Monday, February 8, 2021

FDA Approves Gemtesa (vibegron) Tablets for the Treatment of Patients with Overactive Bladder (OAB)

Urovant Sciences (Nasdaq: UROV) announced    the U.S. Food and Drug Administration (FDA)  approval of  the New Drug Application (NDA) for once-daily 75 mg Gemtesa (vibegron), a beta-3 adrenergic receptor (β3) agonist, for the treatment of overactive bladder (OAB) with symptoms of urge urinary incontinence (UUI), urgency, and urinary frequency in adults. This approval marks the first new oral branded OAB medication approved by the FDA since 2012, and it is the first product approval for Urovant Sciences.




“The FDA’s approval of Gemtesa is an important milestone for the tens of millions of patients living with overactive bladder and for Urovant, as it is our first drug approval. We look forward to launching Gemtesa in the coming months and believe that it will provide a compelling alternative for the many patients suffering from the burden of an overactive bladder. We also remain committed to bringing more new therapies to market that address unmet medical needs of patients suffering from urologic diseases,” said Jim Robinson, president and chief executive officer of Urovant Sciences.

“The clinical data for once-daily 75 mg Gemtesa demonstrated clear efficacy on the key symptoms of OAB by reducing urinary frequency, urge urinary incontinence, and urgency. In addition, data specifically showing reduction in urgency episodes are included in the Prescribing Information of Gemtesa, which is unique among currently-available OAB treatments. Urgency episode reduction data are particularly relevant for OAB patients and their health care providers, as they show Gemtesa’s direct impact on a hallmark symptom of the condition,” said Cornelia Haag-Molkenteller, M.D., Ph.D., chief medical officer of Urovant Sciences. “By successfully treating clinical symptoms, Gemtesa may allow patients to overcome the devastating impact that OAB can have on their daily lives.”

Gemtesa is an oral, once-daily tablet containing 75 mg of vibegron, a small-molecule β3 agonist which helps relax the detrusor bladder muscle so that the bladder can hold more urine, thereby reducing symptoms of OAB.

“Gemtesa is the first beta 3-agonist available as a once-daily pill which does not require dose titration,” said David Staskin, MD, clinical trial investigator and a leading urologist with St. Elizabeth’s Medical Center in Boston. “Notably, Gemtesa did not have any increase in the adverse event of hypertension compared to placebo in the key EMPOWUR study and has no interactions with medications metabolized by CYP2D6, which is important since many common medications are metabolized by CYP2D6.”

The FDA’s approval is based on results from an extensive development program involving more than 4,000 OAB patients, including the 12-week double blind, placebo-controlled Phase 3 EMPOWUR study with a dose of 75 mg and the double blind EMPOWUR long term extension study.1 These data show that treatment with Gemtesa resulted in statistically significant reductions in daily UUI, micturitions, and urgency episodes and an increase in the volume voided when compared to placebo in EMPOWUR.

The most common adverse reactions of Gemtesa from the double blind, placebo-controlled EMPOWUR study in ≥2% of patients were headache, nasopharyngitis, diarrhea, nausea, and upper respiratory tract infection. Gemtesa demonstrated the same rates for the adverse events of hypertension and increased blood pressure as placebo.

https://en.wikipedia.org/wiki/Vibegron

Saturday, February 6, 2021

FDA Approves Orladeyo (berotralstat) as the First Oral, Once-Daily Therapy to Prevent Attacks in Hereditary Angioedema Patients


BioCryst Pharmaceuticals, Inc. (Nasdaq: BCRX)  announced the U.S. Food and Drug Administration (FDA) approval of  oral, once-daily Orladeyo (berotralstat) for prophylaxis to prevent attacks of hereditary angioedema (HAE) in adults and pediatric patients 12 years and older.




“Orladeyo offers people with HAE and their physicians the first orally administered non-steroidal option for preventing HAE attacks and represents an important and welcome step in making more treatment options available to physicians and patients,” said Anthony J. Castaldo, president and chief executive officer of the US Hereditary Angioedema Association (HAEA). 

In the pivotal Phase 3 APeX-2 trial, Orladeyo significantly reduced attacks at 24 weeks, and this reduction was sustained through 48 weeks. HAE patients who completed 48 weeks of treatment (150 mg) saw reductions in their HAE attack rates, from a mean of 2.9 attacks per month at baseline to a mean of 1.0 attacks per month after 48 weeks of therapy. In the long-term open label APeX-S trial, patients completing 48 weeks of therapy (150 mg) had a mean attack rate of 0.8 attacks per month.

Orladeyo was safe and well tolerated in both trials. The most frequently reported adverse reactions in patients receiving Orladeyo compared with placebo were gastrointestinal reactions. These reactions generally occurred early after initiation of treatment with Orladeyo, became less frequent with time and typically self-resolved.

“Patients and physicians acknowledge that HAE treatments can add a burden to patients’ lives.  As an oral, once-daily option, Orladeyo can provide significant attack reduction and lessen the burden associated with injections and infusions,” said Marc Riedl, M.D., professor of medicine and clinical director, U.S. Hereditary Angioedema Association Center at the University of California, San Diego, and an investigator in the APeX-2 trial.

“With this new treatment option, physicians and patients can continue to have collaborative discussions to choose the treatment that meets each patient’s needs, life circumstances and preferences,” Riedl added.

HAE patients note a significant treatment burden associated with existing prophylactic therapy. In addition to reducing HAE attack rate, data from APeX-2 show that patients reported meaningful improvements in both quality of life and overall patient-reported satisfaction, and significant reductions in their monthly use of standard of care on-demand medicine, while taking oral, once-daily Orladeyo (150 mg).2,3

“The FDA approval of Orladeyo fulfills a promise BioCryst made to HAE patients that we were committed to helping them achieve the dream of an oral, once-daily medicine to prevent and reduce the burden of their attacks,” said Jon Stonehouse, president and chief executive officer of BioCryst.

“Thank you to the HAE patients who participated in our clinical trials, to the investigators around the world who conducted these trials, to the HAEA for their patient advocacy and to our employees who never forgot that patients were waiting. We will stay focused on enabling access and providing personalized support to HAE patients and physicians,” Stonehouse added.

https://en.wikipedia.org/wiki/Berotralsta

Friday, February 5, 2021

Oral Azacitidine Benefits Some Older Adults With AML

In continuation of my update on azacitidine 

For older patients with acute myeloid leukemia (AML) who are in remission after chemotherapy, those receiving maintenance therapy with the oral formulation of azacitidine (CC-486) versus placebo had longer overall and relapse-free survival, according to a study published in the Dec. 24 issue of the New England Journal of Medicine.



Andrew H. Wei, M.B., B.S., Ph.D., from Monash University in Melbourne, Australia, and colleagues conducted a phase 3 randomized trial of CC-486 as maintenance therapy for patients with AML in first remission after intensive chemotherapy. A total of 472 patients aged 55 years and older who were in complete remission and were not candidates for hematopoietic stem cell transplantation were randomly assigned to receive either CC-486 or placebo once daily for 14 days per 28-day cycle (238 and 234 patients, respectively).

The researchers observed significantly longer median overall survival from the time of randomization with CC-486 versus placebo (24.7 versus 14.8 months). The corresponding median relapse-free survival was also significantly longer (10.2 versus 4.8 months). In most subgroups defined according to baseline characteristics, similar benefits of CC-486 were seen with respect to overall and relapse-free survival. During CC-486 treatment, overall health-related quality of life was preserved.

"Despite demonstrable survival advantages with CC-486 maintenance therapy, the risk of eventual relapse and death from AML remains problematic," the authors write. "Whether CC-486 may benefit patients with AML when it is used in other clinical contexts requires further investigation."

The study was funded by Celgene (a wholly owned subsidiary of Bristol Myers Squibb), which manufactures azacitidine.

https://en.wikipedia.org/wiki/Azacitidine


Oral Azacitidine Benefits Some Older Adults With AML 

Wednesday, February 3, 2021

Drug discovery study identifies promising new compound to open constricted airways

Despite the progress made in managing asthma and chronic obstructive pulmonary disease (COPD), poorly controlled symptoms for both respiratory diseases can lead to severe shortness of breath, hospitalizations or even death.




"Only about 50 percent of asthmatics, and an even lower percentage of people with COPD, achieve adequate control of lung inflammation and airway constriction with currently available medications," said Stephen Liggett, MD, vice dean for research at the University of South Florida Morsani College of Medicine and a USF Health professor of medicine, molecular pharmacology and physiology, and biomedical engineering. "So, we're clearly missing something from our drug armamentarium to help all these patients."

Dr. Liggett's laboratory has discovered several subtypes of bitter taste receptors (TAS2Rs) -- G protein-coupled receptors expressed on human smooth airway muscle cells deep inside the lungs. In asthma and COPD, tightening of smooth muscles surrounding bronchial tubes narrows the airway and reduces air flow, and Dr Liggett's lab found that these taste receptors open the airway when activated. They are now looking for new drugs to treat asthma and other obstructive lung diseases by targeting smooth muscle TAS2Rs to open constricted airways.

A promising bronchodilator agonist rises to the top

In a preclinical study published Nov. 5 in ACS Pharmacology and Translational Science, Dr. Liggett and colleagues identified and characterized 18 new compounds (agonists) that activate bitter taste receptor subtype TAS2R5 to promote relaxation (dilation) of human airway smooth muscle cells. The cross-disciplinary team found 1,10 phenanthroline-5,6-dione (T5-8 for short) to be the most promising of several lead compounds (drug candidates). T5-8 was 1,000 times more potent than some of the other compounds tested, and it demonstrated marked effectiveness in human airway smooth muscle cells grown in the laboratory.

For this drug discovery project, Dr. Liggett's laboratory collaborated with Jim Leahy, PhD, professor and chair of chemistry at the USF College of Arts and Sciences, and Steven An, PhD, professor of pharmacology at the Rutgers Robert Wood Johnson Medical School.

In an extensive screening conducted previously, another research group identified only one compound that would bind to and specifically activate the TASR5 bitter taste receptor -- although apparently with limited effectiveness. Using this particular agonist (called T5-1 in the paper) as a starting point, the team relied on their collective disciplines to devise new activators, aiming for a much better drug profile for administration to humans.

"The two key questions we asked were: 'Is it possible to find a more potent agonist that activates this receptor?' and 'Is it feasible to deliver by inhalation given the potencies that we find?'" said Dr. Liggett, the paper's senior author. "T5-8 was the bronchodilator agonist that worked best. There were a few others that were very good as well, so we now have multiple potential new drugs to carry out the next steps."

The researchers developed screening techniques to determine just how potent and effective the 18 compounds were. A biochemical test assessed how well these new agonists activated TAS2R5 in airway smooth muscle cells isolated from non-asthmatic human donor lungs. Then, the researchers validated the effect on airway smooth muscle relaxation using a technique known as magnetic twisting cytometry, pioneered by Dr An.

"Team science" solves a structural problem

"The biggest challenge we faced was not having a 3-D crystal structure of TAS2R5, so we had no idea exactly how agonist T5-1 fit into this mysterious bitter taste receptor," Dr. Liggett said. "By merging our strength in receptors, pharmacology, physiology, and drug development, our team was able to make the breakthrough."

T5-8 was superior to all the other bronchodilator agonists screened, exhibiting a maximum relaxation response (50%) substantially greater than that of albuterol (27%). Albuterol belongs to the only class of direct bronchodilators (beta-2 agonists) available to treat wheezing and shortness of breath caused by asthma and COPD. However, this drug or its derivatives, often prescribed as a rescue inhaler, does not work for all patients and overuse has been linked to increased hospitalizations, Dr. Liggett said. "Having two distinct classes of drugs that work in different ways to open the airways would be an important step to help patients optimally control their symptoms."

The ACS Pharmacology paper highlights the importance of translational research in bridging the gap between laboratory discoveries and new therapies to improve human health, he added. "This study yielded a drug discovery that successfully meets most of the criteria needed to advance the compound toward its first trial as a potential first-in-class bronchodilator targeting airway receptor TAS2R5."


https://pubs.acs.org/doi/10.1021/acsptsci.0c00127
Drug discovery study identifies promising new compound to open constricted airways  

Monday, February 1, 2021

New drug form may help treat osteoporosis, calcium-related disorders


A novel form of a drug used to treat osteoporosis that comes with the potential for fewer side effects may provide a new option for patients.

The work is supported by the National Institutes of Health and is published in Biophysical Journal.

Purdue University innovators developed a stabilized form of human calcitonin, which is a peptide drug already used for people with osteoporosis. Researchers at Purdue created a prodrug form of the peptide hormone to increase its effectiveness as an osteoporosis treatment.

In humans, calcitonin is the hormone responsible for normal calcium homeostasis. When prescribed to osteoporosis patients, calcitonin inhibits bone resorption, resulting in increased bone mass.

Unfortunately, human calcitonin undergoes fibrillation in aqueous solution, leading to reduced efficacy when used as a therapeutic. As a substitute, osteoporosis patients are prescribed salmon calcitonin. It does not fibrillate as rapidly but suffers from low potency and the potential for several adverse side effects.

"The technology can help make these calcitonin drugs safer and more effective," said Elizabeth Topp, a Purdue professor of physical and industrial pharmacy. "Our approach will increase the therapeutic potential of human calcitonin, promising a more effective option to replace salmon calcitonin for osteoporosis and related disorders."

To decrease the fibrillation propensity and increase the therapeutic benefit of human calcitonin, Purdue researchers phosphorylated specific amino acid residues.

"Many promising new peptide drugs tend to form fibrils," Topp said. "This technology provides a way to stabilize them in a reversible way so that the stabilizing modification comes off when the drug is given to the patient."



Saturday, January 30, 2021

Sitagliptin Promising Addition for Preventing Acute GVHD





In continuation of my updates on sitagliptin 

For patients undergoing myeloablative allogeneic hematopoietic stem cell transplantation, sitagliptin combined with tacrolimus and sirolimus results in a low incidence of grade II to IV acute graft-versus-host disease (GVHD) by day 100, according to a study published in the Jan. 7 issue of the New England Journal of Medicine.

Sherif S. Farag, M.D., Ph.D., from the Indiana University School of Medicine in Indianapolis, and colleagues conducted a phase 2 clinical trial to examine the reduction in incidence of grade II to IV acute GVHD from 30 percent to no more than 15 percent by day 100 with sitagliptin plus tacrolimus and sirolimus. Thirty-six patients received myeloablative conditioning followed by mobilized peripheral-blood stem cell transplants from matched related or unrelated donors.

The researchers found that by day 100, acute GVHD occurred in two of 36 patients. The incidence of grade II to IV GVHD and of grade III or IV GVHD was 5 and 3 percent, respectively. At one year, nonrelapse mortality was zero. The one-year cumulative incidence of relapse was 26 percent, and for chronic GVHD, it was 37 percent. At one year, GVHD-free, relapse-free survival was 46 percent. Toxic effects were similar to those seen in patients undergoing allogeneic stem cell transplantation.

"Inhibition of dipeptidyl peptidase 4 should be further investigated in randomized trials that compare sitagliptin with current standard GVHD prophylaxis regimens," the authors write.

https://en.wikipedia.org/wiki/Sitagliptin

Friday, January 29, 2021

Statins May Protect Heart From Chemo for Early Breast Cancer



In continuation of my update on statins 

For women with early breast cancer treated with anthracyclines, statin exposure is associated with a lower risk for hospital presentation for heart failure, according to a study published online Jan. 6 in the Journal of the American Heart Association.

Husam Abdel-Qadir, M.D., Ph.D., from the Women's College Hospital in Toronto, and colleagues conducted a retrospective cohort study involving women aged 66 years and older without prior heart failure who received anthracyclines or trastuzumab for newly diagnosed early breast cancer. Using propensity scores, statin-exposed and unexposed women were matched in a 1:1 ratio. Data were included for 666 statin-discordant pairs of anthracycline-treated women and 390 pairs of trastuzumab-treated women.

The researchers found that the five-year cumulative incidence of heart failure hospital presentations after anthracyclines was 1.2 percent (95 percent confidence interval [CI], 0.5 to 2.6 percent) and 2.9 percent (95 percent CI, 1.7 to 4.6 percent) in statin-exposed and unexposed women, respectively (P = 0.01). In the anthracycline cohort, the cause-specific hazard ratio associated with statins was 0.45 (95 percent CI, 0.24 to 0.85; P = 0.01). The five-year cumulative incidence of heart failure hospital presentations after trastuzumab was 2.7 percent (95 percent CI, 1.2 to 5.2 percent) and 3.7 percent (95 percent CI, 2.0 to 6.2 percent) in statin-exposed and unexposed women, respectively (P = 0.09), with a cause-specific hazard ratio associated with statins of 0.46 (95 percent CI, 0.20 to 1.07; P = 0.07).

"This study does not conclusively prove statins are protective," Abdel-Qadir said in a statement. "However, this study builds on the body of evidence suggesting that they may have benefits."

Thursday, January 28, 2021

Alzheimer's disease drug may help fight against antibiotic resistance

In continuation of my update on PBT2





Researchers from The University of Queensland, The University of Melbourne and Griffith University have discovered that the drug called PBT2 is effective at disrupting and killing a class of bacteria -- known as Gram-negative bacteria -- that cause infections such as pneumonia, bloodstream infections and meningitis.

UQ's Professor Mark Walker said the metal transport drug may offer a last line of defence against some of the world's most difficult to treat superbugs.


"The emergence of antibiotic-resistant superbugs is an urgent threat to human health, undermining the capacity to treat patients with serious infection," Professor Walker said.

"Alternative strategies to treat such multi-drug resistant bacteria are urgently needed.

"Led by UQ's Dr David De Oliveira, our team hypothesised that, by using this experimental Alzheimer's treatment to disrupt the metals inside these bacteria, we would also disrupt their mechanisms of antibiotic resistance.

"This was shown to be the case, with the Alzheimer's drug -- combined with the antibiotic polymyxin -- successfully tackling antibiotic-resistant superbugs like Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa and Escherichia coli."

Griffith University's Professor Mark von Itzstein AO from the Institute for Glycomics said the new treatment was effective, and offered a range of other benefits.

"Based on its use as an experimental Alzheimer's treatment, there's been a significant amount of solid science done on this drug already," Professor von Itzstein said.

"We know, for example, that clinical studies of PBT2 show that it is safe for use in humans.

"And, given that we've been able to combine it with the antibiotic polymyxin to treat polymyxin-resistant bacteria, we may be able to make other now-ineffective antibiotics become effective again for treating infectious diseases.

"This could resharpen, so to speak, some of the weapons we thought we'd lost in our fight against antibiotic-resistant bacteria."

The University of Melbourne's Associate Professor Christopher McDevitt, from the Peter Doherty Institute for Infection and Immunity (Doherty Institute), said the drug had already proved effective beyond the petri dish.

"Animal studies show that the combination of polymyxin and PBT2 kills polymyxin-resistant bacteria, completely clearing any infection," Associate Professor McDevitt said.

"Hopefully in the not-too-distant future people will be able to access this type of treatment in the clinic.

"New techniques are critical in addressing this building threat to human health, and this treatment is an additional weapon in our arsenal to fight the accelerating threat of antibiotic resistance.

"If these new solutions aren't developed, it's estimated that by 2050, antimicrobial-resistant bacteria will account for more than 10 million deaths per year.

"This new treatment could help turn the tide on antibiotic resistance."


https://en.wikipedia.org/wiki/PBT2

Wednesday, January 27, 2021

Lorlatinib Superior to Crizotinib for ALK-Positive NSCLC

In continuation of my update on lorlatinib and  crizotinib


                                                                 lorlatinib




                                                               crizotinib

Among patients with previously untreated advanced ALK-positive non-small cell lung cancer (NSCLC), progression-free survival is significantly longer for those who receive first-line therapy with lorlatinib versus crizotinib, according to a study published in the Nov. 19 issue of the New England Journal of Medicine.

Alice T. Shaw, M.D., Ph.D., from the Massachusetts General Hospital Cancer Center in Boston, and colleagues conducted a global, randomized, phase 3 trial comparing lorlatinib with crizotinib in 296 patients with advanced ALK-positive NSCLC who were previously untreated for metastatic disease.

The researchers found that 78 and 39 percent of patients in the lorlatinib group and crizotinib group, respectively, were alive without disease progression at 12 months (hazard ratio for disease progression or death, 0.28). An objective response occurred in 76 and 58 percent of those in the lorlatinib and crizotinib groups, respectively. Among those with measurable brain metastases, an intracranial response occurred in 82 and 23 percent, respectively; an intracranial complete response occurred in 71 percent of those who received lorlatinib. Hyperlipidemia, edema, increased weight, peripheral neuropathy, and cognitive effects were the most common adverse events associated with lorlatinib. Compared with crizotinib, lorlatinib was associated with more grade 3 or 4 adverse events (mainly altered lipid levels; 72 versus 56 percent).

"Among patients with previously untreated, advanced ALK-positive NSCLC, those who received lorlatinib had significantly longer progression-free survival, a higher overall and intracranial response, and better quality of life than those who received crizotinib," the authors write.

Several authors disclosed financial ties to pharmaceutical companies, including Pfizer, which manufactures lorlatinib and funded the study.

https://en.wikipedia.org/wiki/Lorlatinib

https://en.wikipedia.org/wiki/Crizotinib

Tuesday, January 26, 2021

New effective and safe antifungal isolated from sea squirt microbiome



The new molecule was discovered in the microbiome of a sea squirt from the Florida Keys as part of an effort to identify novel antimicrobials from understudied ecosystems. Scientists named the antifungal turbinmicin, after the sea squirt from which it was isolated, Ecteinascidia turbinate.

Disease-causing fungi continue to evolve resistance to the small number of drugs available to thwart them. As a result, more people are dying from previously treatable diseases, such as candidiasis or aspergillosis, which are caused by common fungi that sometimes turn virulent. Identifying compounds like turbinmicin is key to developing new and effective drugs. However, while turbinmicin is a promising drug candidate, additional study of the molecule and extensive preclinical research must be performed before a new drug can become available.

A collaboration of chemists, biologists, and physicians from UW-Madison published their findings Nov. 19 in the journal Science. The discovery of turbinmicin is the most tangible output yet of the group's five-year, $30 million grant from the National Institutes of Health to glean useful new antimicrobial drugs from bacteria living in overlooked environments.

The majority of existing antimicrobials were isolated from soil-dwelling bacteria. As scientists continued probing these bacteria for new drugs, they often turned up the same molecules over and over again.

"Bacteria in particular are rich sources of molecules. But a lot of the terrestrial ecosystems have been pretty heavily mined for drug discovery," says Tim Bugni, a professor in the UW-Madison School of Pharmacy who led the turbinmicin project. "There's immense bacterial diversity in the marine environment and it's barely been investigated at all."

To correct for that oversight, Bugni partnered with UW School of Medicine and Public Health infectious disease professor David Andes, UW-Madison bacteriology professor Cameron Currie, and their colleagues to search neglected ecosystems. Specifically, they sought to discover novel bacteria from marine animals and then screen them for new kinds of antimicrobial compounds.

To identify turbinmicin, the research team began by collecting ocean-dwelling invertebrates from the Florida Keys between 2012 and 2016. From these animals, they identified and grew nearly 1,500 strains of actinobacteria, the same group of bacteria that has produced many clinical antibiotics. Using a screening method, they prioritized 174 strains to test against drug-resistant Candida, an increasingly prominent and dangerous disease-causing fungus. Turbinmicin stood out for its effectiveness.

"Candida auris in particular is pretty nasty," says Bugni. Nearly half of patients with systemic Candida infection die. "The Candida auris strain we targeted in this paper is resistant to all three classes" of existing antifungals.

The researchers tested purified turbinmicin against a slate of 39 fungi isolated from patients. These strains both represented diverse species and encompassed all the known ways that fungi have evolved resistance to existing drugs. In lab experiments, turbinmicin halted or killed nearly all fungal strains at low concentrations, indicating a potent effect.

Similar experiments in mice infected with drug-resistant strains of Candida auris and Aspergillus fumigatus also demonstrated turbinmicin's ability to attack resistant fungi. Because fungi and animals are closely related, and thus share similar cellular machinery, antifungals can prove toxic to animals as well. Yet, turbinmicin did not show toxic side effects in mice, even at concentrations 1000 times higher than the minimum dose. The effective dose would work out to tens of milligrams for an average-weight adult, less than for many other antibiotics.

Based on experiments in yeast led by UW-Madison genetics professor Anjon Audhya, turbinmicin appears to target the cellular packaging and organizational system of fungi. Turbinmicin blocks the action of the protein Sec14p, with the end result that yeast like Candida cannot bud to reproduce. Other kinds of fungi, when exposed to turbinmicin, may have a difficult time shuttling cellular contents around to grow.

The researchers have submitted a patent for turbinmicin and have now turned their attention to improving the molecule by making small alterations to its structure that could increase its effectiveness as a drug. The discovery of turbinmicin also serves as a proof-of-concept for the collaboration's efforts to explore new ecosystems and screen thousands of candidates to identify new, effective antimicrobial candidates.

"Now we have the tools to sort through candidates, find promising strains and produce molecules to do animal studies," says Bugni. "That's the key for targeting multi-drug resistance: you need unique molecules."

https://science.sciencemag.org/content/370/6519/974