A Study of the Safety, Tolerability, Microbial Kinetics and Effect on Urinary Oxalate Excretion of FB-001 in Healthy Volunteers Fed a High Oxalate/Low Calcium Diet and in Patients With Enteric Hyperoxaluria

This Phase 1, first-in-human, randomized, double-blinded, placebo controlled study is evaluating FB-001 in healthy volunteers (Part 1) and participants diagnosed with enteric hyperoxaluria (Part 2). Eligible participants receive investigational product and undergo safety monitoring, evaluations and subsequent follow-up after investigational product administration.

开始日期2022-11-16

申办/合作机构

Federation Bio, Inc.初创企业

100 项与 FB-001(Federation Bio) 相关的临床结果

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100 项与 FB-001(Federation Bio) 相关的转化医学

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100 项与 FB-001(Federation Bio) 相关的专利（医药）

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项与 FB-001(Federation Bio) 相关的文献（医药）

2024-11-01·Mycotoxin Research

First evidence on the occurrence of multi-mycotoxins and dietary risk exposure to AFB1 along the cassava value chain in Uganda

Article

作者: Mahuku, George ; Medina, Angel ; Oluwakayode, Abimbola ; Oyesigye, Elias ; Cervini, Carla

AbstractThis study investigated the occurrence and distribution of multiple mycotoxins (aflatoxin B1, B2, G1, G2, fumonisins B1, B2, ochratoxin A (OTA), deoxynivalenol (DON), zearalenone (ZEN), and citrinin (CIT)) in cassava products and as assessed the potential risk of aflatoxin B1 (AFB1) exposure among cassava consumers. A total of 192 samples of cassava products (96 flour and 96 chips, each with 48 samples from farmer and 48 from wholesaler) were analysed using LC/MS–MS. All positive samples irrespective of their origin (flour or chips) exhibited AFB1 levels exceeding the EU regulatory threshold of 5 µg/kg. The sum of fumonisins (FB1 + FB2), ZEN, and DON were significantly (P < 0.05) higher in cassava flour (14.3 µg/kg; 3.71 µg/kg; 25.1 µg/kg) compared to chips (6.54 µg/kg; 1.25 µg/kg; 0.25 µg/kg), respectively. Aflatoxins G2 was not detected in any of 192 samples. Cassava flour samples from farmers exhibited significantly (P < 0.05) higher mean concentrations of AFB1 (27.1 µg/kg), total aflatoxins (78.2 µg/kg), and ochratoxin A (79.6 µg/kg) in contrast to wholesalers, whose mean levels were notably lower at 8.91, 5.79 µg/kg, and 2.44 µg/kg, respectively, pointing the likely critical source of mycotoxin contamination. Cassava consumers in Northern Uganda are at a higher risk, with an estimated 2.06 cancer cases per 100,000 individuals per year compared to those in Eastern Uganda at 0.25. This study underscores the urgent need for interventions to manage aflatoxins in cassava flour, particularly at farm level in Northern Uganda. It accentuates a shift market to household-level sampling and the need for analytical methods targeting multiple mycotoxins.

2024-11-01·Mycotoxin Research

Factors influencing fumonisin B1 contamination in maize: insights from two production regions in Costa Rica

Article

作者: Sánchez-Zúñiga, Katherine ; Vinas, Maria ; Araya-Valverde, Emanuel ; Solano-Campos, Frank ; Rivera-Méndez, William ; Campos-Boza, Stefany

Maize (Zea mays L.) is an important cereal crop worldwide. Contaminated maize kernels pose a significant mycotoxin exposure risk for humans in Latin America. Fumonisins, the most prevalent mycotoxin in maize, typically occur during pre-harvest conditions leading to significant economic losses. Various factors, including weather conditions, may influence this contamination. This study aimed to determine the association between fumonisin B₁ (FB₁) contamination, prevalence of Fusarium verticillioides, weather conditions and kernel quality in the two primary maize production areas in Costa Rica (Brunca and Chorotega). All maize samples (100%) showed FB₁ contamination, with higher concentrations in samples from Brunca region, consistent with the presence of F. verticilliodes. Weather conditions appeared to play an important role in this contamination, since Brunca region had the highest mean temperature and relative humidity after maize silking (R1) and the total monthly rainfall in this region was significantly higher during the last two months of maize cultivation (grain-filling and physiological maturity stages R3 to R6). Interestingly, this study found a negative correlation between grain damage and kernel contamination with FB₁ and F. verticillioides. The concentration of mineral nutrients in kernels from both regions was largely similar. Most nutrients in kernels exhibited a negative correlation with FB₁, particularly nitrogen. Zinc and phosphorus were the only nutrients in kernels showing a positive correlation with FB₁ in samples from the Brunca region. The results highlight elevated levels of FB₁ contamination in maize and contribute to a better understanding of pre-harvest factors influencing FB₁ contamination in tropical conditions.

2024-09-01·Structure

Mechanism of ceramide synthase inhibition by fumonisin B1

Article

作者: Fang, Qi ; Gong, Xin ; Zhang, Zike ; Xie, Tian

Ceramide synthases (CerSs) play crucial roles in sphingolipid metabolism and have emerged as promising drug targets for metabolic diseases, cancers, and antifungal therapy. However, the therapeutic targeting of CerSs has been hindered by a limited understanding of their inhibition mechanisms by small molecules. Fumonisin B₁ (FB₁) has been extensively studied as a potent inhibitor of eukaryotic CerSs. In this study, we characterize the inhibition mechanism of FB₁ on yeast CerS (yCerS) and determine the structures of both FB₁-bound and N-acyl-FB₁-bound yCerS. Through our structural analysis and the observation of N-acylation of FB₁ by yCerS, we propose a potential ping-pong catalytic mechanism for FB₁ N-acylation by yCerS. Lastly, we demonstrate that FB₁ exhibits lower binding affinity for yCerS compared to the C26- coenzyme A (CoA) substrate, suggesting that the potent inhibitory effect of FB₁ on yCerS may primarily result from the N-acyl-FB₁ catalyzed by yCerS, rather than through direct binding of FB₁.

项与 FB-001(Federation Bio) 相关的新闻（医药）

2023-10-11

·FierceBiotech

As Federation folds, Kanvas Bio picks up the pieces to become clinical-stage company

Kanvas Biosciences will continue to build out its microbiome drug screening, discovery and manufacturing platform. As Federation Bio fades away, Kanvas Biosciences has snapped up two of the biotech’s assets as well as its microbial library and the company’s chief scientific officer Lee Swem, Ph.D., to lead program development. “We did not acquire all of Federation Bio because they were looking at doing different things with some of their other programs,” Matthew Cheng, Kanvas co-founder and CEO, told Fierce Biotech. “So we were able to pick up the parts that we thought had the most synergy with our existing platform.” One of the two assets acquired is Federation’s main compound FB-001, which ushers microbiome-based Kanvas into a new stage as a clinical company. FB-001, an oral therapy consisting of 148 bacterial strains taken from multiple healthy donors, has undergone a phase 1 trial for patients with enteric hyperoxaluria, an illness that causes excess absorption of oxalate. “They completed a phase 1 trial in humans and showed it was very safe,” Cheng explained. Now, Kanvas plans to “repurpose” FB-001 as an investigational treatment for inflammatory bowel disease (IBD). The young biotech, formed in 2020, is currently exploring partnership opportunities for the IBD program. The other acquired asset is a preclinical immuno-oncology program that comes complete with a collaboration with University of Texas MD Anderson Cancer Center. Kanvas will integrate itself into the ongoing work with MD Anderson to design a consortium of bacteria aimed at helping more cancer patients benefit from immunotherapy. The end goal is a synthetic microbiome-based therapy made of fecal microbiota transplant strains. After peeking at early preclinical data, the partners intend to start drug manufacturing soon, according to Kanvas. That process will be supported by New Jersey-based Kanvas’ new cell banking facility in San Francisco. Formerly operated by Federation, the site is part of today's deal as well. “We think that Federation Bio really was one of the world leaders in biomanufacturing these very complex microbial consortia,” Cheng said. To guide development of the newly acquired programs, Kanvas has also brought over Federation’s former CSO Swem—who now serves as Kanvas’ chief development officer—alongside seven other Federation employees. The new additions bring the biotech’s team to a total of 19 staffers. Financial details of the deal were not disclosed. In June, Kanvas raised $12 million in a pre-series A, but Cheng couldn’t share any details of a potential series A round quite yet. In the meantime, Kanvas will continue to build out its microbiome drug screening, discovery and manufacturing platform, including advancing its own preclinical bacterial vaginosis program. The science behind the platform was licensed from Cornell University and includes highly multiplexed spatial imaging technology that provides a Google Maps-like experience for visualizing the native microbiome. Microbiome companies have had a mixed go at it in recent months. Some have seen success, such as Seres Therapeutics and Nestle Health Science, which had their oral microbiome-based therapeutic approved by the FDA in April to treat recurrent Clostridioides difficile, while others have faced persistent failures, such as Evelo Biosciences and the now shuttered Kaleido Biosciences. Kanvas CEO Cheng said there are two obstacles that have historically challenged microbiome therapy companies: understanding how the therapy interacts with the body and manufacturing the complex medicines. Cheng believes Kanvas has the tools to overcome both hurdles, with its novel spatial biology platform providing a deep dive into understanding the body’s interaction with microbiome therapeutics while its acquisition of Federation’s science and manufacturing resources tackles the latter issue. As for Federation, the biotech appears to be finished. The company’s website no longer exists, and its phone number has been disconnected. Just this June, the microbiome-focused company laid off an undisclosed number of staff. The biotech launched three years ago after raising $50 million in series A funds. At the time, the promise of tapping the microbiome as a reservoir for potential therapeutics was enough for Emily Conley, Ph.D., to leave an executive position at genomics company 23andMe to helm the company. Time will tell whether Kanvas is able to achieve what others, such as Federation, could not.

临床1期并购上市批准

2023-06-22

·FierceBiotech

Federation Bio cuts undisclosed number of staff months after launching first trial

A spokesperson for Federation Bio would only confirm that the company had recently undertaken a "reduction in workforce." Microbiome-focused Federation Bio has cut an undisclosed number of staff months after launching its first phase 1 trial. A spokesperson confirmed the layoffs Wednesday in a statement to Fierce Biotech but did not elaborate on how many employees were impacted or what share of the workforce was reduced. "Federation Bio can confirm that, like many biotech companies over the past several months, the company has very recently undergone a reduction in workforce," the spokesperson told Fierce. The biotech launched less than three years ago after raising $50 million in series A funds, led by Horizon Ventures and joined by Venrock and Altitude among others. The promise of tapping the microbiome as a reservoir for potential therapeutics was enticing enough for Emily Conley, who left an executive position at genomics company 23andMe to helm the ship. The biotech has not reported raising any additional funds since. Federation's lead compound, FB-001, launched into a phase 1 trial at the end of last year to treat patients with enteric hyperoxaluria, an illness that causes excess absorption of oxalate. The first part of the trial is dosing healthy volunteers with either FB-001 or placebo and the second will move into an outpatient setting, recruiting up to 16 patients with the condition to receive either the treatment or placebo. The company’s second asset, FB-003, is working through IND-enabling studies as a treatment for inflammatory bowel syndrome. Federation’s promise was enough to draw in MD Anderson to collaborate on potential microbiome treatments for patients with cancer so that they better respond to immunotherapy. The two organizations said in February that they are working on designing a “complex consortium of bacteria” sourced from a donor fecal sample that could potentially boost I-O response rates. FB-001, for example, contains 148 bacterial strains sourced from multiple donors. Microbiome companies—particularly those launched by Flagship Pioneering—have had a mixed bag of results as of late. Some have seen success, such as Flagship-founded Seres Therapeutics and Nestle Health Science, which had their oral microbiome-based therapeutic approved by the FDA in April to treat recurrent Clostridioides difficile, the first such therapy on the market. But other companies have had persistent failures, including Evelo, which cut its atopic dermatitis candidate after seeing disappointing data. Fellow Flagship company Kaleido shut down last year after stalling out.

临床1期上市批准免疫疗法微生物疗法

2023-02-02

·Pharmaceutical Technology

MD Anderson partners with Federation Bio to develop microbiome therapy

MD Anderson and Federation Bio will design and develop a synthetic microbial consortium to treat immunotherapy-resistant cancer patients. Credit: National Cancer Institute on Unsplash. The University of Texas MD Anderson Cancer Center has announced a strategic collaboration with Federation Bio for the development of a new microbiome treatment for immunotherapy-resistant cancer patients. The collaboration is aimed at designing and developing a complex, synthetic microbial consortium to expand the number of cancer patients who respond to immunotherapy. It combines the expertise and capabilities of Platform for Innovative Microbiome and Translational Research (PRIME-TR) of MD Anderson with the ACT (anaerobic co-culture technology) platform of Federation Bio. Under the agreement, both Federation Bio and MD Anderson will rationally design a complex bacteria consortium derived from a donor faecal sample, which showed the ability to improve immunotherapy responses in patients with cancer through FMT in a study. Federation Bio will leverage its ACT platform for manufacturing the consortium from purified cell lines, creating a therapy that includes the complete metabolic complexity of the identified microbiome. The platform enables highly controlled bacterial consortia production, which is designed for addressing a wide range of disorders and diseases. Federation Bio CEO Emily Drabant Conley said: “We are proud to be collaborating with MD Anderson, an institution that is leading the charge globally to advance microbiome-based approaches that could dramatically improve outcomes for cancer patients. “We’ve demonstrated that our ACT platform enables the manufacture of complex, rationally designed microbial consortia at scale through the manufacture of FB-001, and this collaboration enables us to explore its potential in oncology, where there is both a high unmet need and evidence supporting the critical role of the microbiome in driving therapeutic response.” The company previously used the ACT platform for designing and manufacturing the investigational oral therapy, FB-001, which comprises 148 bacterial strains isolated from multiple healthy donors.