This study was designed to assess the safety, acceptability, pharmacokinetic (PK), and pharmacodynamic (PD) responses to rectal administration of tenofovir (TFV) 1% vaginally formulated gel and oral tenofovir disoproxil fumarate (TDF). This study was designed as a phase 1, randomized, two-site (United States), double-blind, placebo-controlled study of sexually abstinent men and women. Eighteen participants received a single 300-mg exposure of oral TDF and were then randomized 2:1 to receive a single and then seven daily exposures of rectal TFV or hydroxyethyl cellulose (HEC) placebo gel. Safety endpoints included clinical adverse events (AEs) and mucosal safety parameters. Blood and colonic biopsies were collected for PK analyses and ex vivo HIV-1 challenge. No serious AEs were reported. However, AEs were significantly increased with 7-day TFV gel use, most prominently with gastrointestinal AEs ( p = 0.002). Only 25% of participants liked the TFV gel. Likelihood of use ''if somewhat protective'' was *75% in both groups. Indices of mucosal damage showed minimal changes. Tissue TFV diphosphate (TFV-DP) C max 30 min after single rectal exposure was 6-10 times greater than single oral exposure; tissue TFV-DP was 5.7 times greater following 7-day versus single rectal exposure. In vivo exposure correlated with significant ex vivo tissue infectibility suppression [single-rectal: p = 0.12, analysis of covariance (ANCOVA) p = 0.006; 7-day rectal: p = 0.02, ANCOVA p = 0.005]. Tissue PK-PD was significantly correlated ( p = 0.002). We conclude that rectal dosing with TFV 1% gel resulted in greater TFV-DP tissue detection than oral dosing with reduced ex vivo biopsy infectibility, enabling PK-PD correlations. On the basis of increased gastrointestinal AEs, rectally applied, vaginally formulated TFV was not entirely safe or acceptable, suggesting the need for alternative rectal-specific formulations.
ObjectiveRectal microbicides are needed to reduce the risk of HIV acquisition associated with unprotected receptive anal intercourse. The MTN-007 study was designed to assess the safety (general and mucosal), adherence, and acceptability of a new reduced glycerin formulation of tenofovir 1% gel.MethodsParticipants were randomized 1∶1:1∶1 to receive the reduced glycerin formulation of tenofovir 1% gel, a hydroxyethyl cellulose placebo gel, a 2% nonoxynol-9 gel, or no treatment. Each gel was administered as a single dose followed by 7 daily doses. Mucosal safety evaluation included histology, fecal calprotectin, epithelial sloughing, cytokine expression (mRNA and protein), microarrays, flow cytometry of mucosal T cell phenotype, and rectal microflora. Acceptability and adherence were determined by computer-administered questionnaires and interactive telephone response, respectively.ResultsSixty-five participants (45 men and 20 women) were recruited into the study. There were no significant differences between the numbers of ≥ Grade 2 adverse events across the arms of the study. Likelihood of future product use (acceptability) was 87% (reduced glycerin formulation of tenofovir 1% gel), 93% (hydroxyethyl cellulose placebo gel), and 63% (nonoxynol-9 gel). Fecal calprotectin, rectal microflora, and epithelial sloughing did not differ by treatment arms during the study. Suggestive evidence of differences was seen in histology, mucosal gene expression, protein expression, and T cell phenotype. These changes were mostly confined to comparisons between the nonoxynol-9 gel and other study arms.ConclusionsThe reduced glycerin formulation of tenofovir 1% gel was safe and well tolerated rectally and should be advanced to Phase 2 development.Trial RegistrationClinicalTrials.gov NCT01232803.
There is a paucity of information about total translation rate of vasopressin and oxytocin. Because the site of synthesis of the neurohypophysial hormones is anatomically separate from the site of storage, we were able to measure total translation by blocking transport of newly synthesized hormone and measuring accumulation in the areas of synthesis in the hypothalamus. Colchicine administered into the third ventricle in doses as low as 3.5 micrograms/rat blocked transport for 18 h. The linear increase in vasopressin and oxytocin content over 18 h indicated a stable rate of synthesis, which was 1.2 and 1.9 pmol/h for vasopressin and 1.4-2.5 pmol/h for oxytocin. The molar correlation for synthesis of total neurophysin to total hormone was 1.16. Infusion of oxytocin and vasopressin into rats indicated that this level of synthesis of hormone was essential under steady-state conditions to maintain plasma levels in the low physiological range of approximately 3 pg/ml for oxytocin and 1 pg/ml for vasopressin. The data on total synthesis of the neurohypophysial hormones provide a reference for studies in which physiological replacement is required and also provide the technique and base-line data to determine how translation of vasopressin and oxytocin is regulated when neurohypophysial function is altered.
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