The most important
family of enzymes is CYP450. The CYP3A4 isoform metabolizes many drugs, including PIs and NNRTIs. Rifamycins are potent inducers of CYP3A4 [66,67] and have clinically important interactions with PIs and NNRTIs. Of all medicines, rifampicin is the most powerful inducer of CYP3A4. Rifapentine is a less potent inducer; and rifabutin much less so. To a smaller extent, rifampicin also induces the activity of CYP2C19 and CYPD6. Rifampicin also increases activity of http://www.selleckchem.com/products/Gefitinib.html the intestinal drug transporter PgP which contributes to the absorption, distribution and elimination of PIs [67,68]. The enzyme-inducing effect of rifampicin takes at least 2 weeks to become maximal and persists for at least 2 weeks after rifampicin has been stopped. If antiretrovirals are started or changed at the end of TB treatment, this persistent effect on enzyme induction should be taken into consideration.
Rifabutin is a less potent inducer of CYP3A4 than rifampicin [69]. Unlike rifampicin, it is also a substrate of the enzyme [66]. Any CYP3A4 inhibitors will therefore increase UK-371804 the concentration of rifabutin, although they have no effect on rifampicin metabolism. Most PIs are inhibitors of CYP3A4 and, when used with rifabutin, plasma concentrations of rifabutin and its metabolites may increase and cause toxicity [70]. NRTIs are mostly known to be free of clinically significant interactions with rifampicin. In theory they should not have significant interactions with other first-line anti-tuberculosis therapies. Few data are available for the newer antiretroviral agents. The CCR5 inhibitor maraviroc interacts with rifamycins, as do the integrase inhibitors raltegravir and elvitegravir. Individual drug–drug interactions between rifamycins and antiretroviral agents are shown in Tables 4–7. The complexity of drug–drug interactions requires expertise in the use of both antiretroviral and anti-TB drugs. One particular interaction should be noted: the metabolism of corticosteroids (e.g. prednisolone)
is accelerated by rifamycins and higher doses are needed. The dose of steroid should be increased by around 50% with rifampicin and 33% with rifabutin. [AII] DOK2 Several studies have found a 20–30% reduction in efavirenz levels when administered with rifampicin [71,72]. There is a lack of consensus regarding the appropriate dose of efavirenz with rifampicin, largely because some of the clinical trial data are conflicting. No randomized clinical trial has correlated patient weight, pharmacokinetics and clinical outcome. We believe that the primary concern is to achieve adequate efavirenz levels in all patients and avoid the development of drug resistance. Using increased levels of efavirenz risks side effects, especially in those with CYP2B6 polymorphisms. However, efavirenz TDM can identify those with high levels and allow dose adjustments.