> The medication works in two ways: First, it interrupts viral replication by preventing HIV from reaching the nucleus of an infected cell, which then blocks reproduction.
> The second mechanism is for cases in which integration of the HIV genome has already occurred. In this instance, lenacapavir interferes with production of viral progeny
In other words, it has multiple mechanisms of action and you are only discussing one of them.
> Its multistage inhibition entails the process of selective binding to the interface between capsid subunits and such interaction determines the inhibition of capsid-mediated nuclear uptake of HIV-1 proviral DNA (by blocking nuclear import proteins binding to capsid), virus assembly and release (by interfering with Gag/Gag-Pol functioning, reducing production of CA subunits), and capsid core formation (by disrupting the rate of capsid subunit association, leading to irregularly formed capsids)
> The medication works in two ways: First, it interrupts viral replication by preventing HIV from reaching the nucleus of an infected cell, which then blocks reproduction.
> The second mechanism is for cases in which integration of the HIV genome has already occurred. In this instance, lenacapavir interferes with production of viral progeny
In other words, it has multiple mechanisms of action and you are only discussing one of them.
Another source is https://pmc.ncbi.nlm.nih.gov/articles/PMC10705863/ (my emphasis):
> Its multistage inhibition entails the process of selective binding to the interface between capsid subunits and such interaction determines the inhibition of capsid-mediated nuclear uptake of HIV-1 proviral DNA (by blocking nuclear import proteins binding to capsid), virus assembly and release (by interfering with Gag/Gag-Pol functioning, reducing production of CA subunits), and capsid core formation (by disrupting the rate of capsid subunit association, leading to irregularly formed capsids)