More Rapid Responses to Rare Disease

Families facing rare diseases know a thing or two about patience. They often face diagnostic odysseys that take years. Even when answers are forthcoming, therapies might not be. 

At DNAnexus, we’re proud to partner with several organizations to provide more rapid rare disease discovery, drug development, and delivery.   

One of these is Ultragenyx, a biopharmaceutical company based in Novato, CA, which is committed to bringing novel products to patients for the treatment of serious and debilitating rare and ultra-rare genetic diseases. The company has rapidly built a diverse portfolio of approved therapies and product candidates aimed at addressing diseases with high unmet medical need, yet clear underlying biology.

Delivering Safe and Effective Therapies

Ultragenyx is in the business of time. Its strategy is predicated upon time and cost-efficient drug development, with the goal of delivering safe and effective therapies to patients with the utmost urgency.

Thanks to DNAnexus Titan, we were able to provide Ultragenyx with a more streamlined way to unlock the power of multi-omics data and accelerate its discovery process. The unified NGS analysis platform brought its data and pipelines together in one secure environment for enhanced data analysis, collaboration, visualization, and sharing of results.

With the right infrastructure in place, Ultragenyx simplified the complexities of secondary analysis infrastructure, allowing researchers to focus on what’s important – rapid rare disease discovery

“You save the bioinformatician’s time, compute time, and therefore decrease turnaround time. This enables R&D researchers to answer questions and get rare disease treatments to market faster. You can’t put a price tag on that.”

SEAN DAUGHERTY
Associate Director of Bioinformatics, Ultragenyx

Data Sharing & Accelerated Rare Disease Discovery

Data sharing is key when researching a rare disease with many subtypes driven by diverse and distinct genetic alterations. Our partnership with St. Jude Children’s Research Hospital and Microsoft has resulted in a cloud-based, data-sharing ecosystem that has proved to be a model for harmonized genetic data and collaboration across the pediatric cancer community.

The more samples researchers are able to analyze, the more power they have for genomic discovery and clinical correlative analysis. The St. Jude Cloud has the power of more than 1.25 petabytes of data, and has already enabled many discoveries, such as new insight into a rare C11orf95 fusion in ependymoma and the classification of 135 pediatric cancer subtypes by gene expression profiling and map mutational signatures.

By allowing data to be authenticated, tracked, and monitored in a single, secure, and compliant system, our platforms reduce many of the logistical difficulties that researchers might otherwise face. 

We’re happy to support large-scale, global collaborations that are accelerating genetic discovery and providing actionable insights that will help the not-so-rare 300 million people impacted by genetic diseases get help sooner, rather than later. 

How Regeneron Bypasses Bottlenecks to Iterate at the Scale and Speed of Science

How Regeneron Bypasses Bottlenecks to Iterate at the Scale and Speed of Science

At the Regeneron Genetics Center (RGC), scientists are uncovering important genomic variants involved in human health and disease and enabling important research into novel drugs and therapies.  RGC receives 500,000 samples per year and generates about 500 billion reads per hour. To date, the center has sequenced over 1.5 million samples and created one of the largest catalogs of human genetic variation.

To gain insights from all that data, RGC needed infrastructure capable of capturing and handling large quantities of genome and phenotype information. In a recent webinar, William Salerno, RGC’s Senior Director of Genome and Sequencing Informatics discussed the RGC’s infrastructure and how the center built a system capable of meeting its current and future data analysis needs.

The RGC accomplishes its data analysis using a combination of local infrastructure, cloud computing, and the DNAnexus Platform. RGC uses the platform to run various production and analytical workflows and for its data management and sharing needs. One component of the RGC platform is GLnexus, software that RGC researchers developed with DNAnexus and other partners that enables large-scale data merging. RGC researchers have tested it on over a million exome samples so they are confident that it scales to meet their needs.

RGC needed a solution that includes metadata capture and pipeline version control that enables extensive logging and troubleshooting. The platform provides a comprehensive security framework for keeping genomics data safe and secure to support the analysis and processing of genomics data. Salerno highlighted one example where RGC created an autonomous cloud environment for a partner that needed to analyze genomic and phenotypic data related to COVID-19. RGC was able to get the environment up and running in two days, and the partner was able to easily import data into the cloud and control who could access it.

For scientists looking to build the infrastructure that can support large-scale genomics, Salerno highlighted some key factors to consider during the webinar. There are the costs associated with the platform. This includes those for the physical infrastructure but also costs for audits, quality control, system redundancy, troubleshooting policies, managed services, and disaster recovery. Another important factor to consider is how metadata will be generated and captured on the platform.

The RGC is committed to ensuring that its work is equitable, open access and transparent. To that end they make open-source versions of the genome analysis pipelines that they use on the Titan Platform available to the scientific community. 

To learn more about how RGC’s platform is enabling scalable genome research, download the whitepaper or listen to the webinar

How DNAnexus Enables Human Longevity to Optimize Genomics Analysis and Interpretation for Healthy Individuals

When the first draft of the human genome was completed in the early 2000s, the possibility of using genomic data in routine healthcare seemed close to becoming reality. Now, more than two decades later, genomics has made inroads into healthcare — but it still has not made it into daily patient care. Scientists and clinicians at Human Longevity (HLI) are working to change that.

In a recent webinar, Wayne Delport, vice president of technology & bioinformatics at HLI, described the whole-genome sequencing product and clinical report that the company developed for physicians and patients in its Health Nucleus Clinic. He also talked about how the DNAnexus Platform is providing much-needed bioinformatics infrastructure to help the clinic ingest, analyze, and interpret the data. Watch the webinar on-demand. 

“Human Longevity was founded on the premise that the genome was going to revolutionize the practice of medicine and make a significant impact on the integration of genomics and medicine,” Delport said. “We’ve seen a lot of that in the oncology space, but we are not entirely convinced we’ve seen that in the primary care space.” 

To create a whole genome product that would benefit people coming in for a healthy screening, HLI launched the Health Nucleus, a data-driven personalized health platform that looks across all the data from a healthy individual. “It is intended to change the way healthcare is practiced,” Delport said.

Instead of the conventional approach to healthcare, which relies primarily on data from family history and physical examination, the Health Nucleus team collects data from whole-genome sequencing, imaging, and different kinds of biomarkers. Under this new model, physicians have access to AI-powered analytics to make sense of the patients’ data. 

A New Kind of Clinical Report

When HLI began developing its whole genome sequencing product, they quickly realized that there was no existing report structure suitable for describing the results in a manner that was engaging for both clients and physicians. So they decided to create one. 

The report needed to be simple enough for clients to understand while simultaneously providing useful information to clinicians including prognostic risk assessment data and pharmacogenomics information; however, it could not be used for diagnostic purposes.  

The current version of the HLI report has four sections; hereditary disease risk, pharmacogenomics findings, health predisposition, and nutrition and wellness traits. The  Human Longevity Clinical Laboratory (HLCL), a CAP/CLIA certified lab at HLI, issues these reports. 

The hereditary disease risk portion of the report provides data on pathogenic and likely pathogenic variants and disease risk. The pharmacogenomics section of the report captures information on star alleles and their functions as well as relevant drug response data. The next section presents data on polygenic risk. The final section of the report provides information on nutrition and wellness traits to help patients and clinicians discuss health habits, exercise needs, disease susceptibility, reactions to food, and more.

Powerful Data Analytics 

These reports are only possible thanks to the infrastructure for analyzing, interpreting, and storing the large quantities of data generated by whole genome sequencing assays. HLI currently partners with a CAP/CLIA validated reference laboratory for its whole genome sequencing needs, while it handles the analysis in house. HLCL is validated to assess single nucleotide variants and small insertions and deletions. 

To handle its bioinformatics needs, HLI previously relied on an in-house workflow that ran on Amazon Web Services. It included separate pipelines for secondary and tertiary analysis and interpretation. These were all internally developed, so the HLI team was responsible for the upkeep. The system also had a lot of components, including multiple PostgreSQL databases and application programming interfaces. 

“We were responsible for maintaining our workflows [and] maintaining our infrastructure,” Delport said. “We also had to develop our own privacy and security program.” They also had to optimize storage costs.

HLI recently began transitioning its analysis to the cloud-based DNAnexus Platform, including secondary analysis tools developed by Sentieon. When the transition is complete, they will have a much simpler technology stack that uses fewer components than the one they built in-house. 

“The great thing about this for us is that we have one SQL database with one API that we don’t have to develop. That is developed and maintained by DNAnexus,” Delport said. 

This also means that HLI scientists can focus on the important task of extracting valuable health information from the patients’ genomes and reporting their findings. 

“We don’t have to worry about any infrastructure management,” Deplort said. “The only thing people on our team have to worry about is building and deploying bioinformatics tools that are used in our reporting workflow.”

DNAnexus’ Platform meets all of the compliance standards required for secure storage and transfer of whole genome data, as well as those required for bioinformatics pipelines and data tracking according to the CAP Molecular Pathology checklist. “DNAnexus more than meets these requirements for us,” Delport said. ”We were comfortable with the security and traceability.”

Using DNAnexus is also more cost-effective per sample than HLI’s original infrastructure. Even at 10 percent of HLI’s current volume, doing the analysis on DNAnexus is 62 percent more cost-effective than using its internal infrastructure. And the cost savings increase as the volume of samples analyzed goes up.

HLI has begun piloting its whole genome reporting in some other clinics beyond the Health Nucleus. It is also developing a new product called the Genome Search Engine which focuses more on variant discovery and has a wider scope than the whole genome product. “We want to be an interface between a clinical care provider in the genomics space and genomic interpretation,” Delport said. 

Watch the webinar on demand.

Get in touch to learn more about how DNAnexus can support your analysis needs.