Aging and Neurodegeneration Archives - Sanford Burnham Prebys
Institute News

The Future of Neuroscience Workshop

Authorsgammon
Date

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.

Institute News

How proteins age

Authorsgammon
Date

October 19, 2015

SBP researchers and colleagues discover a mechanism that regulates the aging and abundance of secreted proteins.

Physiological processes in the body are in large part determined by the composition of secreted proteins found in the circulatory systems, including the blood. Each of the hundreds of proteins in the blood has a specific life span that determines its unique range of abundance. In fact, measurements of their quantities and activities contribute to many clinical diagnoses. However, the way in which normal protein concentrations in the blood are determined and maintained has been a mystery for decades.

Biomedical scientists at Sanford Burnham Prebys Medical Discovery Institute (SBP) and UC Santa Barbara (UCSB) have now discovered a mechanism by which secreted proteins age and turnover at the end of their life spans. Their findings, which shed light on a crucial aspect of health and disease, appear today in the Proceedings of the National Academy of Sciences (PNAS).

“This is a fundamental advance that is broadly applicable and provides an understanding of how secreted proteins, which are involved in many important physiological processes, normally undergo molecular aging and turnover,” said senior author Jamey Marth, PhD, professor in SBP’s NCI-designated Cancer Center.

“When a secreted protein is made, it has a useful life span and then it must be degraded — the components are then basically recycled,” added Marth, also director of UCSB’s Center for Nanomedicine and a professor in the campus’s Department of Molecular, Cellular, and Developmental Biology. “We can now see how the regulation and alteration of secreted protein aging and turnover is able to change the composition of the circulatory system and thereby maintain health as well as contribute to various diseases.”

This newly discovered mechanism encompasses multiple factors, including circulating enzymes called glycosidases. These enzymes progressively remodel N-glycans, which are complex structures of monosaccharide sugars linked together and attached to virtually all secreted proteins.

It is the N-glycan structure itself that identifies the protein as nearing the end of its life span. Subsequently, multiple receptors known as lectins — carbohydrate-binding proteins — recognize these aged proteins and eliminate them from circulation.

Marth and colleagues identified more than 600 proteins in the bloodstream that exhibit molecular signs of undergoing this aging and turnover process. Many of these proteins are regulators of proteolysis (the breakdown of proteins), blood coagulation and immunity.

Honing in on individual examples, the researchers were able to track each of them through time and watch the process unfold. “In these studies we further saw that the different life spans of distinct proteins are accounted for by the different rates of aging due to N-glycan remodeling,” said lead author Won Ho Yang, PhD, a postdoctoral associate at SBP and at UCSB’s Center for Nanomedicine.

“Altering this aging and turnover mechanism is the fastest way to change the abundance of a secreted protein, which we increasingly note is occurring at the interface of health and disease,” Marth explained. “In retrospect from published literature and from studies in progress, we can now see how sepsis, diabetes and inflammatory bowel disorders can arise by the targeted acceleration or deceleration of secreted protein aging and turnover.”

“The discovery of this mechanism provides a unique window into disease origins and progression,” Marth added. “It has been known that circulating glycosidase enzyme levels are altered in diseases such as sepsis, diabetes, cancer and various inflammatory conditions. The resulting changes in the composition and function of the circulatory systems, including the blood and lymphatic systems, can now be identified and studied. We are beginning to see previously unknown molecular pathways and connections in the onset and progression of disease.”

Institute News

Sanford-Burnham researcher awarded American Federation for Aging Research award

Authorsgammon
Date

December 23, 2014

Malene Hansen, PhD, associate professor in our Development, Aging, and Regeneration Program has been awarded the Julie Martin Mid-Career Award in Aging Research. The award includes a new grant to continue her research in the field of aging. Hansen is a three-time American Federation for Aging Research (AFAR) grant recipient. AFAR’s grants are given to scientists at institutions nationwide based on hard work, ingenuity, and leadership that advance cutting-edge research to help us live healthier, longer lives. Continue reading “Sanford-Burnham researcher awarded American Federation for Aging Research award”

Institute News

Sanford-Burnham plays key role in San Diego Alzheimer’s Project

Authorsgammon
Date

December 10, 2014

San Diego has formed an unprecedented coalition to find a cure for Alzheimer’s disease. The Alzheimer’s Project, conceived of by county Board of Supervisors Chairwoman Dianne Jacob, is an initiative with aims of both finding a cure and helping the 60,000 county residents who have the disease. Guided by a steering committee led by Jacob and chaired by Supervisor Dave Roberts, the Project brings a diverse team of experts in research, caregiving, health care, philanthropy, and community support to assimilate and execute a five-year plan with a goal to conquer the disease once and for all. Continue reading “Sanford-Burnham plays key role in San Diego Alzheimer’s Project”

Institute News

Sanford-Burnham presents at the 2014 Society for Neurosience Meeting

Authorsgammon
Date

November 13, 2014

The Society for Neuroscience’s 44th annual meeting is the premier venue for neuroscientists to present emerging science, learn from experts, forge collaborations, and learn about new technologies and tools. Sanford-Burnham has several dynamic research programs in neuroscience, and below are our presentations scheduled for this year’s event. Continue reading “Sanford-Burnham presents at the 2014 Society for Neurosience Meeting”

Institute News

What’s the sixth leading cause of death in the U.S.? Alzheimer’s disease.

Authorsgammon
Date

November 7, 2014

November is Alzheimer’s Awareness Month. If you know nine people over the age of 65, at least one of them has Alzheimer’s disease. Learn 10 facts about the disease that may change your life, and check out highlights of how Sanford-Burnham is contributing to the efforts to diagnose, prevent, and treat this devastating disease. Continue reading “What’s the sixth leading cause of death in the U.S.? Alzheimer’s disease.”

Institute News

Why people with Down syndrome invariably develop Alzheimer’s disease

Authorsgammon
Date

October 23, 2014

A new study by researchers at Sanford-Burnham reveals the process that leads to changes in the brains of individuals with Down syndrome—the same changes that cause dementia in Alzheimer’s patients. The findings, published in Cell Reports, have important implications for the development of treatments that can prevent damage in neuronal connectivity and brain function in Down syndrome and other neurodevelopmental and neurodegenerative conditions, including Alzheimer’s disease. Continue reading “Why people with Down syndrome invariably develop Alzheimer’s disease”

Institute News

Researchers discover a key to making new muscles

Authorsgammon
Date

September 8, 2014

Researchers at Sanford-Burnham have developed a novel technique to promote tissue repair in damaged muscles. The technique also creates a sustainable pool of muscle stem cells needed to support multiple rounds of muscle repair. The study, published on September 7 in Nature Medicine, provides promise for a new therapeutic approach to treating the millions of people suffering from muscle diseases, including those with muscular dystrophies and muscle wasting associated with cancer and aging. Continue reading “Researchers discover a key to making new muscles”