Raltegravir dosage adjustment in HIV-infected patients receiving etravirine.

PURPOSE: The pharmacokinetic interaction of etravirine and raltegravir is reviewed, with discussion of implications for clinical practice. SUMMARY: Etravirine (a second-generation nonnucleoside reverse transcriptase inhibitor) and raltegravir (an integrase strand- transfer inhibitor) are two agents approved by the Federal Food and Drug Administration for use in human immunodeficiency virus (HIV) treatment-resistant patients. Minimal data exist on the concurrent use of raltegravir with etravirine. This combination would offer treatment-experienced HIV patients a novel pharmacotherapy plan including two new fully active agents. Etravirine induces uridine diphosphate- glucuronosyltransferase 1A1 and reduces the raltegravir minimum concentration (C(min)) by 34% when administered concurrently in healthy volunteers. In a case series of four HIV treatment-resistant patients initiated on an antiretroviral regimen including standard doses of etravirine and raltegravir, poor virological control was demonstrated. Two of these four patients had a raltegravir C(min) below the 95% minimum inhibitory concentration. In a larger study (n = 103), sustained virological control (viral loads of <50 copies/mL) resulted when HIV treatment-resistant patients received standard doses of darunavir, ritonavir, etravirine, raltegravir, and nucleoside analogs with or without enfuvirtide. Debate exists regarding the best raltegravir pharmacokinetic parameter to evaluate (C(min) or the area under the concentration curve/50% effective concentration). Recent data in HIV treatment-naive patients support a negative association between a low raltegravir C(min) (≤43 ng/mL) and virological suppression. CONCLUSION: The need to adjust the dosage of raltegravir in HIV-infected patients who are also receiving etravirine is unclear. In such patients who have an extensive history of HIV disease treatment, prescribing raltegravir 1200 mg/day, rather than the standard 800 mg/day, may be prudent to prevent the development of treatment-resistant virus and to achieve an optimal virological response.

Retinal function and structure in Ant1-deficient mice.

PURPOSE: Mutations in ANT, a mitochondrial ATP transporter, are typically associated with myopathy. Because of the high metabolic demands of the retina, the authors examined whether elimination of the Ant1 isoform in a transgenic mouse affects retinal function or morphology. METHODS: RT-PCR was used to confirm Ant1 expression in retinas of wild-type (WT) or Ant1(-/-) mice. Full-field ERGs were used to test retinal function under dark- and light-adapted conditions and the recovery of the photoresponse to a bright flash. Using histologic methods, the authors assessed the retinal location of ANT and ANT1-ß-gal reporter protein, mitochondrial activity with cytochrome c oxidase (COX) and succinate dehydrogenase (SDH) staining, retinal layer thickness, and bipolar cell types using Chx10 and recoverin. RESULTS: Ant1(-/-) mice had supernormal ERG b-waves under both dark- and light-adapted conditions. X-Gal staining was detected in a subset of cells within the inner retina. The following characteristics were normal in Ant1(-/-) mice compared with age-matched WT mice: recovery of the photoresponse, COX and SDH activity, retinal morphology, and bipolar cell morphology. CONCLUSIONS: The presence of ANT1 in a subset of inner retinal cells accompanied by supernormal ERG responses suggests that ANT1 may be localized to hyperpolarizing bipolar cells. However, the immunohistochemical techniques used here did not show any differences in bipolar cells. Moderate functional changes coupled with a lack of detectable morphologic changes suggest that ANT1 is not essential for ATP transport in the retina.

Probiotics for maintaining remission of ulcerative colitis in adults.

OBJECTIVE: To evaluate evidence for probiotic efficacy for maintaining remission of ulcerative colitis (UC) in adults. DATA SOURCES: A MEDLINE search (1948-November 2009) was conducted using ulcerative colitis and probiotics as terms for identifying pertinent studies. Search limits included English language and humans. Additional information was obtained from bibliographies. STUDY SELECTION AND DATA EXTRACTION: Prospective trials published in English and conducted in adults were included. Two open-label and 3 double-blind randomized trials evaluated probiotic efficacy for maintaining remission of UC. Clinical and surrogate markers for maintaining remission of UC were assessed. DATA SYNTHESIS: A relationship between immune response and gastrointestinal microbials appears to be involved in the mechanism of UC. Trial results comparing the probiotic Escherichia coli Nissle 1917 to mesalazine have reported equivalent rates of UC relapse. Treatment with Lactobacillus rhamnosus GG strain alone or in combination with mesalazine resulted in a nonsignificant odds ratio decrease for relapse and a significant increase in time to relapse compared to treatment with mesalazine alone. Additionally, bifidobacteria-fermented milk-supplemented patients had significant reductions in UC exacerbations when compared to nonsupplemented patients. Probiotics were well tolerated, with adverse event rates similar between treatments. CONCLUSIONS: Studies evaluating probiotics for maintaining remission of UC are limited by trial design and use of different probiotics with variable bacterial contents. Thus, questions remain regarding optimal probiotic, dosing, specific patient populations, and placement in therapy. To answer these questions, large, randomized, controlled trials need to be conducted before probiotics can be routinely recommended for maintaining remission of UC.

Tool from ancient pharmacopoeia prevents vision loss.

PURPOSE: Bear bile has been used in Asia for over 3,000 years to treat visual disorders, yet its therapeutic potential remains unexplored in Western vision research. The purpose of this study was to test whether treatment of mice undergoing retinal degeneration with tauroursodeoxycholic acid (TUDCA), a primary constituent of bear bile, alters the course of degeneration. METHODS: Two retinal degeneration models were tested: the rd10 mouse, which has a point mutation in the gene encoding the beta subunit of rod phosphodiesterase, and light induced retinal damage (LIRD). For LIRD studies, albino Balb/C adult mice were subcutaneously injected with TUDCA (500 mg/kg body weight) or vehicle (0.15 M NaHCO(3)). Sixteen h later, each mouse received repeat injections. Half of each treatment group was then placed in bright light (10,000 lux) or dim light (200 lux) for seven h. At the end of exposure, animals were transferred to their regular housing. Electroretinograms (ERGs) were assessed 24 h later, mice sacrificed, eyes embedded in paraffin and sectioned, and retina sections assayed for morphology and apoptosis by TUNEL and anti-active caspase-3 immunoreactivity via fluorescent confocal microscopy. A subset of mice were sacrificed 8 and 15 days after exposure and retina sections analyzed for morphology and apoptosis. For rd10 studies, mice were injected subcutaneously with TUDCA or vehicle at postnatal (P) days 6, 9, 12, and 15. At p18, ERGs were recorded, mice were euthanized and eyes were harvested, fixed, and processed. Retinal sections were stained (toluidine blue), and retinal cell layers morphometrically analyzed by light microscopy. Consecutive sections were analyzed for apopotosis as above. RESULTS: By every measure, TUDCA greatly slowed retinal degeneration in LIRD and rd10 mice. ERG a-wave and b-wave amplitudes were greater in mice treated with TUDCA compared to those treated with vehicle. Retinas of TUDCA-treated mice had thicker outer nuclear layers, more photoreceptor cells, and more fully-developed photoreceptor outer segments. Finally, TUDCA treatments dramatically suppressed signs of apoptosis in both models. CONCLUSIONS: Systemic injection of TUDCA, a primary constituent of bear bile, profoundly suppressed apoptosis and preserved function and morphology of photoreceptor cells in two disparate mouse models of retinal degeneration. It may be that bear bile has endured so long in Asian pharmacopeias due to efficacy resulting from this anti-apoptotic and neuroprotective activity of TUDCA. These results also indicate that a systematic, clinical assessment of TUDCA may be warranted.