Human Papillomavirus (HPV) Detection in Cytologic Specimens: Similarities and Differences of Available Methodology.

Accumulating evidence regarding the causative role of human papillomavirus (HPV) in a wide range of malignant and nonmalignant diseases highlights the importance of HPV testing. This study describes and discusses the efficacy and characteristics of 4 well-established and commercially available tests. Here, 181 cytologic specimens from cervical smears were analyzed using the HPV SIGN PQ (Diatech) and the Linear Array (Roche) method. Discrepant results were further studied with the Real Time High-Risk HPV (Abbott) method and the INNO-LiPA (Fujirebio) method. Of 181 cytologic specimens, 61 (34%) showed discrepant results. High-risk HPV was not detected in 9 cases by HPV SIGN PQ, in 16 cases by Linear Array, in 10 cases by Real Time High-Risk HPV, and in 6 cases by INNO-LiPA, respectively. Lack of DNA detection or problems in interpreting the result were seen in 9 cases with HPV SIGN PQ, 8 cases with Linear Array, 3 cases with Real Time High-Risk HPV, and 3 cases with INNO-LiPA, respectively. This study indicates that the choice of HPV detection method has a substantial influence on the HPV risk classification of tested PAP smears and clinical follow-up decisions.

The relationship between duration of initial alcohol exposure and persistence of molecular tolerance is markedly nonlinear.

The neuronal calcium- and voltage-activated BK potassium channel is modulated by ethanol, and plays a role in behavioral tolerance in vertebrates and invertebrates. We examine the influence of temporal parameters of alcohol exposure on the characteristics of BK molecular tolerance in the ventral striatum, an important component of brain reward circuitry. BK channels in striatal neurons of C57BL/6J mice exhibited molecular tolerance whose duration was a function of exposure time. After 6 h exposure to 20 mm (0.09 mg%) ethanol, alcohol sensitivity was suppressed beyond 24 h after withdrawal, while after a 1 or 3 h exposure, sensitivity had significantly recovered after 4 h. This temporally controlled transition to persistent molecular tolerance parallels changes in BK channel isoform profile. After withdrawal from 6 h, but not 3 h alcohol exposure, mRNA levels of the alcohol-insensitive STREX (stress axis-regulated exon) splice variant were increased. Moreover, the biophysical properties of BK channels during withdrawal from 6 h exposure were altered, and match the properties of STREX channels exogenously expressed in HEK 293 cells. Our results suggest a temporally triggered shift in BK isoform identity. Once activated, the transition does not require the continued presence of alcohol. We next determined whether the results obtained using cultured striatal neurons could be observed in acutely dissociated striatal neurons, after alcohol administration in the living mouse. The results were in remarkable agreement with the striatal culture data, showing persistent molecular tolerance after injections producing 6 h of intoxication, but not after injections producing only 3 h of intoxication.

Posttranscriptional regulation of BK channel splice variant stability by miR-9 underlies neuroadaptation to alcohol.

Tolerance represents a critical component of addiction. The large-conductance calcium- and voltage-activated potassium channel (BK) is a well-established alcohol target, and an important element in behavioral and molecular alcohol tolerance. We tested whether microRNA, a newly discovered class of gene expression regulators, plays a role in the development of tolerance. We show that in adult mammalian brain, alcohol upregulates microRNA miR-9 and mediates posttranscriptional reorganization in BK mRNA splice variants by miR-9-dependent destabilization of BK mRNAs containing 3'UTRs with a miR-9 Recognition Element (MRE). Different splice variants encode BK isoforms with different alcohol sensitivities. Computational modeling indicates that this miR-9-dependent mechanism contributes to alcohol tolerance. Moreover, this mechanism can be extended to include regulation of additional miR-9 targets relevant to alcohol abuse. Our results describe a mechanism of multiplex regulation of stability of alternatively spliced mRNA by microRNA in drug adaptation and neuronal plasticity.