = -0.601, p = 0.008), Glasgow Coma Scale score (rS = -0.523, p = 0.026). Also, it was defined a protective effect of genotype CC at risk of development acute respiratory distress syndrome in this patients (chi2 = 4.38, p = 0.037, OR = 0.05 (CI:0.01-0.66)). Conclusion(s): The investigated variant rs41423247 of the NR3C1 gene may be the genetic predictor of complicated course of COVID-19 pneumonia. .

Pilot study suggests DNA methylation of the glucocorticoid receptor gene (NR3C1) is associated with MDMA-assisted therapy treatment response for severe PTSD.

Background: Previous research has demonstrated that epigenetic changes in specific hypothalamic-pituitary-adrenal (HPA) genes may predict successful psychotherapy in post-traumatic stress disorder (PTSD). A recent Phase 3 clinical trial reported high efficacy of 3,4-methylenedioxymethamphetamine (MDMA)-assisted therapy for treating patients with severe PTSD compared to a therapy with placebo group (NCT03537014). This raises important questions regarding potential mechanisms of MDMA-assisted therapy. In the present study, we examined epigenetic changes in three key HPA axis genes before and after MDMA and placebo with therapy. As a pilot sub-study to the parent clinical trial, we assessed potential HPA epigenetic predictors for treatment response with genomic DNA derived from saliva (MDMA, n = 16; placebo, n = 7). Methylation levels at all 259 CpG sites annotated to three HPA genes (CRHR1, FKBP5, and NR3C1) were assessed in relation to treatment response as measured by the Clinician-Administered PTSD Scale (CAPS-5; Total Severity Score). Second, group (MDMA vs. placebo) differences in methylation change were assessed for sites that predicted treatment response. Results: Methylation change across groups significantly predicted symptom reduction on 37 of 259 CpG sites tested, with two sites surviving false discovery rate (FDR) correction. Further, the MDMA-treatment group showed more methylation change compared to placebo on one site of the NR3C1 gene. Conclusion: The findings of this study suggest that therapy-related PTSD symptom improvements may be related to DNA methylation changes in HPA genes and such changes may be greater in those receiving MDMA-assisted therapy. These findings can be used to generate hypothesis driven analyses for future studies with larger cohorts.

Molecular genetic markers associated with course of severe COVID-19 pneumonia. Different pathways study

Introduction: It is known that the development of COVID-19 in the human body consists of complex system of biological mechanisms underlying the complex interplay between infectious agents and the human host. This raised the question about hosts' genetic variants as predictors of clinical phenotype. The aim of our study was to analyze the effect of the NOS3 gene (VNTR intron 4 a/b), NR3C1 gene (C647G, rs41423247) and the SFTPB gene (C1580T, rs11130866) variants on the course of severe COVID-19 pneumonia in patients. Material(s) and Method(s): The study group included 20 patients (13 men and 7 women) with diagnosis "viral COVID19 pneumonia" treated at the intensive care unit. Investigation of the NOS3, NR3C1 and SFTPB genes variants was carried out by a molecular method using PCR-RFLP and allele-specific PCR, respectively. Result(s): The correlation analysis showed a significant association of the NOS3 gene variants and level of SpO2 (rS=-0.488, p=0.029;SpO2=93.1+/-2.4% for b/b and SpO2=82.0+/-1.1% for a/a genotypes). Also a significant positive correlation was between NR3C1 gene variants and duration of nasal intermittent positive pressure ventilation (nIPP) therapy (rS=0.454, p=0.044;for 647CC - 1.5+/-1.0 days and for 674GG - 3.9+/-2.5 days), presence of fever (need for antipyretics) (rS=0.525, p=0.017;647C vs 647G alleles - chi2=5.8, p=0.016). No significant correlations were found for the variants of SFTPB gene. The obtained results support a hypothesis about the combined influence of different pathways genes variants (NOS3 and NR3C1) on severity of COVID-19. However, in order to draw definite conclusions, further multifaceted research in this area are need.

Alternative Management of Cushing's Syndrome During Covid-19 Pandemic

Cushing's syndrome results from prolonged exposure to glucocorticoids. Surgery is often the first-line treatment for this condition, regardless of etiology. However, the COVID-19 pandemic caused a decrease in surgical procedures due to the risk of infection transmission. There are still emergency cases of Cushing's syndrome that are admitted to the hospital and require urgent management. The current treatment should be focused on medical management and endovascular embolization in selective cases. Embolization can be performed in facilities where there aretrained personnel with experience in adrenal embolization. Surgery, which traditionally is a first-line therapy, can increase the risk of infection, therefore, it should be avoided. The current review provides a brief description of the possible options for the management of adrenal Cushing's syndrome during the COVID-19 pandemic.Copyright © 2022 Bentham Science Publishers.

Investigacao Do Gene Nr3c1 Em Pacientes Com Covid-19

Objetivo: O presente trabalho tem por objetivo investigar o gene NR3C1, que codifica os receptores de Glicocorticoide (GCs), em individuos com COVID-19. Material e Metodos: Foram analisadas 58 amostras de pacientes com COVID-19, atendidos em hospitais do municipio de Uberaba - MG entre maio de 2020 a junho de 2021. Este projeto foi aprovado pelo Comite de Etica em Pesquisa do Hospital de Clinicas da Universidade Federal do Triangulo Mineiro e todos os participantes assinaram o Termo de Consentimento Livre e Esclarecido. A amostra foi agrupada de acordo com o desfecho (alta ou obito) e gravidade da doenca (leve, moderada ou grave). A determinacao de gravidade dos casos foi realizada segundo os criterios estabelecidos no Manual de Manejo Clinico da COVID-19 da Organizacao Mundial de Saude. Foram coletados um tubo de 04 mL de sangue periferico na admissao do paciente e a quantificacao relativa do gene NR3C1 foi realizada por PCR em tempo real, utilizando o equipamento 7500 (Applied BiosystemsTM). O gene ACTB foi utilizado como controle endogeno. Os dados quantitativos foram submetidos ao teste de normalidade de Kolmogorov-Smirnov e as comparacoes estatisticas entre dois grupos realizadas com emprego do teste de Mann-Whitney. A significancia estatistica foi definida como p<0,05. Resultados: A idade mediana dos pacientes foi de 64,5 anos (min. 29, max. 100 anos). Dos 58 pacientes analisados, 26 eram mulheres e 32 homens. Em relacao ao desfecho, 31 obtiveram alta (17 mulheres 14 homens) e 27 evoluiram para obito (9 mulheres e 18 homens). Em relacao a gravidade, 13 pacientes tiveram quadro clinico leve (07 mulheres e 06 homens), 16 moderado (08 mulheres e 08 homens) e 29 grave (11 mulheres e 18 homens). Nao foi observada diferenca estatisticamente significativa na expressao do gene NR3C1 quanto ao desfecho ou gravidade (p=0,49 e p=0,25, respectivamente). Discussao: Acredita-se que a genetica humana tenha um importante papel na determinacao da resposta clinica ao SARS-CoV-2, no entanto, o estabelecimento dos mecanismos geneticos envolvidos na suscetibilidade ou resistencia a infeccao ainda nao sao completamente conhecidos. Os GCs inibem rapidamente a transcricao de citocinas pro-inflamatorias, como a IL-6. Essa citocina, por sua vez, esta envolvida num fenomeno denominado "tempestade de citocinas", em que ha uma exacerbacao da resposta imunologica. Na COVID-19 as manifestacoes de doenca grave e morte nao se apresentam exclusivamente pelos danos induzidos pelo virus nos pulmoes, mas tambem devido aos niveis elevados de citocinas, particularmente IL-6, que podem ser inibidas por GCs. Apesar do presente estudo nao ter observado diferenca na expressao do gene NR3C1 em relacao ao desfecho e gravidade, os receptores de GCs tem importante desempenho na supressao da "tempestade de citocinas". Alem disso, ja foi demonstrado que o uso de glicocorticoides em doses baixas e medias por ate oito dias e seguro e benefico para pacientes com COVID-19 grave. Conclusao: O presente estudo conclui que nao ha relacao entre a expressao do gene NR3C1 com o agravamento ou pior desfecho em pacientes com COVID-19. Copyright © 2022

The association between peritraumatic distress, perceived stress, depression in pregnancy, and NR3C1 DNA methylation among Chinese pregnant women who experienced COVID-19 lockdown.

Prenatal stress can affect pregnant women in an epigenetic way during the critical period of conception of their offspring. The study aims to investigate the relationship between peritraumatic distress, prenatal perceived stress, depression, and glucocorticoid receptor (NR3C1) DNA methylation among pregnant women who experienced COVID-19 lockdown in China. Study data were collected from 30 pregnant women in Wuhan and Huanggang, China. The Peritraumatic Distress Inventory was used to measure peritraumatic distress, the Edinburgh Postnatal Depression Scale was used to measure depressive symptoms, and the Perceived Stress Scale was used to measure perceived stress. DNA methylation in the exon 1F promoter region of NR3C1 gene from the venous blood mononuclear cell genome was characterized by bisulfite sequencing. Correlation and linear regression were used for data analysis. The mean level of peritraumatic distress, perceived stress, and depression was 6.30 (SD = 5.09), 6.50 (SD = 5.41), and 6.60 (SD = 4.85), respectively, with 23.33% of pregnant women being depressed. The mean NR3C1 methylation was 0.65 (SD = 0.22). Prenatal depression was positively correlated with the degree of methylation in venous blood from the mother (r = 0.59, p = 0.001), and depression predicted methylation of NR3C1 gene at the CpG 8 site (ß = 0.05, p = 0.03). No association was found between peritraumatic distress as well as perceived stress and methylation of NR3C1. NR3C1 gene was susceptible to epigenetic modification of DNA methylation in the context of prenatal stress, and maternal depression was associated with increased NR3C1 methylation among women who experienced COVID-19 lockdown.

Is it Time to Revisit Neuroinflammatory Depression? A Case of COVID-19 Associated Depression and the Role of ECT

Background: The neurobiology of depression can be heterogeneous with multiple hypotheses proposed, including serotonin and neuroinflammatory pathways, each falling short of explaining the complete picture. Several reports describe the increased frequency of depression in the community following the COVID-19 pandemic and reports about neuropsychiatric sequela of the virus are emerging and the possible role of neuroinflammation. We present a patient who developed severe depression with psychotic features subsequent to his COVID-19 infection and was treated successfully with ECT following several failed medication trials. Case: A 49-year-old male with a past medical history of type II diabetes, hyperlipidemia, hypertension, chronic kidney disease, and gastroesophageal reflux disease was diagnosed with COVID-19 in January 2021. Upon initial diagnosis, neither admission nor treatment with steroids was required. He presented to the emergency department four days later with sepsis, pneumonia, and AKI secondary to COVID-19 along with the new onset of suicidal ideations with plans to cut himself and significant psychomotor features despite no previous history of mental illness or treatment. His EEG showed diffuse slow waves, consistent with encephalopathy, but no delirium was noted. He exhibited irritability, anger, anhedonia, negativism, and isolated himself in his room. He demonstrated delusional fear about his apartment exploding due to electricity disconnected for not paying his bills. He misinterpreted the blood draws as someone suspecting he has HIV. Treatment started on the medical floor and he was later transferred to the psychiatric floor. Several psychotropic medications were tried separately including citalopram 20mg, escitalopram 20mg, and bupropion (titrated to 300mg) with the addition of aripiprazole 5 mg without improvement. ECT was considered and his depression and psychosis improved following 6 treatments of bilateral ECT. He was discharged following completion of 10 ECT treatments on 300 mg of bupropion daily and 5mg olanzapine at night. Discussion: Viral infections such as HIV, Hepatitis C, and Influenza are associated with neuropsychiatric sequelae, including depression. COVID-19 infection is occasionally associated with ‘cytokine storm’ which may exacerbate neuroinflammation via increases in cytokines and possible activation of mast cells and microglia.[1] The role of elevated pro-inflammatory cytokines and glucocorticoid receptor resistance is widely studied. Interleukin-6 and CRP are the most strongly linked to depression with a high correlation for anhedonia and psychomotor retardation, prominent features of depression in our case, hinting at a possible role of neuroinflammation. [2] Psychotic features and psychomotor retardation are predictors of ECT response which matched the response to ECT in this case. References: 1. Kempuraj, Duraisamy, et al. COVID-19, mast cells, cytokine storm, psychological stress, and neuroinflammation. The Neuroscientist 2020: 402-414. 2. Tiemeier, Henning, et al. Inflammatory proteins and depression in the elderly. Epidemiology 2003: 103-107.

Impact of duration of critical illness and level of systemic glucocorticoid availability on tissue-specific glucocorticoid receptor expression and actions: A prospective, observational, cross-sectional human and two translational mouse studies.

BACKGROUND: Reduced glucocorticoid-receptor (GR) expression in blood suggested that critically ill patients become glucocorticoid-resistant necessitating stress-doses of glucocorticoids. We hypothesised that critical illness evokes a tissue-specific, time-dependent expression of regulators of GR-action which adaptively guides glucocorticoid action to sites of need. METHODS: We performed a prospective, observational, cross-sectional human study and two translational mouse studies. In freshly-isolated neutrophils and monocytes and in skeletal muscle and subcutaneous adipose tissue of 137 critically ill patients and 20 healthy controls and in skeletal muscle and adipose tissue as well as in vital tissues (heart, lung, diaphragm, liver, kidney) of 88 septic and 26 healthy mice, we quantified gene expression of cortisone-reductase 11ß-HSD1, glucocorticoid-receptor-isoforms GRα and GRß, GRα-sensitivity-regulating-co-chaperone FKBP51, and GR-action-marker GILZ. Expression profiles were compared in relation to illness-duration and systemic-glucocorticoid-availability. FINDINGS: In patients' neutrophils, GRα and GILZ were substantially suppressed (p≤0·05) throughout intensive care unit (ICU)-stay, while in monocytes low/normal GRα coincided with increased GILZ (p≤0·05). FKBP51 was increased transiently (neutrophils) or always (monocytes,p≤0·05). In patients' muscle, 11ß-HSD1 and GRα were low-normal (p≤0·05) and substantially suppressed in adipose tissue (p≤0·05); FKBP51 and GILZ were increased in skeletal muscle (p≤0·05) but normal in adipose tissue. GRß was undetectable. Increasing systemic glucocorticoid availability in patients independently associated with further suppressed muscle 11ß-HSD1 and GRα, further increased FKBP51 and unaltered GILZ (p≤0·05). In septic mouse heart and lung, 11ß-HSD1, FKBP51 and GILZ were always high (p≤0·01). In heart, GRα was suppressed (p≤0·05), while normal or high in lung (all p≤0·05). In diaphragm, 11ß-HSD1 was high/normal, GRα low/normal and FKBP51 and GILZ high (p≤0·01). In kidney, 11ß-HSD1 transiently increased but decreased thereafter, GRα was normal and FKBP51 and GILZ high (p≤0·01). In liver, 11ß-HSD1 was suppressed (p≤0·01), GRα normal and FKBP51 high (p≤0·01) whereas GILZ was transiently decreased but elevated thereafter (p≤0·05). Only in lung and diaphragm, treatment with hydrocortisone further increased GILZ. INTERPRETATION: Tissue-specific, time-independent adaptations to critical illness guided GR-action predominantly to vital tissues such as lung, while (partially) protecting against collateral harm in other cells and tissues, such as neutrophils. These findings argue against maladaptive generalised glucocorticoid-resistance necessitating glucocorticoid-treatment. FUNDING: Research-Foundation-Flanders, Methusalem-Program-Flemish-Government, European-Research-Council, European-Respiratory-Society.

Fluticasone propionate as a potential treatment for COVID-19.

Outpatient treatment options for mild to moderate COVID-19 are severely limited. While many therapeutic options have been proposed, very few have demonstrated the appropriate safety and efficacy to warrant approval by national or international regulatory bodies. Monoclonal antibodies have been shown to decrease hospitalization in high-risk patients, but use remains limited due to challenges associated with both production and administration, and other treatment options are urgently needed. The anti-inflammatory drug fluticasone propionate has recently emerged as a potential outpatient treatment option, especially for those with newly diagnosed disease. This manuscript reviews what is known about fluticasone and looks ahead to examine how the drug may be used in the future to address the COVID-19 pandemic.

A Novel Glucocorticoid and Androgen Receptor Modulator Reduces Viral Entry and Innate Immune Inflammatory Responses in the Syrian Hamster Model of SARS-CoV-2 Infection.

Despite significant research efforts, treatment options for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) remain limited. This is due in part to a lack of therapeutics that increase host defense to the virus. Replication of SARS-CoV-2 in lung tissue is associated with marked infiltration of macrophages and activation of innate immune inflammatory responses that amplify tissue injury. Antagonists of the androgen (AR) and glucocorticoid (GR) receptors have shown efficacy in models of COVID-19 and in clinical studies because the cell surface proteins required for viral entry, angiotensin converting enzyme 2 (ACE2) and the transmembrane protease, serine 2 (TMPRSS2), are transcriptionally regulated by these receptors. We postulated that the GR and AR modulator, PT150, would reduce infectivity of SARS-CoV-2 and prevent inflammatory lung injury in the Syrian golden hamster model of COVID-19 by down-regulating expression of critical genes regulated through these receptors. Animals were infected intranasally with 2.5 × 104 TCID50/ml equivalents of SARS-CoV-2 (strain 2019-nCoV/USA-WA1/2020) and PT150 was administered by oral gavage at 30 and 100 mg/Kg/day for a total of 7 days. Animals were examined at 3, 5 and 7 days post-infection (DPI) for lung histopathology, viral load and production of proteins regulating the progression of SARS-CoV-2 infection. Results indicated that oral administration of PT150 caused a dose-dependent decrease in replication of SARS-CoV-2 in lung, as well as in expression of ACE2 and TMPRSS2. Lung hypercellularity and infiltration of macrophages and CD4+ T-cells were dramatically decreased in PT150-treated animals, as was tissue damage and expression of IL-6. Molecular docking studies suggest that PT150 binds to the co-activator interface of the ligand-binding domain of both AR and GR, thereby acting as an allosteric modulator and transcriptional repressor of these receptors. Phylogenetic analysis of AR and GR revealed a high degree of sequence identity maintained across multiple species, including humans, suggesting that the mechanism of action and therapeutic efficacy observed in Syrian hamsters would likely be predictive of positive outcomes in patients. PT150 is therefore a strong candidate for further clinical development for the treatment of COVID-19 across variants of SARS-CoV-2.

[The role and place of pathogenetic therapy with glucocorticosteroid hormones in the treatment of patients with novel coronavirus infection (COVID-19)].

In December 2019, in Wuhan (PRC), there was an outbreak of a new coronavirus infection (COVID-19) caused by coronavirus type 2 (SARS-CoV-2), which has a zoonotic origin. The World Health Organization announced the COVID-19 pandemic on March 11, 2020. In most cases, the disease is asymptomatic or mild. However, up to 15% of patients require hospitalization, and 5% develop a critical condition. To date, no effective antiviral drug COVID-19 has been found that can reduce mortality. Pathological changes in the lungs are manifested by diffuse alveolar damage, which is clinically manifested by increasing respiratory failure, accompanied by a decrease in saturation and oxygen concentration in arterial blood. It is assumed that autoimmune reactions play an important role in the development of multiple organ failure. Generalized inflammation is characterized by an increase in the concentration of C-reactive protein, ferritin, interleukin-1 and interleukin-6, and other markers. At the stage of development of infection in the form of a cytokine storm, proinflammatory cytokines can themselves become pathogenetic factors in the development of critical conditions, multiple organ failure and deaths. Therefore, a key challenge in treating hospitalized patients with COVID-19 is to control generalized inflammation. Glucocorticosteroid hormones (GCS) are widely used as anti-inflammatory drugs in the clinic of infectious diseases. However, until recently, there was no convincing data on the effectiveness of GCS in patients with COVID-19. Recently published results of a large randomized clinical trial (RECOVERY) showing the efficacy of GCS (dexamethasone) in the treatment of critically ill patients with COVID-19. At the same time, the feasibility and effectiveness of GCS in patients with COVID-19 outside critical conditions, the pathogenetic mechanisms that determine the effectiveness/ineffectiveness of these drugs and the validity of their use remain insufficiently studied.

Application of glucocorticoids in patients with novel coronavirus infection: From bench to bedside

Glucocorticoids (GCs) have potential anti-inflammatory and immunosuppressive effects. There is plenty of controversy about the application of glucocorticoids in the treatment of coronavirus disease 2019 (COVID-19). This paper briefly summarizes the mechanism of glucocorticoids and their receptors and clinical applications in COVID-19. Through reviewing the current literature, our aim is to have a deeper understanding of the mechanism of GCs and their clinical applications, so as to find possible ways to enhance their efficacy and reduce drug resistance or side effects.

Management and Medical Therapy of Mild Hypercortisolism.

Mild hypercortisolism (mHC) is defined as an excessive cortisol secretion, without the classical manifestations of clinically overt Cushing's syndrome. This condition increases the risk of bone fragility, neuropsychological alterations, hypertension, diabetes, cardiovascular events and mortality. At variance with Cushing's syndrome, mHC is not rare, with it estimated to be present in up to 2% of individuals older than 60 years, with higher prevalence (up to 10%) in individuals with uncontrolled hypertension and/or diabetes or with unexplainable bone fragility. Measuring cortisol after a 1 mg overnight dexamethasone suppression test is the first-line test for searching for mHC, and the degree of cortisol suppression is associated with the presence of cortisol-related consequences and mortality. Among the additional tests used for diagnosing mHC in doubtful cases, the basal morning plasma adrenocorticotroph hormone, 24-h urinary free cortisol and/or late-night salivary cortisol could be measured, particularly in patients with possible cortisol-related complications, such as hypertension and diabetes. Surgery is considered as a possible therapeutic option in patients with munilateral adrenal incidentalomas and mHC since it improves diabetes and hypertension and reduces the fracture risk. In patients with mHC and bilateral adrenal adenomas, in whom surgery would lead to persistent hypocortisolism, and in patients refusing surgery or in whom surgery is not feasible, medical therapy is needed. Currently, promising though scarce data have been provided on the possible use of pituitary-directed agents, such as the multi-ligand somatostatin analog pasireotide or the dopamine agonist cabergoline for the-nowadays-rare patients with pituitary mHC. In the more frequently adrenal mHC, encouraging data are available for metyrapone, a steroidogenesis inhibitor acting mainly against the adrenal 11-ßhydroxylase, while data on osilodrostat and levoketoconazole, other new steroidogenesis inhibitors, are still needed in patients with mHC. Finally, on the basis of promising data with mifepristone, a non-selective glucocorticoid receptor antagonist, in patients with mild cortisol hypersecretion, a randomized placebo-controlled study is ongoing for assessing the efficacy and safety of relacorilant, a selective glucocorticoid receptor antagonist, for patients with mild adrenal hypercortisolism and diabetes mellitus/impaired glucose tolerance and/or uncontrolled systolic hypertension.

The Role of Glucocorticoids in Inflammatory Diseases.

For more than 70 years, glucocorticoids (GCs) have been a powerful and affordable treatment option for inflammatory diseases. However, their benefits do not come without a cost, since GCs also cause side effects. Therefore, strong efforts are being made to improve their therapeutic index. In this review, we illustrate the mechanisms and target cells of GCs in the pathogenesis and treatment of some of the most frequent inflammatory disorders affecting the central nervous system, the gastrointestinal tract, the lung, and the joints, as well as graft-versus-host disease, which often develops after hematopoietic stem cell transplantation. In addition, an overview is provided of novel approaches aimed at improving GC therapy based on chemical modifications or GC delivery using nanoformulations. GCs remain a topic of highly active scientific research despite being one of the oldest class of drugs in medical use.

Pharmacological principles guiding prolonged glucocorticoid treatment in ARDS.

Current literature addressing the pharmacological principles guiding glucocorticoid (GC) administration in ARDS is scant. This paucity of information may have led to the heterogeneity of treatment protocols and misinterpretation of available findings. GCs are agonist compounds that bind to the GC receptor (GR) producing a pharmacological response. Clinical efficacy depends on the magnitude and duration of exposure to GR. We updated the meta-analysis of randomized trials investigating GC treatment in ARDS, focusing on treatment protocols and response. We synthesized the current literature on the role of the GR in GC therapy including genomic and non-genomic effects, and integrated current clinical pharmacology knowledge of various GCs, including hydrocortisone, methylprednisolone and dexamethasone. This review addresses the role dosage, timing of initiation, mode of administration, duration, and tapering play in achieving optimal response to GC therapy in ARDS. Based on RCTs' findings, GC plasma concentration-time profiles, and pharmacodynamic studies, optimal results are most likely achievable with early intervention, an initial bolus dose to achieve close to maximal GRα saturation, followed by a continuous infusion to maintain high levels of response throughout the treatment period. In addition, patients receiving similar GC doses may experience substantial between-patient variability in plasma concentrations affecting clinical response. GC should be dose-adjusted and administered for a duration targeting clinical and laboratory improvement, followed by dose-tapering to achieve gradual recovery of the suppressed hypothalamic-pituitary-adrenal (HPA) axis. These findings have practical clinical relevance. Future RCTs should consider these pharmacological principles in the study design and interpretation of findings.

Individual-specific functional epigenomics reveals genetic determinants of adverse metabolic effects of glucocorticoids.

Glucocorticoids (GCs) are widely used as anti-inflammatory drugs, but their long-term use has severe metabolic side effects. Here, by treating multiple individual adipose stem cell-derived adipocytes and induced pluripotent stem cell-derived hepatocytes with the potent GC dexamethasone (Dex), we uncovered cell-type-specific and individual-specific GC-dependent transcriptomes and glucocorticoid receptor (GR) cistromes. Individual-specific GR binding could be traced to single-nucleotide polymorphisms (SNPs) that altered the binding motifs of GR or its cooperating factors. We also discovered another set of genetic variants that modulated Dex response through affecting chromatin accessibility or chromatin architecture. Several SNPs that altered Dex-regulated GR binding and gene expression controlled Dex-driven metabolic perturbations. Remarkably, these genetic variations were highly associated with increases in serum glucose, lipids, and body mass in subjects on GC therapy. Knowledge of the genetic variants that predispose individuals to metabolic side effects allows for a precision medicine approach to the use of clinically relevant GCs.

Generation of glucocorticoid-resistant SARS-CoV-2 T cells for adoptive cell therapy.

Adoptive cell therapy with virus-specific T cells has been used successfully to treat life-threatening viral infections, supporting application of this approach to coronavirus disease 2019 (COVID-19). We expand severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) T cells from the peripheral blood of COVID-19-recovered donors and non-exposed controls using different culture conditions. We observe that the choice of cytokines modulates the expansion, phenotype, and hierarchy of antigenic recognition by SARS-CoV-2 T cells. Culture with interleukin (IL)-2/4/7, but not under other cytokine-driven conditions, results in more than 1,000-fold expansion in SARS-CoV-2 T cells with a retained phenotype, function, and hierarchy of antigenic recognition compared with baseline (pre-expansion) samples. Expanded cytotoxic T lymphocytes (CTLs) are directed against structural SARS-CoV-2 proteins, including the receptor-binding domain of Spike. SARS-CoV-2 T cells cannot be expanded efficiently from the peripheral blood of non-exposed controls. Because corticosteroids are used for management of severe COVID-19, we propose an efficient strategy to inactivate the glucocorticoid receptor gene (NR3C1) in SARS-CoV-2 CTLs using CRISPR-Cas9 gene editing.

Dexamethasone for Severe COVID-19: How Does It Work at Cellular and Molecular Levels?

The coronavirus disease 2019 (COVID-19) caused by infection of the severe respiratory syndrome coronavirus-2 (SARS-CoV-2) significantly impacted human society. Recently, the synthetic pure glucocorticoid dexamethasone was identified as an effective compound for treatment of severe COVID-19. However, glucocorticoids are generally harmful for infectious diseases, such as bacterial sepsis and severe influenza pneumonia, which can develop respiratory failure and systemic inflammation similar to COVID-19. This apparent inconsistency suggests the presence of pathologic mechanism(s) unique to COVID-19 that renders this steroid effective. We review plausible mechanisms and advance the hypothesis that SARS-CoV-2 infection is accompanied by infected cell-specific glucocorticoid insensitivity as reported for some other viruses. This alteration in local glucocorticoid actions interferes with undesired glucocorticoid to facilitate viral replication but does not affect desired anti-inflammatory properties in non-infected organs/tissues. We postulate that the virus coincidentally causes glucocorticoid insensitivity in the process of modulating host cell activities for promoting its replication in infected cells. We explore this tenet focusing on SARS-CoV-2-encoding proteins and potential molecular mechanisms supporting this hypothetical glucocorticoid insensitivity unique to COVID-19 but not characteristic of other life-threatening viral diseases, probably due to a difference in specific virally-encoded molecules and host cell activities modulated by them.

Repression of transcription by the glucocorticoid receptor: A parsimonious model for the genomics era.

Glucocorticoids are potent anti-inflammatory drugs that are used to treat an extraordinary range of human disease, including COVID-19, underscoring the ongoing importance of understanding their molecular mechanisms. Early studies of GR signaling led to broad acceptance of models in which glucocorticoid receptor (GR) monomers tether repressively to inflammatory transcription factors, thus abrogating inflammatory gene expression. However, newer data challenge this core concept and present an exciting opportunity to reframe our understanding of GR signaling. Here, we present an alternate, two-part model for transcriptional repression by glucocorticoids. First, widespread GR-mediated induction of transcription results in rapid, primary repression of inflammatory gene transcription and associated enhancers through competition-based mechanisms. Second, a subset of GR-induced genes, including targets that are regulated in coordination with inflammatory transcription factors such as NF-κB, exerts secondary repressive effects on inflammatory gene expression. Within this framework, emerging data indicate that the gene set regulated through the cooperative convergence of GR and NF-κB signaling is central to the broad clinical effectiveness of glucocorticoids in terminating inflammation and promoting tissue repair.