Kunjan Patel scite author profile

Nucleos(t)ide analog drugs profoundly suppress Hepatitis B Virus (HBV) replication but rarely cure the infection, so therapy is usually life-long. The nucleos(t)ide analogs inhibit the viral DNA polymerase and often push HBV to the brink of extinction, so it may be possible to eradicate HBV by suppressing HBV replication further. The HBV ribonuclease H (RNaseH) is a logical new drug target because it is the second of only two viral enzymes essential for viral replication. We recently developed a low throughput screening pipeline for inhibitors of the HBV RNaseH and viral replication. Here, we screened a series of twenty-three nitrogen-based polyoxygenated heterocycles including sixteen 2-hydroxyisoquinoline-1,3(2H,4H)-dione derivatives for anti-HBV RNaseH activity. Nine compounds inhibited the HBV RNaseH, but activity was marginal for eight of them. Compound #1 [2-hydroxyisoquinoline-1,3(2H,4H)-dione, HID] was the best hit with an IC50 of 28.1 µM and an EC50 of 4.2 µM. It preferentially suppressed accumulation of the viral plus-polarity DNA strand in replication inhibition assays, indicating that replication was blocked due to suppression of HBV RNaseH activity. It had a CC50 of 75 µM, yielding a therapeutic index of ~18. The EC50 value was 7-fold lower than the IC50, possibly due to cellular retention or metabolism of the compound, or higher affinity for the full-length enzyme than the recombinant form used for screening. These data indicate that the 2-hydroxyisoquinoline-1,3(2H,4H)-diones will have different structure-activity relationships for the HBV and HIV RNaseHs. Therefore, HID compounds may provide a foundation for development of more effective RNaseH inhibitors of HBV replication.

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Improving Dialysis Adherence for High Risk Patients Using Automated Messaging: Proof of Concept

Som¹,

Groenendyk²,

An³

et al. 2017

Sci Rep

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Comorbidities and socioeconomic barriers often limit patient adherence and self-management with hemodialysis. Missed sessions, often associated with communication barriers, can result in emergency dialysis and avoidable hospitalizations. This proof of concept study explored using a novel digital-messaging platform, EpxDialysis, to improve patient-to-dialysis center communication via widely available text messaging and telephone technology. A randomized controlled trial was conducted through Washington University-affiliated hemodialysis centers involving ESRD patients with poor attendance, defined as missing 2–6 sessions over the preceding 12 weeks. A cross-over study design evaluated appointment adherence between intervention and control groups. Comparing nonadherence rates eight weeks prior to enrollment, median appointment adherence after using the system increased by 75%, and median number of unintended hospitalization days fell by 31%. A conservative cost-benefit analysis of EpxDialysis demonstrates a 1:36 savings ratio from appointment adherence. EpxDialysis is a low-risk, cost-effective, intervention for increasing hemodialysis adherence in high-risk patients, especially at centers caring for vulnerable and low-income patients.

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Effectiveness of a novel, automated telephone intervention on time to hospitalisation in patients with COPD: A randomised controlled trial

et al. 2018

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Introduction Owing to its capacity to perform remote assessments, telemedicine is rising as a new force in chronic obstructive pulmonary disease (COPD) management. We conducted an eight month randomised-controlled-trial to study the effect of an automated telemedicine intervention on patients’ time-to-hospitalisation. Methods A total of 168 patients with a diagnosis of COPD in the past 24 months were enrolled to receive the intervention at a primary care clinic. The treatment group received daily phone messages from an automated system asking them to report if they were breathing better than, worse than, or the same as the day prior. Patients reported their breathing status by responding to the text message or call. If a patient reported breathing worse, an alert was sent directly to that patient’s provider within the clinic. The control group received the same daily phone messages as the treatment group. However, no proactive breathing alerts were ever generated to the provider for these subjects. The primary outcome was the subjects’ time-to-first-COPD-related hospitalisation following the start of messages. Results The treatment group’s time-to-hospitalisation was significantly different than the control group’s with a hazard ratio of 2.36 (95% confidence interval 1.02–5.45, p = 0.0443). The number needed-to-treat ratio was 8.62. Subject engagement consistently ranged between 60% and 75%. The treatment group received both proactive monitoring and follow-up care from the providers. Discussion Active monitoring with provider feedback enables the detection of exacerbation events early enough for subjects to avoid admissions. The use of non-smartphone interventions reduces barriers to care presented by more complicated and expensive technologies. This intervention represents a simple, innovative, and inexpensive tool for improved COPD management.

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Purification and enzymatic characterization of the hepatitis B virus ribonuclease H, a new target for antiviral inhibitors

et al. 2016

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Hepatitis B virus (HBV) reverse transcription requires coordinated function of the reverse transcriptase and ribonuclease H (RNaseH) activities of the viral polymerase protein. The reverse transcriptase has been biochemically characterized, but technical difficulties have prevented both assessment of the RNaseH and development of high throughput inhibitor screens against the RNaseH. Expressing the HBV RNaseH domain with both maltose binding protein and hexahistidine tags led to stable, high-level accumulation of the RNaseH in bacteria. Nickel-affinity purification in the presence of Mg2+ and ATP removed co-purifying bacterial chaperones and yielded nearly pure monomeric recombinant enzyme. The endonucleolytic RNaseH activity required an DNA:RNA duplex ≥14 nt, could not tolerate a stem-loop in either the RNA or DNA strands, and could tolerate a nick in the DNA strand but not a gap. The RNaseH had no obvious sequence specificity or positional dependence within the RNA, and it cut the RNA at multiple positions even within the minimal 14 nt duplex. The RNaseH also possesses a processive 3’-5’ exoribonuclease activity that is slower than the endonucleolytic reaction. These results are consistent with the HBV reverse transcription mechanism that features an initial endoribonucleolytic cut, 3’-5’ degradation of RNA, and a sequence-independent terminal RNA cleavage. These data provide support for ongoing anti-RNaseH drug discovery efforts.

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Kunjan Patel

Hepatitis B virus replication is blocked by a 2-hydroxyisoquinoline-1,3(2H,4H)-dione (HID) inhibitor of the viral ribonuclease H activity

Improving Dialysis Adherence for High Risk Patients Using Automated Messaging: Proof of Concept

Effectiveness of a novel, automated telephone intervention on time to hospitalisation in patients with COPD: A randomised controlled trial

Purification and enzymatic characterization of the hepatitis B virus ribonuclease H, a new target for antiviral inhibitors

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