Spending For Orphan Indications Among Top-Selling Orphan Drugs Approved To Treat Common Diseases.

The Orphan Drug Act of 1983 provides benefits to promote the development of treatments for rare diseases that have limited sales potential. Policy makers have questioned whether this purpose is furthered in the case of "partial orphan drugs" approved to treat both rare and common diseases, as many of these drugs are top sellers. In this study we used national commercial claims data to estimate the proportion of spending in the US on fifteen top-selling partial orphan drugs that was assigned to orphan indications in 2018. Of this spending, 21.4 percent was assigned to orphan indications, 70.7 percent to nonorphan indications, and 7.9 percent to neither orphan nor nonorphan indications (for example, off-label use). These findings support growing concerns regarding the costs of granting orphan drug benefits to the sponsors of top-selling partial orphan drugs.

TGFBR2 mediated phosphorylation of BUB1 at Ser-318 is required for transforming growth factor-ß signaling.

BUB1 (budding uninhibited by benzimidazoles-1) is required for efficient TGF-ß signaling, through its role in stabilizing the TGFBR1 and TGFBR2 complex. Here we demonstrate that TGFBR2 phosphorylates BUB1 at Serine-318, which is conserved in primates. S318 phosphorylation abrogates the interaction of BUB1 with TGFBR1 and SMAD2. Using BUB1 truncation domains (1-241, 241-482 and 482-723), we demonstrate that multiple contact points exist between BUB1 and TGF-ß signaling components and that these interactions are independent of the BUB1 tetratricopeptide repeat (TPR) domain. Moreover, substitutions in the middle domain (241-482) encompassing S318 reveals that efficient interaction with TGFBR2 occurs only in its dephosphorylated state (241-482 S318A). In contrast, the phospho-mimicking mutant (241-482 S318D) exhibits efficient binding with SMAD2 and its over-expression results in a decrease in TGFBR1-TGFBR2 and TGFBR1-SMAD2 interactions. These findings suggest that TGFBR2 mediated BUB1 phosphorylation at S318 may serve as a switch for the dissociation of the SMAD2-TGFBR complex, and therefore represents a regulatory event for TGF-ß signaling. Finally, we provide evidence that the BUB1-TGF-ß signaling axis may mediate aggressive phenotypes in a variety of cancers.

Pediatric Orphan Drug Indications: 2010-2018.

BACKGROUND: Orphan drug development is crucial for children, who are disproportionately affected by rare diseases. Data are lacking on the number, nature, and benefit of recently approved pediatric orphan indications. METHODS: We classified the 402 orphan indications the US Food and Drug Administration approved between 2010 and 2018 as "pediatric" if they were approved for children only or targeted pediatric diseases. We determined the number of unique diseases targeted by pediatric orphan indications and calculated the proportion that were for (1) novel drugs, (2) non-novel drugs approved to treat ≥1 common disease, and (3) non-novel drugs approved only to treat rare diseases. Among pediatric orphan indications eligible for US Food and Drug Administration breakthrough designation (granted to drugs potentially representing major therapeutic advances), we calculated the proportion receiving this designation. RESULTS: Of the 402 orphan indications, 136 (33.8%) were pediatric. These 136 indications targeted 87 unique diseases; 21 diseases were targeted by ≥1 indication. Of the 136 pediatric orphan indications, 60 (44.1%) were for novel drugs, 45 (33.1%) were for non-novel drugs approved to treat ≥1 common disease, and 31 (22.8%) were for non-novel drugs approved only to treat rare diseases. Among 97 indications eligible for breakthrough designation, 20 (20.6%) received this designation. CONCLUSIONS: Recent orphan drug development has increased the availability of treatments for pediatric rare diseases. Most pediatric orphan indications expanded use of existing drugs, and many targeted the same disease. Some indications may represent breakthroughs, but substantial unmet need for treatments remains for most pediatric rare diseases.

A novel reporter for real-time, quantitative imaging of AKT-directed K63-poly-ubiquitination in living cells.

Post-translational K63-linked poly-ubiquitination of AKT is required for its membrane recruitment and phosphorylation dependent activation in response to growth-factor stimulation. Current assays for target specific poly-ubiquitination involve cumbersome enzymatic preparations and semi-quantitative readouts. We have engineered a reporter that can quantitatively and in a target specific manner report on AKT-directed K63-polyubiquitination (K63UbR) in live cells. The reporter constitutes the AKT-derived poly-ubiquitination substrate peptide, a K63 poly-ubiquitin binding domain (UBD) as well as the split luciferase protein complementation domains. In cells, wherein signaling events upstream of AKT are activated (e.g. either EGFR or IGFR), poly-ubiquitination of the reporter leads to a stearic constraint that prevents luciferase complementation. However, upon inhibition of growth factor receptor signaling, loss of AKT poly-ubiquitination results in a decrease in interaction between the target peptide and the UBD, allowing for reconstitution of the split luciferase domains and therefore increased bioluminescence in a quantitative and dynamic manner. The K63UbR was confirmed to be suitable for high throughput screen (HTS), thus providing an excellent tool for small molecule or siRNA based HTS to discover new inhibitors or identify novel regulators of this key signaling node. Furthermore, the K63UbR platform could be adapted for non-invasive monitoring of additional target specific K63-polyubiquitination events in live cells.

Prevalence of Bordetella pertussis and Bordetella parapertussis in infants presenting to the emergency department with bronchiolitis.

BACKGROUND: The clinical presentation of Bordetella pertussis can overlap with that of respiratory syncytial virus (RSV), and coinfection does occur, but management differs. HYPOTHESIS: The prevalence of B. pertussis is < 2% among Emergency Department (ED) patients with bronchiolitis. Our secondary hypothesis was that the prevalence of Bordetella parapertussis is also < 2% among these patients. METHODS: Nasal washings were obtained from children up to 18 months of age (inclusive) who presented to a county hospital ED with a clinical diagnosis of bronchiolitis. These washings were frozen to -70°C before testing for B. pertussis and B. parapertussis using species-specific real-time polymerase chain reaction (PCR) assays. The assays were optimized to target conserved regions within a complement gene and the CarB gene, respectively. A Bordetella spp. genus-specific real-time PCR assay was designed to detect the Bhur gene of B. pertussis, B. parapertussis, and B. bronchiseptica. RSV antigen detection was also performed. RESULTS: There were 227 patients enrolled. After exclusions, 204 remained in the analysis. RSV antigen testing was positive in 109/186 (59%) of the patients in whom it was performed. All samples were tested for B. pertussis. B. parapertussis testing could not be completed on 23 samples. No cases (0/204; 95% confidence interval [CI] 0-1.8%) tested positive for B. pertussis or B. parapertussis (0/181; 95% CI 0-2%). CONCLUSION: The prevalence of B. pertussis in children presenting to the ED with bronchiolitis was < 2%.

Prevalence of Bordetella pertussis and Bordetella parapertussis in Samples Submitted for RSV Screening.

BACKGROUND: The clinical presentation of Bordetella pertussis can overlap with that of respiratory syncytial virus (RSV); however, management differs. HYPOTHESIS: First, the prevalence of B. pertussis is less than 2% among patients screened for RSV, and second the prevalence of B. parapertussis is also less than 2% among these patients. METHODS: Nasal washings submitted to a clinical laboratory for RSV screening were tested for B. pertussis and B. parapertussis, using species-specific real-time polymerase chain reaction (PCR) assays. These were optimized to target conserved regions within a complement gene and the CarB gene, respectively. A Bordetella spp. genus-specific real-time PCR assay was designed to detect the Bhur gene of B. pertussis, B. parapertussis, and B. bronchiseptica. RSV A and B subtypes were tested by reverse transcription-PCR. RESULTS: Four hundred and eighty-nine clinical samples were tested. There was insufficient material to complete testing for one B. pertussis, 10 RSV subtype A, and four RSV subtype B assays. Bordetella pertussis was detected in 3/488 (0.6%) (95% CI 0.1% to 1.8%), while B. parapertussis was detected in 5/489 (1.0%) (95% CI 0.3% to 2.4%). Dual infection of B. pertussis with RSV and of B. parapertussis with RSV occurred in two and in three cases respectively. RSV was detected by PCR in 127 (26.5%). CONCLUSION: The prevalence of B. pertussis in nasal washings submitted for RSV screening was less than 2%. The prevalence of parapertussis may be higher than 2%. RSV with B. pertussis and RSV with B. parapertussis coinfection do occur.

Erythromycin and clindamycin resistance in group B streptococcal clinical isolates.

Erythromycin (EM) and clindamycin (CM) susceptibility testing was performed on 222 clinical isolates of group B Streptococcus. A multiplex PCR assay was used to detect the ermB, ermTR, and mefA/E antibiotic resistance genes. These results were compared to the phenotypes as determined by the standard EM/CM double disk diffusion assay.