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Antiretroviral therapy is highly effective in suppressing human immunodeficiency virus (HIV) 1 . However, eradication of the virus in individuals with HIV has not been possible to date 2 . Given that HIV suppression requires life-long antiretroviral therapy, predominantly on a daily basis, there is a need to develop clinically effective alternatives that use long-acting antiviral agents to inhibit viral replication 3 . Here we report the results of a two-component clinical trial involving the passive transfer of two HIV-specific broadly neutralizing monoclonal antibodies, 3BNC117 and 10-1074. The first component was a randomized, double-blind, placebo-controlled trial that enrolled participants who initiated antiretroviral therapy during the acute/early phase of HIV infection. The second component was an open-label single-arm trial that enrolled individuals with viraemic control who were naive to antiretroviral therapy. Up to 8 infusions of 3BNC117 and 10-1074, administered over a period of 24 weeks, were well tolerated without any serious adverse events related to the infusions. Compared with the placebo, the combination broadly neutralizing monoclonal antibodies maintained complete suppression of plasma viraemia (for up to 43 weeks) after analytical treatment interruption, provided that no antibody-resistant HIV was detected at the baseline in the study participants. Similarly, potent HIV suppression was seen in the antiretroviral-therapy-naive study participants with viraemia carrying sensitive virus at the baseline. Our data demonstrate that combination therapy with broadly neutralizing monoclonal antibodies can provide long-term virological suppression without antiretroviral therapy in individuals with HIV, and our experience offers guidance for future clinical trials involving next-generation antibodies with long half-lives. Combination therapy of broadly neutralizing monoclonal antibodies can provide long-term virological suppression in individuals infected with HIV without antiretroviral therapy.

In this ongoing, randomized, phase 3 trial, sotrovimab (a SARS-CoV-2–targeted monoclonal antibody) or placebo was administered to outpatients within 5 days after the onset of Covid-19 symptoms. The incidence of hospitalization for any cause or death was lower among patients who received sotrovimab (1% vs. 7%).

Bezlotoxumab is human monoclonal antibody against Clostridium difficile toxin B. In two controlled trials, a single intravenous dose of bezlotoxumab, given in addition to antibiotic treatment, provided protection against recurrent infection for up to 12 weeks.

The emergence of SARS-CoV-2 variants is jeopardizing the effectiveness of current vaccines and limiting the application of monoclonal antibody-based therapy for COVID-19 (refs. 1 , 2 ). Here we analysed the memory B cells of five naive and five convalescent people vaccinated with the BNT162b2 mRNA vaccine to investigate the nature of the B cell and antibody response at the single-cell level. Almost 6,000 cells were sorted, over 3,000 cells produced monoclonal antibodies against the spike protein and more than 400 cells neutralized the original SARS-CoV-2 virus first identified in Wuhan, China. The B.1.351 (Beta) and B.1.1.248 (Gamma) variants escaped almost 70% of these antibodies, while a much smaller portion was impacted by the B.1.1.7 (Alpha) and B.1.617.2 (Delta) variants. The overall loss of neutralization was always significantly higher in the antibodies from naive people. In part, this was due to the IGHV2-5;IGHJ4-1 germline, which was found only in people who were convalescent and generated potent and broadly neutralizing antibodies. Our data suggest that people who are seropositive following infection or primary vaccination will produce antibodies with increased potency and breadth and will be able to better control emerging SARS-CoV-2 variants. Single-cell-level analysis of memory B cells and their response to vaccination against all SARS-CoV-2 variants of concern in individuals who either had or had not been previously exposed to the virus.

A phase I study of passive immunization with a CD4 binding-site-directed broadly neutralizing antibody shows that it transiently reduces HIV-1 viral loads in humans. Anti-HIV antibody shows promise The passive administration of broadly neutralizing antibodies (bNAbs) to HIV has been effective against HIV-1 infection in humanized mice and macaque models of HIV-1 infection. It has been suggested that bNAbs, administered passively or by viral vectors, may be effective for prevention and immunotherapy in humans. The safety and efficacy of the approach had not been tested in humans previously but here Michel Nussenzweig and colleagues report the results of a phase I study of passive immunization with neutralizing antibodies directed at CD4 binding sites, and show that the treatment transiently reduces HIV viral loads in humans. HIV-1 immunotherapy with a combination of first generation monoclonal antibodies was largely ineffective in pre-clinical and clinical settings and was therefore abandoned 1 , 2 , 3 . However, recently developed single-cell-based antibody cloning methods have uncovered a new generation of far more potent broadly neutralizing antibodies to HIV-1 (refs 4 , 5 ). These antibodies can prevent infection and suppress viraemia in humanized mice and nonhuman primates, but their potential for human HIV-1 immunotherapy has not been evaluated 6 , 7 , 8 , 9 , 10 . Here we report the results of a first-in-man dose escalation phase 1 clinical trial of 3BNC117, a potent human CD4 binding site antibody 11 , in uninfected and HIV-1-infected individuals. 3BNC117 infusion was well tolerated and demonstrated favourable pharmacokinetics. A single 30 mg kg −1 infusion of 3BNC117 reduced the viral load in HIV-1-infected individuals by 0.8–2.5 log 10 and viraemia remained significantly reduced for 28 days. Emergence of resistant viral strains was variable, with some individuals remaining sensitive to 3BNC117 for a period of 28 days. We conclude that, as a single agent, 3BNC117 is safe and effective in reducing HIV-1 viraemia, and that immunotherapy should be explored as a new modality for HIV-1 prevention, therapy and cure.

This phase 3, placebo-controlled platform trial evaluated a single infusion of casirivimab and imdevimab (REGEN-COV) at 2400-mg and 1200-mg doses in outpatients with acute SARS-CoV-2 infection. The incidence of Covid-19–related hospitalization was lower and recovery was faster among patients who received the antibody combination than among those who received placebo.

Two phase 2 trials assessed the efficacy and safety of intravenous infusions of a broadly neutralizing antibody, VRCO1, to prevent HIV-1 infection. VRC01 did not cause adverse events and did not prevent overall HIV-1 acquisition significantly more effectively than placebo. In secondary analyses, VRC01 prevented transmission of VRC01-sensitive HIV-1 isolates.

An anti–SARS-CoV-2 antibody cocktail was given to patients within 3 days after PCR confirmation of Covid-19. In patients who were antibody-negative at baseline, treatment was associated with rapid viral clearance and potentially with a less frequent need for medical attention. The effect was less marked among patients who were antibody-positive at baseline.

In a phase 2 trial, outpatients with Covid-19 who received a single infusion of a 2800-mg dose of the neutralizing antibody LY-CoV555 had a greater reduction from baseline in viral load than those who received placebo. Hospitalization was less frequent among antibody-treated patients (1.6% vs. 6.3%).

Individuals infected with HIV-1 require lifelong antiretroviral therapy, because interruption of treatment leads to rapid rebound viraemia. Here we report on a phase 1b clinical trial in which a combination of 3BNC117 and 10-1074, two potent monoclonal anti-HIV-1 broadly neutralizing antibodies that target independent sites on the HIV-1 envelope spike, was administered during analytical treatment interruption. Participants received three infusions of 30 mg kg −1 of each antibody at 0, 3 and 6 weeks. Infusions of the two antibodies were generally well-tolerated. The nine enrolled individuals with antibody-sensitive latent viral reservoirs maintained suppression for between 15 and more than 30 weeks (median of 21 weeks), and none developed viruses that were resistant to both antibodies. We conclude that the combination of the anti-HIV-1 monoclonal antibodies 3BNC117 and 10-1074 can maintain long-term suppression in the absence of antiretroviral therapy in individuals with antibody-sensitive viral reservoirs. Combination therapy with the anti-HIV-1 monoclonal antibodies 3BNC117 and 10-1074 maintains long-term suppression in the absence of antiretroviral therapy in individuals with antibody-sensitive viral reservoirs.