Molnupiravir for the treatment of COVID-19 in immunocompromised participants: efficacy, safety, and virology results from the phase 3 randomized, placebo-controlled MOVe-OUT trial

Purpose Immunocompromised patients have a potentially increased risk for progression to severe COVID-19 and prolonged replication of SARS-CoV-2. This post hoc analysis examined outcomes among immunocompromised participants in the MOVe-OUT trial. Methods In phase 3 of MOVe-OUT, non-hospitalized at-risk adults with mild-to-moderate COVID-19 were randomized to receive molnupiravir 800 mg or placebo twice daily for 5 days. Immunocompromised participants were identified based on prior/concomitant medications and/or medical history. All-cause hospitalization/death, adverse events, SARS-CoV-2 titers, infectivity, and RNA sequences were compared between immunocompromised participants who received molnupiravir or placebo and with non-immunocompromised participants. Results Fifty-five of 1408 participants were considered immunocompromised. Compared to placebo, fewer molnupiravir-treated immunocompromised participants were hospitalized/died through Day 29 (22.6% [7/31] vs. 8.3% [2/24]), with fewer adverse events (45.2% [14/31] vs. 25.0% [6/24]). A larger mean change from baseline in SARS-CoV-2 RNA was observed with molnupiravir compared to placebo in non-immunocompromised participants (least squares mean [LSM] difference Day 5:  – 0.31, 95% confidence interval [CI]  – 0.47 to  – 0.15), while the mean change was comparable between treatment groups in immunocompromised participants (LSM difference Day 5: 0.23, 95% CI  – 0.71 to 1.17). Molnupiravir treatment was associated with increased clearance of infectious virus. Increased errors in viral nucleotide sequences in post-baseline samples compared to placebo support molnupiravir’s mechanism of action and were not associated with observation of novel treatment-emergent amino acid substitutions in immunocompromised participants. Conclusion Although the study population was small, these data suggest that molnupiravir treatment for mild-to-moderate COVID-19 in non-hospitalized immunocompromised adults is efficacious and safe and quickly reduces infectious SARS-CoV-2. ClinicalTrials.gov Registration Number NCT04575597. Supplementary Information The online version contains supplementary material available at 10.1007/s15010-022-01959-9.

MOVe-OUT was a phase 2/3 randomized, double-blind, placebo-controlled trial that evaluated molnupiravir for the treatment of non-hospitalized adults with mild-to-moderate COVID-19 and risk factors for progression to severe disease.In the interim analysis for the phase 3 component of MOVe-OUT (enrollment May 6 through August 5, 2021), molnupiravir was superior to placebo in reducing the risk for all-cause hospitalization or death by Day 29 (7.3% vs. 14.1%;difference, -6.8%; 95% CI, -11.3 to -2.4).In the final analysis including all randomized participants (enrollment May 6 through October 2, 2021), molnupiravir demonstrated a reduction in the risk for all-cause hospitalization or death (6.8% vs. 9.7%; difference, -3.0%; 95% CI, -5.9 to -0.1), with an 89% relative risk reduction in all-cause mortality compared with placebo [21].
This post hoc analysis explored virologic data, as well as clinical efficacy and safety, in the cohort of immunocompromised participants from the phase 3 component of MOVe-OUT.We compared all-cause hospitalization or death and adverse events along with SARS-CoV-2 viral RNA, viral infectivity, viral RNA nucleotide error rate, treatment-emergent amino acid changes, and anti-SARS-CoV-2 antibody status among immunocompromised and non-immunocompromised participants treated with molnupiravir versus placebo.

Design overview, setting, and participants
Non-hospitalized adults ≥ 18 years old with laboratory-confirmed mild-to-moderate COVID-19 and at least one risk factor for progression to severe disease were included in the phase 3 component of MOVe-OUT (ClinicalTrials.govNCT04575597).Participants were randomized within 5 days of onset of COVID-19 signs or symptoms and received molnupiravir 800 mg every 12 h or matching placebo for 5 days.Nasopharyngeal swabs and blood samples were collected at baseline on Day 1 and on Days 3, 5, 10, 15, and 29.MOVe-OUT was conducted in accordance with local and/or national regulations (including all applicable data protection laws and regulations), International Council for Harmonization-Good Clinical Practice, and the ethical principles that have their origin in the Declaration of Helsinki regarding independent ethics committee review, informed consent, and the protection of human participants in biomedical research.The full details of the phase 3 component of MOVe-OUT, along with the study protocol, are reported in Jayk Bernal, A. et al. [21].
Immunocompromised participants were identified based on a post hoc review of medical history and/or prior and concomitant use of systemic corticosteroids or immunosuppressant medications, as classified in H02AB and L04 of the World Health Organization Anatomical Therapeutic Chemical Classification System code.The following criteria were applied to identify immunocompromised participants: prior use of systemic corticosteroids for ≤ 4 weeks prior to receipt of the first dose of study drug; prior and/or concomitant use of immunosuppressants for an underlying condition(s); and/or medical history of immunocompromising conditions, including HIV (PLWH receiving a stable antiretroviral regimen), hematopoietic stem cell or solid organ transplant recipient, and active cancer.Active cancer was identified at the discretion of the investigators.Participants with an absolute neutrophil count < 500 cells/mm 3 or a recent HIV RNA > 50 copies/mL (regardless of CD4 + T lymphocyte count) or an acquired immunodeficiency syndrome-defining illness in the past 6 months were excluded.Participants who received immunosuppressants for the treatment of COVID-19 or had minor cancers not associated with immunosuppression or significant morbidity/mortality (e.g., basal cell carcinomas) were not considered immunocompromised for this analysis.

Outcomes
All-cause hospitalization or death through Day 29 and virologic outcomes with molnupiravir and placebo in immunocompromised and non-immunocompromised participants were assessed in the modified intent-to-treat population (MITT, all randomized participants who received ≥ 1 dose of study drug and were not hospitalized prior to the first dose).Adverse events through Day 29 were summarized in the safety population (all randomized participants who received ≥ 1 dose of study drug).Virologic outcomes included mean change from baseline in quantitative SARS-CoV-2 RNA over time, proportion of participants with detectable infectious SARS-CoV-2 over time, SARS-CoV-2 nucleotide error rates at Day 5, treatment-emergent amino acid changes through Day 29, proportion of participants with SARS-CoV-2 nucleocapsid antibody positivity over time, and mean change from baseline in SARS-CoV-2 neutralizing antibody titers on Days 10 and 29.

SARS-CoV-2 RNA
SARS-CoV-2 RNA titers from nasopharyngeal swabs on Days 1, 3, 5, 10, 15, and 29 were measured using a quantitative RT-PCR assay developed at Q 2 Solutions (Morrisville, NC, USA).The assay reported SARS-CoV-2 RNA values between 500 to 500,000,000 copies/mL.To extend the dynamic range of the assay, samples resulting with titers above the upper limit of quantification (> 500,000,000 copies/mL) were diluted 100-fold and retested.RNA titers obtained from the retest of diluted sample were adjusted (100 ×) accordingly.If the calculated value of the diluted sample was lower than the original result, the higher value of the 2 determinations was used for analysis.

SARS-CoV-2 infectivity
Nasopharyngeal specimens collected on Days 1, 3, 5, 10, 15, and 29 with viral RNA > 100,000 copies/mL were serially diluted in duplicate in serum free Eagle Minimum Essential Media and 100 µL of each dilution placed in a 24-well-plate containing > 90% confluent Vero E6 cells.Samples were incubated with cells for 60 min at 37°C and 5% CO 2 before addition of 1 mL of overlay media.Cultures were incubated for 48 h, and the plaque-forming units (PFUs) were visualized by washing and staining with crystal violet solution for 30 min.Plaques were then manually counted, and the final infectious titer was calculated based on the dilution factor.A control reference standard sample with known PFU titer was assayed for every batch.The lower limit of quantification for this assay was determined as 200 PFU/mL.Samples with titer values below the lower limit were resulted as < 200 PFU/mL.

Next-generation sequencing (NGS)
NGS analysis was performed on nasopharyngeal samples with RNA titers ≥ 600 copies/mL on Days 1 and 5 and on post-treatment nasopharyngeal samples with RNA titers ≥ 100,000 copies/mL on Days 10, 15, and 29.All NGS analyses were performed by Q 2 Solutions (Morrisville, NC, USA).An Ion AmpliSeq SARS-CoV-2 Research panel (Thermo Fisher Scientific, Waltham, MA, USA) consisting of two primer pair pools that target 237 amplicons specific to the SARS-CoV-2 virus was used.This panel provides > 99% coverage of the SARS-CoV-2 genome.Reverse transcription of the viral RNA input was performed using the Super-Script VILO cDNA Synthesis kit.Library preparation was completed using the Ion AmpliSeq Library Kit Plus.After targeted PCR amplification using 19 cycles, libraries were partially digested, and barcode adapters were ligated to the fragment ends.The final library was quantified using the Ion Library TaqMan Quantitation kit to inform final library loading onto an Ion Torrent sequencer.A minimum of 250,000 reads were targeted for each sample.A positive control was included with each library batch to monitor reagent integrity, and a no template control was included to monitor for cross-contamination.

Anti-SARS-CoV-2 spike protein neutralizing antibody assay
Assessment for the presence and amount of anti-SARS-CoV-2 spike protein neutralizing antibody activity in serum on Day 1 and on Days 10 and 29 was performed at Monogram Biosciences (South San Francisco, CA, USA) using the SARS-CoV-2 PhenoSense® nAB Assay.Serially diluted (1:40-1:2124 dilutions) serum samples were added to HEK293/ACE2 target cells before infection with a pseudotyped luciferase reporter virus expressing the spike protein from the original Wu-1 strain.Serum neutralizing titers were calculated based on the serum dilution needed to inhibit 50% luciferase signal compared with negative control serum.

Statistical analysis
Descriptive statistics were used to summarize efficacy, safety, and virologic data.For categorical variables, frequency and proportions were calculated using the number of participants with available data as the denominator.Differences in the proportion of participants who experienced hospitalization or death through Day 29 were estimated based on the Miettinen & Nurminen method [22].Differences in least square means were used to characterize the changes from baseline in SARS-CoV-2 RNA titers over time.

Role of the sponsor
The trial sponsor, Merck & Co., Inc., Rahway, NJ, USA, was involved in study design, data collection, data analysis, data interpretation, and writing of the report.All authors had access to the study data and final responsibility for the decision to submit for publication.

Results
Among all participants in the MITT population, a total of 3.9% (55/1408) were identified as immunocompromised for this post hoc review.Two participants who received prior corticosteroids were not considered immunocompromised for this analysis (one molnupiravir-treated participant who received inhaled fluticasone/salmeterol and one-placebo treated participant who received oral betamethasone/dexchlorpheniramine and inhaled fluticasone/ salmeterol.The most common immunocompromising condition in both treatment groups was active cancer (Table 1).Doses of prior corticosteroids and immunosuppressants were not decreased during the study.A larger proportion of immunocompromised participants were older, female, Black or African American, from Africa, and not obese compared with non-immunocompromised participants; fewer immunocompromised participants were positive for the spike protein neutralizing antibody at baseline than non-immunocompromised participants (Table 2).
Fewer immunocompromised participants were hospitalized or died through Day 29 in the molnupiravir group (8.3% [2/24]) compared to the placebo group (22.6% [7/31]) (difference -14.2%, 95% CI -33.5 to 6.6) (Fig. 1).Of note, the two participants in the molnupiravir group who were hospitalized included an 81-year-old male with diffuse large B-cell lymphoma who had received cyclophosphamide, doxorubicin, vincristine, and prednisone plus rituximab 10 days prior to the first dose of study drug and was hospitalized for community-acquired pneumonia on study Day 7 and died due to multiorgan failure on study Day 26, and a 49-year-old male with active cancer (unspecified) status post-hemicolectomy who was hospitalized on study Day 8 for a perianal abscess (Supplementary Table 1).Details The proportion of molnupiravir-treated participants who were hospitalized or died was similar regardless of immunocompromised status.A higher proportion of immunocompromised participants were hospitalized or died in the placebo group compared to non-immunocompromised participants (Fig. 1).A higher proportion (5.5% ([3/55]) of immunocompromised participants died versus non-immunocompromised participants (0.5% [7/1353]).
Molnupiravir was generally well-tolerated in immunocompromised participants, and the adverse event profile of molnupiravir was similar regardless of immunocompromised status (Table 3).In immunocompromised participants, there were fewer adverse events and serious adverse events in the molnupiravir group (25% [6/24] and 8.3% [2/24], respectively) compared with the placebo group (45.2% [14/31] and 19.4% [6/31], respectively), whereas in non-immunocompromised participants the adverse event profile of molnupiravir was comparable to placebo.There were three deaths in immunocompromised participants (one in the molnupiravir group and two in the placebo group) (Supplementary Tables 1 and 2) resulting from adverse events, none of which were related to study drug according to the investigators' assessment.
The mean RNA titer (log 10 copies/mL) on Day 1 was comparable, but tended to be slightly higher among immunocompromised participants (molnupiravir 6.98 [n = 17] and placebo 7.07 [n = 28]) compared to non-immunocompromised participants (molnupiravir 6.88 [n = 597] and placebo 6.90 [569]) in both treatment groups.Among nonimmunocompromised participants, a larger mean change from baseline in SARS-CoV-2 RNA was observed in molnupiravir-treated participants compared with placebo at all timepoints (most notable on Days 3, 5 [EOT], and 10), while the mean change was generally comparable between groups in the immunocompromised cohort (Fig. 2).
Among participants with detectable infectious virus at baseline, no participants treated with molnupiravir had infectious virus detected at any post-baseline visit, regardless of immunocompromised status (Fig. 3).In the placebo group, 42.9% (3/7) of participants had infectious virus detected at Day 3 in the immunocompromised cohort, and 19.1% (17/89) and 2.4% (2/82) of participants had infectious virus detected at Days 3 and 5, respectively, in the non-immunocompromised cohort.The relative increase in viral nucleotide error rate in the molnupiravir group compared to placebo was generally consistent between immunocompromised and non-immunocompromised participants at Day 5 (Fig. 4).Treatment-emergent amino acid substitutions observed among molnupiravirtreated immunocompromised participants were similar to those among molnupiravir-or placebo-treated non-immunocompromised participants, with no unique protein loci substitutions observed in the viral replicase or spike sequences (Table 4).There were no treatment-emergent substitutions in viral replicase proteins NSP7, 8, 9, or 10 in immunocompromised participants.Nucleocapsid antibody positivity over time was generally consistent between the molnupiravir and placebo groups among both immunocompromised and non-immunocompromised participants (Fig. 5).The mean change from baseline in spike protein neutralizing antibody titers was generally comparable at Day 10 among immunocompromised participants, while a smaller mean change from baseline was observed in the molnupiravir group compared with placebo at Day 29.The mean change from baseline in spike protein neutralizing antibody titers was generally comparable between the molnupiravir and placebo groups at Days 10 and 29 among non-immunocompromised participants (Fig. 6).

Discussion
Immunocompromised participants in phase 3 of the MOVe-OUT trial who received molnupiravir had a lower incidence of all-cause hospitalization or death without any concerning adverse events through Day 29 compared to placebo (8.3% [2/24] versus 22.6% [7/31]).Reductions in viral RNA in both treatment groups were generally consistent in immunocompromised participants, but no infectious virus was detected after baseline in any immunocompromised molnupiravir-treated participants, while infectious virus was detected post-baseline in the placebo group.Consistent with its mechanism of action, an increased viral error rate was observed in molnupiravir-treated participants, regardless of  Abbreviations: MITT modified intention-to-treat.Every participant was counted a single time for each applicable row and column.A 5% frequency cutoff was applied to identify treatment-emergent amino acid substitutions.Treatment-emergent amino acid changes were reported if detected at the same amino acid position in ≥ 2 participants (pooled molnupiravir and placebo) in post-baseline samples.Only treatment-emergent changes occurring in at least one immunocompromised participant are shown.Mixtures of amino acid changes at specific protein positions were counted only once for each participant  neutralizing antibody titers in molnupiravir-treated immunocompromised participants was observed at Day 29.Delayed clearance of infectious virus in immunocompromised individuals is concerning from an infection control standpoint because of increased potential for transmission and emergence of new SARS-CoV-2 variants.Case reports have noted persistent infectious SARS-CoV-2 shedding in immunocompromised individuals [9,23,24].SARS-CoV-2 evolution has also been reported in immunocompromised patients with persistent infection [23,[25][26][27], with the worry that monoclonal antibody therapy for COVID-19 may cause selective pressure that also contributes to the development of resistant variants [25,26].In this analysis, no infectious virus was detected after baseline in any immunocompromised or non-immunocompromised participants in the molnupiravir group who had infectious virus at baseline.Also, the treatment-emergent amino acid substitutions in the viral replicase and spike proteins identified in the cohort of molnupiravir-treated immunocompromised participants were not at unique locations compared to molnupiravir-or placebo-treated non-immunocompromised participants.This finding as well as the decreased infectivity suggest that it is unlikely molnupiravir will promote the development of novel SARS-CoV-2 variants.
The proportion of immunocompromised participants positive for spike protein neutralizing antibody at baseline was about 10% lower than the proportion positive in non-immunocompromised participants.In general, antibody responses were comparable in both treatment groups regardless of immunocompromised status.The smaller mean change from baseline in neutralizing antibody titers observed in immunocompromised participants in the molnupiravir group compared with the placebo group at Day 29 may have resulted from less antigenic stimulation due to earlier clearance of the virus with molnupiravir therapy.
Real-world evidence on the use of molnupiravir in immunocompromised patients is beginning to emerge in published literature [28][29][30].For instance, a recent report describes clinical outcomes associated with molnupiravir therapy in immunocompromised individuals, wherein thirty-day hospitalization rates were lower with molnupiravir compared to no outpatient therapy (no molnupiravir, sotrovimab, or nirmatrelvir/ritonavir) in non-hospitalized solid organ transplant recipients with mild-to-moderate COVID-19.In this study, one intensive care unit admission, and no deaths occurred within 30 days in individuals who received molnupiravir, while there were three intensive care unit admissions and three deaths among individuals who did not receive outpatient therapy [28].While the study population in this real-world evidence report, the majority of whom had received at least one dose of a SARS-CoV-2 vaccine and were infected during the Omicron B.1.1.529surge, differed from the immunocompromised participants identified in phase 3 of MOVe-OUT, these real-world data align with our findings and support the use of molnupiravir in immunocompromised patients with COVID-19.
A strength of this analysis is the scope of virologic data that were evaluated in this cohort of immunocompromised participants, with analyses performed on nasopharyngeal samples that were prospectively collected at multiple timepoints in phase 3 of the MOVe-OUT trial.These data add to the very limited literature on outcomes in immunocompromised individuals treated for COVID-19 since they are usually excluded from clinical trials.Our analysis was limited by the small sample of non-hospitalized immunocompromised participants, most of whom had active cancer or wellcontrolled HIV; therefore, this cohort is not representative of all immunocompromised individuals, for example, patients with depleted T-cells due to uncontrolled HIV or recipients of T-cell depleting agents (i.e., antithymocyte globulin, alemtuzumab) [31][32][33].Also, detailed information about cancer type and treatment was not prospectively collected in the trial database, thus the degree of immunosuppression for some participants with active cancer was not clear.Additionally, participants in MOVe-OUT were not vaccinated against SARS-CoV-2; however, recent real-world data suggest there are clinical benefits of molnupiravir therapy in vaccinated solid organ transplant recipients [28].

Conclusions
Based on the results of this post hoc analysis in participants from phase 3 of MOVe-OUT, the use of molnupiravir appears to be effective and safe for the treatment of mild-tomoderate COVID-19 in non-hospitalized immunocompromised adults at risk for progression to severe COVID-19.There were no notable differences in virologic outcomes among molnupiravir-treated participants based on immunocompromised status, further corroborating the clinical findings in immunocompromised participants.NGS analyses taken together with infectivity data suggest that immunocompromised individuals are not more likely to develop amino acid substitutions, thereby minimizing the possibility for the development of novel SARS-CoV-2 variants following treatment with molnupiravir.

Fig. 1
Fig. 1 Incidence of hospitalization or death through Day 29 by immunocompromised status (MITT population).95% CIs were based on the Miettinen and Nurminen method.Unknown survival status at Day 29 was imputed as hospitalization or death.Abbreviations: CI confidence interval, MITT modified intention-to-treat

Fig. 2 2 Fig. 3
Fig. 2 Mean change from baseline in SARS-CoV-2 RNA over time (MITT population).Error bars represent 95% CIs based on constrained longitudinal data analysis model with RNA titer as the response variable and the following variables as covariates: treatment, study visit, treatment by study visit interaction, and time from symptom onset prior to randomization (≤ 3 days vs. > 3 days from

Fig. 4
Fig. 4 SARS-CoV-2 nucleotide error rates on Day 5 (MITT population).Viral nucleotide error rate was calculated as the number of nucleotide errors compared with the baseline sequence per 10,000 bases across the entire viral genome (30,000 bases).Abbreviations: MITT modified intention-to-treat, SARS-CoV-2 severe acute respiratory syndrome coronavirus 2

Fig. 5 2 Fig. 6
Fig. 5 SARS-CoV-2 nucleocapsid antibody positivity over time (MITT population).n = number of participants with detectable SARS-CoV-2 nucleocapsid antibody at the corresponding visit; N = number of participants with an assay result of SARS-CoV-2 nucleocapsid antibody at the corresponding visit.95% CI for the proportion of participants with detectable nucleocapsid antibody was

Table 1
Immunocompromising conditions (safety population) a Participants could have more than one immunocompromising condition b Excluding minor cancers not associated with immunosuppression or significant morbidity/mortality.Active cancer was identified at the discretion of the investigators c Excluding participants with a recent HIV RNA > 50 copies/mL (regardless of CD4 + T lymphocyte count) or an acquired immunodeficiency syndrome-defining illness in the past 6 months d For an underlying medical condition (not for the treatment of COVID-19 or associated conditions) e Included a variety of different corticosteroid types, dosing forms, dosages, and treatment durations (all for at least 4 weeks prior to the first dose of study drug)

Table 2
Baseline demographics and characteristics (MITT population) Abbreviations: COVID-19 coronavirus disease 2019, MITT modified intention-to-treat, SARS-CoV-2 severe acute respiratory syndrome coronavirus 2 a Missing data, invalid sample, tests not done, or results reported as "unknown" were categorized as unknown regarding the seven immunocompromised placebo-treated participants who were hospitalized are provided in Supplementary Table2.In a supportive analysis, one (4.2%[1/24])participant in the molnupiravir group and five (16.1%[5/31]) participants in the placebo group had a hospitalization or death through Day 29 considered by the investigators to be related to COVID-19.

Table 4
Treatment-emergent amino acid substitutions by Day 29 (MITT population)