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Comprehensive Online Library Developed by Telomere Diagnostics Provides Resources on Science of Telomeres

Telomere Diagnostics, the leader in telomere length measurement, a recognized biomarker for aging well, and creator of the patented TeloYears™ test, has developed the Telomere Learning Center, a comprehensive online library to educate the public on the science of telomeres. The fully searchable site (https://resources.teloyears.com) provides valuable resources to telomere-related content across a range of categories that is accessible free of charge.

Test Could Identify Which Prostate Cancers Require Treatment

The level of expression of three genes associated with aging can be used to predict whether seemingly low-risk prostate cancer will remain slow-growing, according to researchers at the Herbert Irving Comprehensive Cancer Center at Columbia University Medical Center. Use of this three-gene biomarker, in conjunction with existing cancer-staging tests, could help physicians better determine which men with early prostate cancer can be safely followed with “active surveillance” and spared the risks of prostate removal or other invasive treatment. The findings were published recently in the online edition of Science Translational Medicine.

Florida Hospital Collaborates with VTT of Finland to Explore Research for Early Detection of Alzheimer’s Disease

Scientists from VTT and the University of Eastern Finland recently teamed up to discover a serum biochemical signature which predicts progression to Alzheimer’s disease. From this, VTT was able to develop a biomarker assay. Florida Hospital and VTT have since come together to evaluate screening, diagnostic and prognostic potential of the biomarker essay.

Biomarker May Predict Prostate Cancers Requiring Treatment

Not all early-stage prostate cancer diagnoses are alike. While some patients have aggressive tumors, others have slow-growing, low Gleason score tumors that may not require treatment, but instead can be monitored with regular clinical evaluations. But distinguishing between prostate cancers that require treatment and those that do not is still a major challenge.

Researchers at Columbia University in New York City have now identified a 3-gene signature that could indicate whether a particular early-stage prostate cancer is indolent. The test relies on a tissue sample, and along with a prostate-specific antigen (PSA) test and a histology assessment, could help clinicians make an accurate diagnosis. The early results, including a blinded retrospective analysis of 43 patients, show that the signature can accurately predict which patients with low-risk disease would develop metastatic prostate cancer and which patients would not progress. The study is published in Science Translational Medicine.

“These types of markers will, for the first time, give us the opportunity to measure biological features of cancer in the same patient, with multiple biopsies spread out over many years,” said Eric Klein, MD, chairman, Glickman Urological and Kidney Institute at the Cleveland Clinic in Ohio.
Cory Abate-Shen, PhD, professor of urological oncology at Columbia University; Andrea Califano, PhD, professor of systems biology at Columbia University; and colleagues used a computational approach that identified three genes—FGFR1, PMP22, and CDKN1A—all associated with aging, that could accurately predict outcomes of low-risk, low Gleason score prostate tumors. Protein and mRNA levels of all three genes were high in those patients who had non-aggressive, indolent disease and low in those who had aggressive tumors.

Clinicians still rely on the Gleason score, a histology and pathology evaluation that does not incorporate any molecular assessment. Those patients with a Gleason score of 8 or higher are candidates for immediate treatment, but whether men with a score of 6 or 7 require treatment is difficult to assess—no test exists to identify the small percentage of patients who have early-stage prostate cancer that is more likely to metastasize.

The 3-gene signature was validated using an independent prostate cancer cohort. According to the study authors, the signature was prognostic and improved prognosis compared with the use of PSA and clinical assessment.

“We would predict that the test would be beneficial for patients with low Gleason score prostate tumors,” said Abate-Shen. “These patients are now typically monitored on active surveillance protocols, and the patients get a biopsy periodically. The test would be conducted on the biopsy.”

Rather than focusing on the entire genome, the researchers focused on 377 genes involved in aging, predicting that genes involved in aging and senescence are critical for tumor suppression. Cellular senescence is known to play a role in tumor suppression and is associated with benign prostate tumors both in the clinic and in mouse models, according to the researchers. Using a computational analysis called gene set enrichment analysis (GSEA), they narrowed the long gene list to 19 genes, and then to a set of 3 genes that could identify indolent tumors.

“To focus on senescence genes is intellectually interesting,” said Klein. “There is already a body of work supporting the role of these genes in prostate cancer, but to my knowledge no one has looked at them in early-stage disease before.”

Forty-three patients, who had been under active surveillance for 10 years at Columbia University Medical School, were used for the blinded retrospective analysis to assess the predictive value of the gene signature. Each patient had been diagnosed with low-risk prostate cancer, with a Gleason score of 6 or less. The test was correctly able to identify all 14 patients who eventually developed advanced prostate cancer.

CDKN1A has been shown to be linked to senescence and to regulate the cell cycle. Previous studies have shown that downregulation of the gene is linked to cancer progression. The correlation of FGFR1 (fibroblast growth factor receptor 1) with indolent tumors was surprising, as fibroblast growth factors have been shown to play a role in prostate cancer development. But, as the authors highlight in their discussion, FGFR1 signaling in prostate cancer is likely complex. The third gene in the signature, PMP22, encodes a glycoprotein expressed in neurons and has not been previously associated with prostate cancer.

This 3-gene signature is different from previously identified biomarkers, which have largely focused on advanced tumors. The potential biomarker test could complement other approaches in development, such as urine or blood tests, according to the authors.

A trial to validate the genetic signature is underway at Columbia University, and a national trial is being planned.

“It is really important to find novel ways to help to define early-stage tumors that may or may not progress to aggressive disease,” said Abate-Shen. “This will ultimately really help to minimize overtreatment, while capitalizing on the benefits of cancer screening.”

Other genomic approaches to distinguish indolent and aggressive disease are also underway. The first-generation expression-based tests, including Oncotype DX prostate and Prolaris, can facilitate clinical decisions based on the molecular characteristics of a prostate tumor. Both the available tests and the new ones “promise to reduce overtreatment and help men make the right decisions based on biology rather than uncertainty,” said Klein. 

Study: A Molecular Signature Predictive of Indolent Prostate Cancer [Science Translational Medicine]

Source: CancerNetwork

Mayo Clinic Study: Blood Biomarker Could Mark Severe Cognitive Decline, Quicker Progression Among Parkinson’s Patients

A genetic mutation, known as GBA, that leads to early onset of Parkinson’s disease and severe cognitive impairment (in about 4 to 7 percent of all patients with the disease) also alters how specific lipids, ceramides and glucosylceramides are metabolized. Mayo Clinic researchers have found that Parkinson’s patients who do not carry the genetic mutation also have higher levels of these lipids in the blood. Further, those who had Parkinson’s and high blood levels were also more likely to have cognitive impairment and dementia. The research was recently published online in the journal PLOS ONE.

The discovery could be an important warning for those with Parkinson’s disease. Parkinson’s is the second most common neurodegenerative disease after Alzheimer’s disease. There is no biomarker to tell who is going to develop the disease — and who is going to develop cognitive impairment after developing Parkinson’s, says Michelle Mielke, Ph.D., a Mayo Clinic researcher and first author of the study.

Cognitive impairment is a frequent symptom in Parkinson’s disease and can be even more debilitating for patients and their caregivers than the characteristic motor symptoms. The early identification of Parkinson’s patients at greatest risk of developing dementia is important for preventing or delaying the onset and progression of cognitive symptoms. Changing these blood lipids could be a way to stop the progression of the disease, says Dr. Mielke.

There is a suggestion this blood lipid marker also could help to predict who will develop Parkinson’s disease and this research is ongoing.

“There is currently no cure for Parkinson’s, but the earlier we catch it — the better chance we have to fight it,” says Dr. Mielke. “It’s particularly important we find a biomarker and identify it in the preclinical phase of the disease, before the onset even begins.”

Dr. Mielke’s lab is researching blood-based biomarkers for Parkinson’s disease because blood tests are less invasive and cheaper than a brain scan or spinal tap — other tools used to research the disease.

This work was supported by grants from the National Institute on Aging (U01 AG37526) and from George P. Mitchell and the late Cynthia W. Mitchell. The DEMPARK study was being funded by an unrestricted grant from Novartis and a grant from the International Parkinson Fonds (Deutschland) gGmbH (IPD). The continuation of the study (LANDSCAPE) is part of the Competence Network Degenerative Dementias (KNDD), which is funded by the German Federal Ministry of Education and Research (project number 01GI1008C)).

Study: Plasma Ceramide and Glucosylceramide Metabolism Is Altered in Sporadic Parkinson’s Disease and Associated with Cognitive Impairment: A Pilot Study [PLOS ONE]

Source: Mayo Clinic