Harboring Resistance Mutations Research Articles

ALK F1174S mutation impairs ALK kinase activity in EML4-ALK variant 1 and sensitizes EML4-ALK variant 3 to crizotinib.

To assess the influence of F1174S mutation on kinase activity and drug sensitivity of the echinoderm microtubule-associated protein-like 4 (EML4) and anaplastic lymphoma kinase (ALK) fusion (EML4-ALK) variants 1 and 3. We constructed mammalian expression plasmids of both wildtype and F1174 mutant EML4-ALK variants 1 and 3, and then characterized them with cell models by performing immunoblotting, neurite outgrowth assay, focus formation assay as well as protein stability assay. Drug sensitivity to ALK tyrosine kinase inhibitors was also compared between wildtype and F1174 mutant EML4-ALK fusions. In addition, we characterized the effect of different F1174 kinase domain mutations in the context of EML4-ALK fusions. In contrast to the oncogenic ALK-F1174S mutation that has been reported to be activating in the context of full-length ALK in neuroblastoma, EML4-ALK (F1174S) variant 1 exhibits impaired kinase activity leading to loss of oncogenicity. Furthermore, unlike the previously reported F1174C/L/V mutations, mutation of F1174 to S sensitizes EML4-ALK variants 3a and 3b to crizotinib. These findings highlight the complexity of drug selection when treating patients harboring resistance mutations and suggest that the F1174S mutation in EML4-ALK variant 1 is likely not a potent oncogenic driver. Additional oncogenic driver or other resistance mechanisms should be considered in the case of EML4-ALK variant 1 with F1174S mutation.

Mutational heterogeneity of imatinib resistance and efficacy of ripretinib vs sunitinib in patients with gastrointestinal stromal tumor: ctDNA analysis from INTRIGUE.

397784 Background: Ripretinib, a switch-control tyrosine kinase inhibitor (TKI), is indicated for patients (pts) with gastrointestinal stromal tumor (GIST) who received prior treatment with ≥3 TKIs, including imatinib. Sunitinib is approved for advanced GIST after imatinib failure. Circulating tumor DNA (ctDNA) analysis may provide insight into the efficacy of these agents in second-line advanced GIST. Here, we present exploratory baseline ctDNA results from INTRIGUE. Methods: INTRIGUE is an open-label, phase 3 study that enrolled adult pts with advanced GIST who progressed on or had intolerance to imatinib (NCT03673501). Randomization was 1:1 to ripretinib 150 mg once daily (QD) or sunitinib 50 mg QD (4 wks on/2 wks off). Baseline peripheral whole blood was analyzed by Guardant360, a 74-gene ctDNA next-generation sequencing (NGS)-based assay. Only KIT mutations are reported here. Results: Of 453 pts in the overall intent-to-treat (ITT) population, 362 (80%) samples were analyzed. ctDNA was detected in 280/362 (77%), with KIT mutations detected in 213/280 (76%). Common resistance mutations were in the KIT activation loop (AL; exons 17/18; 89/213, 42%) and ATP-binding pocket (ATP-BP; exons 13/14; 81/213, 38%). Efficacy in pts with detectable ctDNA in the KIT exon 11 and overall ITT populations was consistent with the primary analysis based on tumor data used for randomization. Pts with KIT exon 11 + 17/18 (−9/13/14) mutations had superior progression-free survival (PFS), objective response rate (ORR), and overall survival (OS) with ripretinib vs sunitinib, whereas pts with exon 11 + 13/14 (−9/17/18) mutations had better PFS, ORR, and OS with sunitinib vs ripretinib (Table). Subgroup safety profiles were consistent with the primary analysis. Conclusions: While KIT ATP-BP mutations predicted clinical benefit from sunitinib vs ripretinib, pts harboring resistance mutations in the KIT AL derived meaningful clinical benefit from ripretinib but not sunitinib. This study demonstrates the value of ctDNA NGS-based sequencing of the complex landscape of KIT mutations to predict the clinical benefit of ripretinib or sunitinib as second-line therapy in pts with advanced GIST. Clinical trial information: NCT03673501 . [Table: see text]

Recent trends in the antibiotic resistance of Helicobacter pylori in patient with dyspepsia.

The aim of this study was to determine the resistance status and to identify the point mutations conferring resistance to clarithromycin and fluoroquinolones among dyspeptic patients in Manisa, Turkey.The study included a sample of 140 patients with an indication for upper gastrointestinal endoscopy randomly selected from 2100 dyspeptic patients attending to the Gastroenterology and Endoscopy Unit at Manisa Celal Bayar University Hafsa Sultan Hospital between April 2016 and May 2018. A commercially available GenoType Helico DR test was used to detect the presence of Helicobacter pylori and mutations associated with resistance to clarithromycin and fluoroquinolones in biopsy specimens.In total, 116 (82.9%) of 140 biopsies obtained from the same number of dyspeptic patients were positive for H pylori and 82 (approximately 71%) of them harbored resistance mutations in 23SrRNA and/or gyrA. Resistance to clarithromycin, levofloxacin, or both were detected in 43.1% (50/116), 27.6% (32/116), and 16/116 (13.8%) of tested biopsies, respectively. The most common mutation conferring resistance to clarithromycin was A2147G (96%, 48/50). Resistance to fluoroquinolones was frequently due to mutation in codon 91 and the most common mutation detected was D91G (34.4%). Heteroresistance patterns were observed in 48.0% (24/50) of clarithromycin-resistant samples and 28.1% (9/32) of levofloxacin-resistant samples.The resistance rates and detected mutations in this study are in line with the country data. However, to achieve better H pylori eradication and to prevent the spread of multidrug-resistant strains in Turkey, the molecular-based susceptibility tests should be considered routinely. Further studies are needed to determine the various mutations among resistant strains.

Frequency and Genomic Aspects of Intrinsic Resistance to Vismodegib in Locally Advanced Basal Cell Carcinoma.

Vismodegib is approved for the treatment of locally advanced basal cell carcinoma (laBCC), but some cases demonstrate intrinsic resistance (IR) to the drug. We sought to assess the frequency of IR to vismodegib in laBCC and its underlying genomic mechanisms. Response to vismodegib was evaluated in a cohort of 148 laBCC patients. Comprehensive genomic and transcriptomic profiling was performed in a subset of five intrinsically resistant BCC (IR-BCC). We identified that IR-BCC represents 6.1% of laBCC in the studied cohort. Prior treatment with chemotherapy was associated with IR. Genetic events that were previously associated with acquired resistance (AR) in BCC or medulloblastoma were observed in three out of five IR-BCC. However, IR-BCCs were distinct by highly rearranged polyploid genomes. Functional analyses identified hyperactivation of the HIPPO-YAP and WNT pathways at RNA and protein levels in IR-BCC. In vitro assay on the BCC cell line further confirmed that YAP1 overexpression increases the cell proliferation rate. IR to vismodegib is a rare event in laBCC. IR-BCCs frequently harbor resistance mutations in the Hh pathway, but also are characterized by hyperactivation of the HIPPO-YAP and WNT pathways.

An evolutionary functional genomics approach identifies novel candidate regions involved in isoniazid resistance in Mycobacterium tuberculosis

Efforts to eradicate tuberculosis are hampered by the rise and spread of antibiotic resistance. Several large-scale projects have aimed to specifically link clinical mutations to resistance phenotypes, but they were limited in both their explanatory and predictive powers. Here, we combine functional genomics and phylogenetic associations using clinical strain genomes to decipher the architecture of isoniazid resistance and search for new resistance determinants. This approach has allowed us to confirm the main target route of the antibiotic, determine the clinical relevance of redox metabolism as an isoniazid resistance mechanism and identify novel candidate genes harboring resistance mutations in strains with previously unexplained isoniazid resistance. This approach can be useful for characterizing how the tuberculosis bacilli acquire resistance to new antibiotics and how to forestall them.

Reverse transcriptase and protease inhibitors mutational viral load in HIV infected pregnant women with transmitted drug resistance in Argentina.

ABSTRACTObjectiveArgentina has reported high levels of transmitted drug resistance (TDR), in HIV-infected pregnant women by population sequencing. We aimed to describe, in patients with TDR, the percentage of quasispecies harboring resistance mutations (RAMs) and mutational load (ML).Patients and MethodsRetrospective study in a cohort of 40 naïve HIV-infected pregnant women, whose pretreatment samples had been genotyped by TRUGENE (period 2008-2014). Samples were re-sequenced with Ultra-deep Sequencing and ML was calculated considering baseline HIV-1 RNA load multiplied by the frequency of quasispecies harboring RAMs.ResultsTDR for NNRTIs, NRTIs and PIs was 17.5% (n=7 patients), 10% (n=4), 12.5% (n=5) respectively. Predominant NNRTI RAMs were K103N (n=4; 10%) and G190A/E/S (n=3; 7.5%). For NNRTIs, 78% of RAMs were present in >93.5% of viral population and ML was >1000 copies/mL (c/mL) for 89%, with a median (IQR) of 8330 c/ml (7738-29796). The following NRTI RAMs were described (per patient: % of quasispecies, ML): T215I (99.7%, 11014 c/ml); D67G (1.28%, 502 c/mL); M41L (79.8%, 88578 c/mL) and M184I (1.02%, 173 c/mL). Most frequent PI-RAMs were I85V, M46I, I50V and L90M (n=2, 5% each). For PIs, quasispecies with RAMs were <2.3% of viral population and ML was <350 c/mL for 77.8% of them.ConclusionNNRTI-RAMs are predominant within the viral population, usually exceeding the threshold of 1000 c/mL, indicating potential higher risk of perinatal transmission. Conversely, PI mutations appear mostly as minority variants, with potential lower risk of transmission. Among NRTI, quasispecies harboring RAMs and ML values were variable.

Determining Resistance Mechanisms in BRAF-mutated Multiple Myeloma

Introduction: Constant clonal evolution and outgrowth of clones that harbor resistance mutations are likely explanations for the emergence of drug-resistant disease in multiple myeloma (MM). Activating mutations in BRAF, KRAS and NRAS have been suggested as potential therapeutic targets. In this study, we investigate resistance to BRAF inhibition in the context of BRAF-mutated MM which accounts for about 5-12% of all patients with relapsed/ refractory MM. Methods: Resistance to dabrafenib was modeled in vitro in the BRAF-mutated MM cell lines (MMCL) U266 (K601Nmut) and DP6 (BRAFV600Emut). Low-pass whole genome sequencing (LPWGS), RNA sequencing, ChIP sequencing and immunoblotting were performed for genomic, transcriptomic, epigenomic and molecular characterization. Functional validation was performed by genome editing using CRISPR/Cas9 technology. Results: Modeling of dabrafenib resistance in vitro revealed an initial decline of cell numbers, followed by a plateau phase and a gradual outgrowth of resistant cells after ~80 days of treatment. As expected, exposure of BRAFmut MMCL to dabrafenib led to initial downregulation of pERK and pMEK. At later timepoints, upregulation of pERK and pMEK was observed, suggesting that re-activation of the ERK/MEK pathway ultimately overcomes BRAF inhibition. This outgrowth was associated with highly distinct copy number profiles in each resistant clone, implying clonal selection with outgrowth of genetically resistant clones as one mechanism of drug resistance in MM. Additionally, we found that BRAF inhibition of BRAFmut MMCL promotes changes of the transcriptional circuitry that appears independent of clonal outgrowth of genetically resistant clones. These transcriptional changes were highly homogenous, occurred as early as 7-14 days after starting treatment and were associated with de-differentiation of MMCL into a more immature B lymphocytic phenotype. This phenotype was associated with greater mRNA expression of CD19 and CD81, as well as upregulation of the B-lymphocyte activation antigen B7-2 (CD86) and PI3K pathway genes. We next investigated if targeting the PI3K pathway and B7.2 can be exploited for effective killing of dabrafenib-resistant BRAFmut MM cells. Studies for the PI3Kδ inhibitor idelalisib in dabrafenib-persistent MMCL revealed higher sensitivity as compared to dabrafenib-naïve controls. Genome editing suggests a survival advantage for CD86WT as compared to CD86KO MMCL. Conclusions: Our data suggest that resistance to BRAF inhibition in vitro is mediated by two distinct mechanisms: 1) clonal outgrowth of genetically distinct resistant clones, and 2) transcriptional rewiring that leads to activation of alternative signaling pathways. The latter is characterized by changes in cellular differentiation and upregulation of PI3K and CD28/CD86 signaling. These concepts may provide a framework for revealing therapeutic vulnerabilities and to overcome drug resistance mediated by genetic heterogeneity in MM. Disclosures Munshi: Oncopep: Consultancy; Takeda: Consultancy; Janssen: Consultancy; Celgene: Consultancy; Oncopep: Consultancy; Abbvie: Consultancy; Adaptive: Consultancy; Amgen: Consultancy. Anderson:Sanofi-Aventis: Other: Advisory Board; Bristol-Myers Squibb: Other: Scientific Founder; Oncopep: Other: Scientific Founder; Amgen: Consultancy, Speakers Bureau; Janssen: Consultancy, Speakers Bureau; Takeda: Consultancy, Speakers Bureau; Celgene: Consultancy, Speakers Bureau. Yee:Karyopharm: Consultancy; Bristol-Myers Squibb: Consultancy, Research Funding; Amgen: Consultancy, Honoraria; Celgene: Consultancy, Honoraria, Research Funding; Takeda: Consultancy; Adaptive: Consultancy. Raje:Amgen Inc.: Consultancy; Bristol-Myers Squibb: Consultancy; Celgene Corporation: Consultancy; Takeda: Consultancy; Janssen: Consultancy; Merck: Consultancy. Lohr:Celgene: Research Funding; T2 Biosystems: Honoraria. OffLabel Disclosure: Dabrafenib is a potent inhibitor of BRAF mutated at codon 600 (BRAFV600). Here we explored the efficacy of dabrafenib a preclinical model of multiple myeloma cell lines with BRAFV600E and BRAFK601N mutations.

Dehydrojuncusol, a Natural Phenanthrene Compound Extracted from Juncus maritimus, Is a New Inhibitor of Hepatitis C Virus RNA Replication.

Recent emergence of direct-acting antivirals (DAAs) targeting hepatitis C virus (HCV) proteins has considerably enhanced the success of antiviral therapy. However, the appearance of DAA-resistant-associated variants is a cause of treatment failure, and the high cost of DAAs renders the therapy not accessible in countries with inadequate medical infrastructures. Therefore, the search for new inhibitors with a lower cost of production should be pursued. In this context, the crude extract of Juncus maritimus Lam. was shown to exhibit high antiviral activity against HCV in cell culture. Bio-guided fractionation allowed the isolation and identification of the active compound, dehydrojuncusol. A time-of-addition assay showed that dehydrojuncusol significantly inhibited HCV infection when added after virus inoculation of HCV genotype 2a (50% effective concentration [EC50] = 1.35 µM). This antiviral activity was confirmed with an HCV subgenomic replicon, and no effect on HCV pseudoparticle entry was observed. Antiviral activity of dehydrojuncusol was also demonstrated in primary human hepatocytes. No in vitro toxicity was observed at active concentrations. Dehydrojuncusol is also efficient on HCV genotype 3a and can be used in combination with sofosbuvir. Interestingly, dehydrojuncusol was able to inhibit RNA replication of two frequent daclatasvir-resistant mutants (L31M or Y93H in NS5A). Finally, mutants resistant to dehydrojuncusol were obtained and showed that the HCV NS5A protein is the target of the molecule. In conclusion, dehydrojuncusol, a natural compound extracted from J. maritimus, inhibits infection of different HCV genotypes by targeting the NS5A protein and is active against resistant HCV variants frequently found in patients with treatment failure.IMPORTANCE Tens of millions of people are infected with hepatitis C virus (HCV) worldwide. Recently marketed direct-acting antivirals (DAAs) targeting HCV proteins have enhanced the efficacy of treatment. However, due to its high cost, this new therapy is not accessible to the vast majority of infected patients. Furthermore, treatment failures have also been reported due to the appearance of viral resistance. Here, we report on the identification of a new HCV inhibitor, dehydrojuncusol, that targets HCV NS5A and is able to inhibit RNA replication of replicons harboring resistance mutations to anti-NS5A DAAs used in current therapy. Dehydrojuncusol is a natural compound isolated from Juncus maritimus, a halophilic plant species that is very common in coastlines worldwide. This molecule might serve as a lead for the development of a new therapy that is more accessible to hepatitis C patients in the future.

SHP2 inhibition restores sensitivity in ALK-rearranged non-small-cell lung cancer resistant to ALK inhibitors.

Most anaplastic lymphoma kinase (ALK)-rearranged non-small-cell lung tumors initially respond to small-molecule ALK inhibitors, but drug resistance often develops. Of tumors that develop resistance to highly potent second-generation ALK inhibitors, approximately half harbor resistance mutations in ALK, while the other half have other mechanisms underlying resistance. Members of the latter group often have activation of at least one of several different tyrosine kinases driving resistance. Such tumors are not expected to respond to lorlatinib-a third-generation inhibitor targeting ALK that is able to overcome all clinically identified resistant mutations in ALK-and further therapeutic options are limited. Herein, we deployed a shRNA screen of 1,000 genes in multiple ALK-inhibitor-resistant patient-derived cells (PDCs) to discover those that confer sensitivity to ALK inhibition. This approach identified SHP2, a nonreceptor protein tyrosine phosphatase, as a common targetable resistance node in multiple PDCs. SHP2 provides a parallel survival input downstream of multiple tyrosine kinases that promote resistance to ALK inhibitors. Treatment with SHP099, the recently discovered small-molecule inhibitor of SHP2, in combination with the ALK tyrosine kinase inhibitor (TKI) ceritinib halted the growth of resistant PDCs through preventing compensatory RAS and ERK1 and ERK2 (ERK1/2) reactivation. These findings suggest that combined ALK and SHP2 inhibition may be a promising therapeutic strategy for resistant cancers driven by several different ALK-independent mechanisms underlying resistance.

Whole genome analysis of a multidrug-resistant Streptococcus pneumoniae isolate from a patient with invasive pneumococcal infection developing disseminated intravascular coagulation

Multidrug-resistant Streptococcus pneumoniae strains were isolated from blood and sputum of a patient with disseminated intravascular coagulation in Sapporo city, Japan. These antibiograms were only susceptible to vancomycin, linezolid, daptomycin, some carbapenems, and some fluoroquinolones. Identical antibiograms, serotypes (19F), and sequence types (ST10017) suggested a shared origin of these isolates. Only one ST10017 strain has been isolated in the same city in Japan previously (2014), and the 2014 isolate is still susceptible to macrolides. The whole genome of the blood-derived isolate was sequenced. The strain harbored resistance mutations in parC, gyrA, pbp1a, pbp2a, pbp2b, and pbp2x, and harbored the resistance genes, ermB and tetM. The nucleotide sequences of parC and pbp2x genes of strain MDRSPN001 were clearly different from those of other S.pneumoniae strains and were similar to those of oral streptococci strains. These findings suggest that strain MDRSPN001 has been rapidly and drastically evolving multidrug resistance by gene replacement and accumulation of genes originating from other strains, such as oral streptococci, Streptococcus mitis.

High Levels of Dual-Class Drug Resistance in HIV-Infected Children Failing First-Line Antiretroviral Therapy in Southern Ethiopia.

Clinical monitoring of pediatric HIV treatment remains a major challenge in settings where drug resistance genotyping is not routinely available. As a result, our understanding of drug resistance, and its impact on subsequent therapeutic regimens available in these settings, remains limited. We investigate the prevalence and correlates of HIV-1 drug resistance among 94 participants of the Ethiopia Pediatric HIV Cohort failing first-line combination antiretroviral therapy (cART) using dried blood spot-based genotyping. Overall, 81% (73/90) of successfully genotyped participants harbored resistance mutations, including 69% (62/90) who harbored resistance to both Nucleoside Reverse Transcriptase Inhibitors (NRTIs) and Non-nucleoside Reverse Transcriptase Inhibitors (NNRTIs). Strikingly, 42% of resistant participants harbored resistance to all four NRTIs recommended for second-line use in this setting, meaning that there are effectively no remaining cART options for these children. Longer cART duration and prior regimen changes were significantly associated with detection of drug resistance mutations. Replicate genotyping increased the breadth of drug resistance detected in 34% of cases, and thus is recommended for consideration when typing from blood spots. Implementation of timely drug resistance testing and access to newer antiretrovirals and drug classes are urgently needed to guide clinical decision-making and improve outcomes for HIV-infected children on first-line cART in Ethiopia.

Emerging resistant clones of Mycobacterium tuberculosis in a spatiotemporal context.

We assessed the genetic structure of the Mycobacterium tuberculosis population in Estonia with a special focus on major epidemic/endemic clones and drug resistance determinants. We investigated the hypothesis of the decisive impact of massive human influx on the locally circulating genotypes. Estonia received a mass immigration from Russia during 1945-90 followed by enhanced interaction with the EU since 1991. The study sample included M. tuberculosis isolates from patients newly diagnosed with TB in 2014 in North Estonia (including the capital Tallinn). The isolates were subjected to first- and second-line drug susceptibility testing, detection of mutations in rpoB, katG, inhA, rrs, embB and gyrA and lineage/clone-specific genotyping. Of the M. tuberculosis isolates, 39.8% were assigned to the Beijing genotype; 56.8% of them were MDR. In contrast, all three major non-Beijing genotypes (LAM, Haarlem and Ural) were mainly drug susceptible. MDR was more prevalent among Beijing B0/W148-cluster isolates (81.8%) compared with other Beijing isolates (20.0%; P = 0.0007). The pre-XDR phenotype was found in eight isolates, of which six belonged to Beijing B0/W148. All rifampicin-resistant and ofloxacin-resistant and 97% of isoniazid-resistant isolates harboured resistance mutations in rpoB, gyrA and katG. The rpoB S531L, katG S315T and embB M306V mutations were the most prevalent. The major pool of the Beijing isolates was brought to Estonia before 1990. However, an active circulation of the most hazardous MDR-associated Beijing B0/W148-cluster started only in the last 20 years and its significantly increased circulation presents the major threat to TB control in Estonia. The overwhelming prevalence of the rpoB531 and katG315 mutations in the MDR-associated Beijing isolates requires attention.

Genotypic resistance of cytomegalovirus to antivirals in hematopoietic stem cell transplant recipients from Portugal: A retrospective study

The aim of this study was to characterize Human Cytomegalovirus (HCMV) drug resistance mutations in UL97 and UL54 genes in allogeneic hematopoietic stem cell transplant (allo-HSCT) recipients in Portugal. We have performed a retrospective study with 22 patients from a cohort of patients with different haematological malignancies submitted to allo-HSCT between 2010 and 2014. Patients were selected according to clinical and laboratory data of HCMV infection and management. HCMV resistance mutations were characterized by sequencing of UL97 and UL54 genes. Sequence data were compared with: 1) HCMV genome reference strain AD169; and also 2) UL97 from Merlin strain (GenBank: AY446894.2), and UL54 from TB40/E strain (GenBank: ABV71585.1). Resistance mutations were identified in seven patients (32%): five harboured resistance mutations in UL97: A594V (n = 2), C592G (n = 1), L595W (n = 1), and C603W (n = 1); and two harboured resistance mutations in UL54: P522S and L957F, one in each patient. Several natural polymorphisms and unknown mutations were found in both UL97 and UL54, with the majority of the patients harbouring more than one unknown mutation in UL97 but only one in UL54. No simultaneous mutations were found. This is the first study in Portugal to characterize HCMV UL97 and UL54 sequences and to identify HCMV drug-resistance mutations in allo-HSCT patients. The UL97 resistance mutations found were amongst the most frequent resistant mutations, while UL54 L957F mutation was here reported for the first time in a clinical specimen. This information provides important information regarding HCMV strains and antiviral resistance in our population.

Abstract C186: SNS-062 is a potent noncovalent BTK inhibitor with comparable activity against wild type BTK and BTK with an acquired resistance mutation

Abstract Background and purpose: BTK mediates B-cell receptor signaling and was validated as a target by the BTK inhibitor ibrutinib in several B-cell malignancies, including mantle cell lymphoma and chronic lymphocytic leukemia (CLL). However, patients may have or acquire resistance. Resistance mechanisms include mutation of the cysteine in the BTK active site that ibrutinib requires for covalent binding (C481). We identified and characterized SNS-062, a potent, noncovalent BTK inhibitor with activity towards BTK harboring resistance mutations that also inhibits ITK and may provide enhanced anti-tumor immune responses. SNS-062 shows restricted kinase selectivity and nonclinical pharmacology, pharmacokinetics (PK) and toxicology profiles distinct from ibrutinib and merits clinical investigation. Methods and Results: In in vitro kinase binding assays, SNS-062 bound to 9 kinases with Kd &amp;lt; 25 nM, including Tec kinase family members BTK (0.3 nM) and ITK (2.2 nM), but did not bind EGFR. Lack of EGFR inhibition by SNS-062 may offer safety advantages over ibrutinib, which has been associated with diarrhea and rash potentially related to its off-target effects on EGFR. Cellular inhibition of BTK was demonstrated by measuring inhibition of BTK auto-phosphorylation. SNS-062 inhibited pBTK in human whole blood with an average IC50 of 50 nM. A PK/ PD (pBTK) relationship was demonstrated in mice, with an in vivo IC50 for pBTK inhibition of 47 nM. Prolonged SNS-062-mediated in vivo inhibition of pBTK correlated with potent efficacy in a T cell-independent (type II) BTK dependent B cell mediated antibody response mouse model (ED50 11 mg/kg); efficacy was also observed in a type II collagen- induced arthritis (CIA) rat model (ED50 for summed knee and ankle histopathology 0.8 and 3.9 mg/kg). To assess the activity of SNS-062 and ibrutinib against BTK with acquired resistance mutations, inhibition of wild type (WT) and mutant C481S BTK was evaluated in direct kinase assays. SNS-062 inhibited WT and C481S BTK with similar IC50s (pBTK IC50s: WT BTK 2.9 nM, C481S BTK 4.4 nM) while ibrutinib potency was reduced 40-fold (pBTK IC50s: WT BTK 0.58 nM, C481S BTK IC50 25.7 nM). Similarly, ibrutinib showed a 100-fold loss of potency in C481S BTK expressing 293 cells (pBTK IC50s: WT BTK 0.016 μM, C481S BTK 1.7 μM) while SNS-062 activity was unaffected (pBTK IC50s: WT BTK 0.57 μM, C481S BTK 0.80 μM). SNS-062 had good oral bioavailability in rat and dog (%F ≥ 40%) and a terminal half- life of 5 to 6 hours. 28 day repeat-dose toxicology studies in rat and dog showed that SNS-062 was well tolerated with continuous drug levels and at exposures (AUC∞) much greater than those achieved for ibrutinib. These results suggest that SNS-062 plasma concentrations may be achieved that provide prolonged inhibition of both WT and mutant BTK. Conclusions: SNS-062 is a noncovalent BTK inhibitor that also inhibits ITK but not EGFR. SNS-062 activity against both WT and mutant C481S BTK was similar, while ibrutinib activity was decreased 40 to 100-fold. SNS-062 has a nonclinical PK/safety profile that will likely provide SNS-062 plasma concentrations for sustained inhibition of both WT and mutant BTK. These results support clinical development of SNS-062 for B cell malignancies, including CLL with acquired resistance to ibrutinib. Citation Format: Minke E. Binnerts, Kevin L. Otipoby, Brian T. Hopkins, Tonika Bohnert, Stig Hansen, Gene Jamieson, Pamela A. Howland, Eric H. Bjerkholt, Deborah A. Thomas, Judith A. Fox, Adam R. Craig. SNS-062 is a potent noncovalent BTK inhibitor with comparable activity against wild type BTK and BTK with an acquired resistance mutation. [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2015 Nov 5-9; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2015;14(12 Suppl 2):Abstract nr C186.

Presence of Tablet Remnants of Nevirapine Extended-Release in Stools and Its Impact on Virological Outcome in HIV-1-Infected Patients: A Prospective Cohort Study.

BackgroundNevirapine extended-release (NVP-XR) taken once daily remains an effective antiretroviral agent for patients infected with HIV-1 strains that do not harbor resistance mutations. Presence of tablet remnants of NVP XR in stools was reported in 1.19% and 3.05% of subjects in two clinical trials. However, the prevalence may have been underestimated because the information was retrospectively collected in the studies.MethodsBetween April and December 2014, we prospectively inquired about the frequency of noticing tablet remnants of NVP XR in stools in HIV-1-infected patients who switched to antiretroviral regimens containing NVP XR plus 2 nucleos(t)ide reverse-transcriptase inhibitors. Patients were invited to participate in therapeutic drug monitoring of plasma concentrations of NVP 12 or 24 hours after taking the previous dose (C12 and C24, respectively) of NVP XR using high-performance liquid chromatography. The information on clinical characteristics, including plasma HIV RNA load and CD4 lymphocyte count, at baseline and during follow-up was recorded.ResultsDuring the 9-month study period, 272 patients switched to NVP XR-based regimens and 60 (22.1%) noticed tablet remnants of NVP XR in stools, in whom 54.2% reported noticing the tablet remnants at least once weekly. Compared with patients who did not notice tablet remnants, those who noticed tablet remnants had a higher mean CD4 lymphocyte count (629 vs 495 cells/mm3, P = 0.0002) and a similar mean plasma HIV RNA load (1.57 vs 1.61 log10 copies/mL, P = 0.76) on switch. At about 12 and 24 weeks after switch, patients who noticed tablet remnants continued to have a similar mean plasma HIV RNA load (1.39 vs 1.43 log10 copies/mL, P = 0.43; and 1.30 vs 1.37 log10 copies/mL, P = 0.26, respectively), but had a lower median NVP C12 (3640 vs 4730 ng/mL, P = 0.06), and a similar median NVP C24 (3220 vs 3330 ng/ml, P = 0.95) when compared with those who did not notice tablet remnants.ConclusionsThe presence of tablet remnants of NVP XR in stools is not uncommon in HIV-1-infected Taiwanese patients receiving NVP XR-based antiretroviral regimens, which does not have an adverse impact on the virological and immunological outcomes.

HBV Carrying Drug-Resistance Mutations in Chronically Infected Treatment-Naive Patients

Nucleoside/nucleotide analogue (NA) treatment causes selection pressure for HBV strains carrying mutations conferring NA resistance. Drug-resistance mutations occur in the reverse transcriptase (RT) region of the HBV polymerase gene and spontaneously arise during viral replication. These mutations can also alter the hepatitis B surface (HBs) protein and in some cases reduce binding to HBs antibodies. The spread of NA-resistant HBV may impact the efficacy of antiviral treatment and hepatitis B immunization programmes. In this study, we used direct sequencing to assess the occurrence of HBV carrying known mutations that confer NA resistance in the largest cohort of treatment-naive patients with chronic hepatitis B (CHB) to date. HBV DNA samples isolated from 702 patients were sequenced and the RT region subjected to mutational analysis. There was high genetic variability among the HBV samples analysed: A1 (63.7%), D3 (14.5%), A2 (3.3%), A3 (0.1%), B1 (0.1%), B2 (0.1%), C2 (0.9%), D1 (0.9%), D2 (4.6%), D4 (5.1%), D unclassified subgenotype (0.7%), E (0.6%), F2a (4.6%), F4 (0.4%) and G (0.4%). HBV strains harbouring mutations conferring NA resistance alone or combined with compensatory mutations were identified in 1.6% (11/702) of the patients. HBV strains harbouring resistance mutations can comprise the major population of HBV quasispecies in treatment-naive patients. In Brazil, there is a very low frequency of untreated patients who are infected with these strains. These findings suggest that the spread and natural selection of drug-resistant HBV is an uncommon event and/or most of these strains remain unstable in the absence of NA selective pressure.

Drug Resistance Pathways and Impact of Protease Mutation L10I/V in HIV-1 Non-B Subtypes

Background: Molecular pathways to drug resistance have yet to be fully characterized in HIV-1 non-B subtypes. Furthermore, polymorphisms such as protease L10I/V are ubiquitous in non-B subtypes, but their biological implications are still unknown. We evaluated resistance pathways emerging at treatment failure in a cohort of HIV infected individuals in Mali, and characterized in vitro the role of L10I/V. Methods: Genotypic resistance testing was performed on plasma obtained from 132 HIV-infected individuals from Mali before and after 9 months of treatment using population sequencing. CRF02_AG chimeric viruses containing 10I/V mutants CRF02_AG were constructed using site directed mutagenesis and susceptibility to protease inhibitors (PI) as well as replicative capacity were determined in a PBMC culture assay. Results: At treatment initiation, 11/132 (8.3%; 95% CI 3.6-13.0%) patients harboured resistance mutations to NRTI (D67N, T69N, L210W, K219E and T215A) or NNRTI (K103N, V108I and V179E). Among these 11 patients, 5 with NNRTI mutations were in virological failure after 9 months of treatment. Six others with one Thymidine Analog Mutations (TAM) did not show complete resistance. Overall, 18/132 (14.0%; 95% CI 8.1-19.9%) patients failed at 9 months and resistance mutations to NRTI or NNRTI could be identified in 8 (6.10%; 95% CI 2.0-10.2%). NRTI mutation M184V was the most commonly observed, followed by NNRTI mutations Y181C and K103N. Polymorphisms in protease such as L10I/V were observed frequently. Their role was evaluated in vitro. CRF02_AGwt_10L showed a slight increase in IC50 for darunavir, lopinavir and nelfinavir compared to subtype BHXB2_10L with 1.2, 1.3 and 1.5 Fold-Changes (FC) respectively. Mutant’s viruses CRF02_AGL10I and CRF02_AGL10V showed a slight increase in IC50 for indinavir with 1.30 and 1.20 FC and a slight decrease in IC50 for lopinavir with 0.78 FC and 0.75 FC respectively compared to CRF02_AGwt_10L. We did not observe any difference in replicative capacity between CRF02_AGwt_10L and HXB2. However, compared to CRF02_AGwt_10L, mutants, viruses CRF02_AGL10I, and CRF02_AGL10V showed a significant reduction in replication capacity by 10% (p<0.03) and 12% (p<0.02) respectively. Conclusion: Primary resistance to NRTI and NNRTI impacts response to treatment. The presence of a single TAM mutation may have limited impact on first line treatment in CRF02_AG. A common polymorphism in non-B subtypes, L10V, may affect susceptibility of certain PIs. In the context of large-scale use of antiretroviral, monitoring the emergence of resistance in non-B subtypes is important to preserve treatment options.

Resistance to Antiretroviral Drugs in Treated and Drug-Naive Patients in the Democratic Republic of Congo

We studied virological outcome and drug resistance in patients on antiretroviral therapy (ART) in health care centers in the Democratic Republic of Congo and looked for the presence of drug resistance in antiretroviral-naive patients attending the same clinics. In 2008, we conducted a cross-sectional survey among patients on ART for ≥ 12 months in 4 major cities [Kinshasa (n = 289), Matadi (n = 198), Lubumbashi (n = 77), and Mbuji-Mayi (n = 103)]. Genotypic drug resistance tests were done with an in-house assay on samples with viral load >1000 copies/mL. ART-naive patients (n = 283) were also consecutively enrolled in the same clinics. Of the 667 patients on ART, >98% received Lamivudine + Stavudine/azidothymidine + Nevirapine/Efavirenz as first-line regimen and 74.4% were women. Median time on ART was 25 months [interquartile ratio (IQR), 19-32] in Kinshasa, 26 months (IQR, 19-32) in Matadi, 27 months (IQR, 19-44) in Lubumbashi, and 19 months (IQR, 16-24) in Mbuji-Mayi. A total of 97 patients (14.6%) had viral load >1000 copies/mL, and among the 93 successfully sequenced samples, 78 (83.9%) were resistant to at least 1 drug of their ART regimen: 68 harbored resistance mutations to nucleoside reverse transcriptase inhibitor (NRTI) and nonnucleoside reverse transcriptase inhibitor (NNRTI), 2 to NRTI only, 7 to NNRTI only, and 1 to NRTI + NNRTI + protease inhibitor. The majority of patients, 70/78 (89.7%), were resistant to at least 2 of the 3 drugs from their treatment. The use of next-generation NNRTI, etravirine was already compromised for 19.2% (15/78) of the patients and 7 patients had the K65R mutation compromising the use of tenofovir in second-line regimens. The proportion of antiretroviral-resistant patients increased over time from 8.4% to 18.6% for patients on ART for 12-23 months or >35 months (P = 0.013), respectively. Virological failure and rates of drug resistance were significantly higher among men than women, 19.9% versus 8.8%, respectively (P = 0.0001). Among the 253 recently diagnosed patients, 20 (7.9%) harbored resistance mutations. The accumulation of drug resistance mutations with time on ART needs further attention, and surveillance should be reinforced in ART programs in sub-Saharan Africa.

Echinocandin susceptibility testing of Candida spp. Using EUCAST EDef 7.1 and CLSI M27-A3 standard procedures: analysis of the influence of bovine serum albumin supplementation, storage time, and drug lots.

The MICs of echinocandins against Candida isolates with fks mutations are higher than those for wild-type (WT) isolates. However, the MIC ranges for susceptible and mutant populations overlap or are poorly separated. It was recently reported that a greater separation could be achieved in the presence of serum. To more fully explore this possibility, we compared the performances of the reference microdilution methods by using standard and bovine serum albumin (BSA)-supplemented growth medium. Anidulafungin, caspofungin, and micafungin MICs were determined according to EUCAST and CLSI methods and with 50% BSA in the medium for 93 clinical isolates, including Candida albicans (20/10 [number of isolates/number of mutants]), C. glabrata (19/10), C. dubliniensis (2/1), C. krusei (16/3), C. parapsilosis (19), and C. tropicalis (19/4) isolates. Stability of the plates was tested after storage at -80°C for 2 and 6 months, and the performance of two different lots of caspofungin was investigated. The addition of BSA to the medium resulted in higher MICs (1 to 9 2-fold dilution steps) for all isolates and compounds. The increases were greatest for anidulafungin and micafungin and, among WT isolates, for C. parapsilosis. The number of very major errors (VMEs) was reduced (24% [20/84 isolates] versus ≤ 7% [6/84 isolates]) using BSA-supplemented EUCAST medium but not using BSA-supplemented CLSI medium (6% versus 9%). MIC results were unchanged after 6 months of storage of test plates. The two lots of caspofungin yielded identical results. Addition of BSA to the EUCAST medium increases the ability to differentiate between WT isolates and isolates harboring resistance mutations.

Use of Epidemiological Cutoff Values To Examine 9-Year Trends in Susceptibility of Aspergillus Species to the Triazoles

In the absence of clinical breakpoints, epidemiological cutoff values (ECVs) have been established to distinguish wild-type (WT) isolates of Aspergillus spp. from those that may harbor resistance mutations. Recently, the CLSI has developed ECVs for triazoles (itraconazole, posaconazole, and voriconazole) and common Aspergillus species. We applied the triazole ECVs to 1,789 Aspergillus isolates collected from 63 centers worldwide from 2001 to 2009 to determine the frequency of non-WT strains of each species. Temporal trends were evaluated for Aspergillus fumigatus and Aspergillus flavus over the 9-year period for each drug. The collection included 1,312 isolates of A. fumigatus, 235 of A. flavus, 162 of Aspergillus niger, 64 of Aspergillus terreus, and 15 of Aspergillus versicolor. Using the ECVs, the percentages of non-WT isolates for itraconazole, posaconazole, and voriconazole, respectively, were as follows: A. fumigatus (2.0%, 3.5%, and 1.4%), A. flavus (0.8%, 5.1%, and 1.7%), A. niger (17.3%, 3.7%, and 0.6%), A. terreus (0.0%, 1.6%, and 3.2%), and A. versicolor (6.3%, 0.0%, and 0.0%). Among 49 Aspergillus isolates for which itraconazole MICs were >2 μg/ml, the posaconazole and voriconazole MICs were greater than the ECVs for 14 and 12 isolates, respectively. The percentages of isolates for which MICs were greater than the ECVs ranged from 1.1 to 5.7% for posaconazole, 0.0 to 1.6% for voriconazole, and 0.7 to 4.0% for itraconazole. There was no consistent trend toward decreased susceptibility for any triazole and A. fumigatus or A. flavus over time. Decreased susceptibility among Aspergillus spp. was observed for each of the extended-spectrum triazoles and varied by species over the 9-year study period.