March 7, 2016
On Saturday, March 5, a keen group of SBP volunteers hauled wagons of lab coats, mutant worms and magnifying glasses to give the next generation of scientists—mainly kids in grades K-8—an opportunity to see first-hand how tiny worms named C. elegans are used to understand the aging process.
March 2, 2016
The Rare Disease Day symposium on February 26-27 featured many fascinating talks from experts on numerous aspects of congenital disorders of glycosylation (CDGs), from fundamental work on glycosylation pathways to animal models to diagnosis in the clinic. Following are summaries of each presentation:
Lawrence Tabak, D.D.S, PhD, deputy director of the NIH—After presenting his research on glycosylating enzymes in the 1980s, which helped lay the foundation for understanding the processes that are impaired in CDGs, Tabak discussed several initiatives by the NIH, including the Precision Medicine Initiative and efforts to increase reproducibility.
William Gahl, MD, PhD, director of the National Human Genome Research Institute (NHGRI)—Gahl highlighted several successes of the Undiagnosed Diseases Program. Most relevant to the field of CDGs was the discovery of the gene underlying a new type of CDG, in which an enzyme responsible for generating a necessary precursor for protein glycosylation (uridine diphosphate) is inactivated. This work also found that supplementation with uridine was an effective therapy.
Shengfang Jin, PhD, scientist at Agios Pharmaceuticals Inc.—Jin presented her work on a mouse model of PMM2-CDG, which is caused by mutations in the gene for phosphomannomutase 2. Her research has identified a promising biomarker for PMM2-CDG, which is one of the more common types of CDG.
Richard Steet, PhD, associate professor at the University of Georgia—Steet’s lab is developing a new method of identifying which proteins are glycosylated by particular enzymes, which is important for understanding how each CDG-associated mutation leads to disease.
Reid Gilmore, PhD, professor at University of Massachusetts Medical School—Gilmore gave a detailed view of how two CDG-associated mutations, in isoforms of the same component (STT3A and STT3B) of a major glycosylating enzyme, oligosaccharyltransferase, impair protein glycosylation.
Robert Haltiwanger, PhD, professor at the University of Georgia—In another presentation on fundamental glycobiology, Haltiwanger described the function of two enzymes in the same pathway (fucosylation) inactivated in certain CDGs. Mutations in these enzymes underlie Peters plus syndrome and a single case of an unnamed severe CDG, respectively.
Marjan Huizing, PhD, staff scientist at the NHGRI—Using a mouse model of GNE myopathy, a progressive muscle disease caused by mutations in an enzyme required for protein sialylation, Huizing’s lab identified a therapy, supplementation with the sugar ManNAc, which is now in phase 2 trials, and identified a key biomarker. The mouse model also suggested that sialylation problems may be associated with certain kidney diseases, which is now under investigation.
Raymond Wang, MD, clinical geneticist at CHOC Children’s Clinic—Wang told the story of how he and scientific collaborators diagnosed an unusual case that initially appeared to be a CDG because of abnormal glycosylation. The disease-causing mutation was finally identified to be in mitochondrial translation, highlighting the similarities between CDGs and mitochondrial diseases.
David Beeson, PhD, professor at the University of Oxford—Beeson described a subset of congenital myasthenias caused by mutations in glycosylating enzymes, which have distinct symptoms from other myasthenias. These mutations likely cause this disorder by selectively impairing processing of the receptor by which muscle cells receive signals from nerves—the nicotinic acetylcholine receptor.
Lance Wells, PhD, professor at the University of Georgia— Wells summarized his work on the molecular basis of dystroglycanopathies, a subgroup of muscular dystrophies that arise from defects in O-mannosylation enzymes. Most recently, his lab resolved the puzzle of how mutations in an enzyme involved in a different form of glycosylation could cause this disease—they showed that the enzyme’s function had been incorrectly assigned.
Taroh Kinoshita, PhD, professor at Osaka University—Kinoshita is an expert on the addition of sugar-based anchors to lipids (GPI anchors), which link many proteins to the cell surface. He presented some of the extensive work from his team on how mutations in GPI-synthesizing enzymes cause disease, including identification of a therapy, vitamin B6, for seizures in GPI deficiencies.
Eva Morava, MD, PhD, professor at Tulane University Medical Center and the University of Leuven—Morava described preliminary results of a clinical trial of galactose supplementation to treat PGM1-CDG, in which patients are deficient in phosphoglucomutase-1 (this also impairs glucose metabolism). In these patients, galactose improves liver function and endocrine abnormalities and normalizes clotting factors.
Lynne Wolfe, MS, C.N.R.P. clinical research coordinator at the NHGRI—Wolfe discussed the CDG natural history study underway at the NIH—its goals and progress so far. The findings of this study will serve as a resource both for future diagnoses and for researchers in the field to correlate pathways with symptoms.
Tadashi Suzuki, D.Sci., team leader at the RIKEN Global Research Cluster—NGLY1 is different from other CDG-associated genes—it encodes a deglycosylating enzyme, which helps degrade glycosylated proteins that aren’t properly folded. Suzuki’s team has shown that inhibiting another deglycosylating enzyme, ENGase, prevents the formation of aggregates of misfolded proteins, suggesting that it could be a therapeutic target.
Hamed Jafar-Nejad, MD, associate professor at Baylor College of Medicine—Using fruit flies as a model, Jafar-Nejad’s lab is investigating how NGLY1 deficiency affects development. These flies replicate many of the features of human disease, including growth delay and impaired movement, so they could yield important insights into pathogenesis.
February 12, 2016
On February 26-27, 2016, Hudson Freeze, PhD, director of SBP’s Human Genetics Program, will lead the 7th annual Rare Disease Day Symposium at SBP. With the theme of human glycosylation disorders, the event will unite researchers, clinicians, patients and advocates to find better diagnostics, treatments and maybe even cures for people like Fiona Waddell, a CDG patient. Continue reading “Fiona Waddell embraces Rare Disease Day as a patient and advocate”
February 4, 2016
It was a night of learning, sharing and making connections. The 60+ people who came to the psoriasis research update at SBP on February 2 all had something in common: psoriasis has affected their lives in some way. Continue reading “Psoriasis research event at SBP brings together patients, clinicians, and scientists”
January 20, 2016
“Human Glycosylation Disorders” is the theme of this year’s Rare Disease Day at SBP. On February 26-27, 2016, Hudson Freeze, PhD, director of the Human Genetics Program at SBP, is hosting the 7th Annual Rare Disease Day Symposium in La Jolla, Calif.
Continue reading “You’re invited to SBP’s Rare Disease Day in La Jolla”
January 8, 2016
Sanford Burnham Prebys riders help raise much needed funds.
Continue reading “Pedal the Cause donates $1.3 million for cancer research in San Diego”
December 15, 2015
Come join us at Sanford Burnham Prebys Medical Discovery Institute (SBP) to learn about the latest research in psoriasis and psoriatic arthritis taking place in your community. The Psoriasis Research Update and Reception is jointly sponsored by SBP and the National Psoriasis Foundation. The event will take place on:
Tuesday, February 2, 2016 6:00 – 8:00 p.m. Sanford Burnham Prebys Medical Discovery Institute Building 12 Auditorium 10905 Road to the Cure San Diego, CA 92121
Take a tour of the SBP Psoriasis Research Lab and come to the reception where we will provide hors d’oeuvres and beverages.
Our guest speakers will include:
RSVP to hbuthmann@sbpdiscovery.org by January 29, 2015 to reserve your spot.
We look forward to seeing you there!
December 14, 2015
On Tuesday, December 2, SBP held “The Future of Neuroscience Workshop,” an event where SBP faculty shared their findings on what causes neurological disorders and presented their ideas on new directions and approaches to treat brain diseases.
It’s estimated that more than 50 million Americans are affected by neurological disorders. However, many disorders do not have an approved treatment or are in need of newer, more effective treatments. SBP is discovering the underlying mechanisms of neurological disorders, and identifying new disease targets that will lead to innovative treatments to prevent, slow, or even reverse these complex conditions.
The broad list of diseases under investigation included Alzheimer’s and Parkinson’s disease, brain tumors, schizophrenia, depression, multiple sclerosis, as well as neurocognitive disorders caused by infection and inflammation. Many faculty presented data describing the basic biological processes that have gone awry and contribute to dysfunction, revealing “druggable” targets in the brain that may be modulated to improve the health of patients.
A special session on the technology and platforms available for research covered homing mechanisms that enhance the delivery of drugs to the brain, the application of stem cells to discover drugs, using stem cells to potentially restore damaged cells and tissue, and new lab tools to create small-molecules that can penetrate the blood-brain barrier to treat central nervous system disorders.
As SBP moves into 2016, we have a clear picture of the challenges and opportunities to advance our research to create new, better treatments to improve the lives of individuals and their families affected by neurological disorders.
November 10, 2015
“Creative Intervention Unleashed,” the 2015 Gala of Sanford Burnham Prebys Medical Discovery Institute (SBP), was a joyous salute to the scientists who are moving toward cures and the donors who are with them every step of the way.
More than 200 supporters gathered at the Grand Del Mar on Saturday, Nov. 7, 2015 to celebrate a pivotal year for the Institute. The festivities were led by honorary gala co-chairs Susan and Jim Blair, Phyllis and Dan Epstein, and Robin and Hank Nordhoff, and the guests were surrounded by vibrant images of fluorescent cells and molecular structures.
The setting was sumptuous, and the mood was euphoric. But the evening’s dominant emotions were passion for SBP’s translational research achievements and excitement about the Institute’s future impact.
Hank Nordhoff, who spoke on behalf of the honorary chairs, told the audience that the Institute “wouldn’t have a chance of fulfilling its mission without your support.” Noting that he, Jim, and Dan all serve on the Institute’s Board of Trustees, Nordhoff said, “We invest in SBP because of the quality and the productivity of the research and the ability to turn that superb research into safe and effective breakthrough products to treat patients.”
Nordhoff was followed to the podium by Perry Nisen, MD, PhD, who was just starting his second year as Institute CEO and Donald Bren Chief Executive Chair. Nisen gave the audience an overview of what he described as “an amazing year” topped by a landmark $100 million gift from honorary trustee Conrad Prebys. “All I can say,” Nisen told Prebys, “is that we’re going to make you proud!” Other 2014-2015 highlights were accreditation of the SBP Graduate School, licensing of a drug candidate for renal cardiovascular disease (“the first of many to come”), and a new five-year partnership with Eli Lilly to develop immunological drugs.
“Most importantly, the science has been incredible this past year,” Nisen reported, “and that speaks to the vital impact of the contributions you make. The success of this Institute has been phenomenal because of your support, and I hope all of you will stay on this train with us.”
Nisen then introduced a special Gala video that gave the back story of a new collaboration with the Children’s Hospital of Philadelphia. The alliance came out of a discovery by Carl Ware, PhD, of a molecular target that may help block inflammation in autoimmune diseases. The video showed how families struggle to cope with pediatric Crohn’s disease and how Ware is determined to relieve their plight and raise their hopes.
“Autoimmune disease afflicts people of all ages, but it’s perhaps most intense in young kids,” said Ware, who is professor and director of SBP’s Infectious and Inflammatory Disease Center. “We’re developing a clinical trial to help these patients, and we hope to start in early 2016.”
The evening culminated with the Gala’s annual “Fund-a-Need” tradition when guests raise their bidding paddles to pledge specified amounts for Institute support. With leadership bids from Nancy and Matt Browar, Geniya and Papa Doug Manchester, Debra Turner and Conrad Prebys, Jeanne and Gary Herberger, and Denny Sanford the event raised a total of $1.1 million.
All in all, the 2015 SBP Gala was, in the words of CEO Nisen, “a brilliant, clever, elegant evening.”
November 3, 2015
On Friday, October 30, more 350 people came to SBP’s 37th Annual Symposium to hear leading scientists present their latest research on aging and regeneration. The presenters, listed here, provided valuable insight into the latest studies on what causes aging, and strategies to repair injuries, prolong life, and prevent diseases. The event was hosted by (from left to right): Rolf Bodmer, PhD, Malene Hansen, PhD, (in bee costume for Halloween) Alexey Terskikh, PhD
Many congratulations to Esther Minotti for successfully organizing the event!
And many thanks to the Glenn Foundation for Medical Research for their support.