Findings could lead to clinical laboratory tests that help physicians identify microbes lacking in the microbiomes of their Parkinson patients
Microbiologists and clinical laboratory scientists know that gut microbiome can be involved in the development of Parkinson’s disease, a progressive neurological disorder that affects the nervous system due to damage caused to nerve cells in the brain. There is no cure for the illness. But a new treatment developed by researchers at the VIB Center for Inflammation Research at the University of Ghent in Belgium, may help to alleviate the symptoms.
During a clinical trial, VIB Center for Inflammation Research (VIB-IRC) scientists discovered that fecal microbiota transplantation (FMT), also known as a stool transplant, can improve motor skills in some Parkinson’s patients, according to Neuroscience News.
Parkinson’s disease (PD) develops when a protein called alpha-synuclein misfolds and forms into bundled clusters damaging nerve cells in the brain that produce dopamine. These formations, which are believed to appear in the gastrointestinal wall in the early stages of PD, then reach the brain via the vagus nerve leading to typical PD symptoms in patients.
“Our study provides promising hints that FMT can be a valuable new treatment for Parkinson’s disease,” Roosmarijn Vandenbroucke, PhD (above), Principal Investigator, VIB-UGent Center for Inflammation Research and full professor, UGent Department of Biomedical molecular biology, Faculty of Sciences, told Neuroscience News. “More research is needed, but it offers a potentially safe, effective, and cost-effective way to improve symptoms and quality of life for millions of people with Parkinson’s disease worldwide.” Clinical laboratories will likely be involved in identifying the best microbes for the FMT treatments. (Photo copyright: University of Ghent.)
Correlation between Gut Microbiome and Neurogenerative Disease
To perform their clinical study—referred to as GUT-PARFECT—the IRC researchers first recruited patients with early-stage PD and healthy donors who provided stool samples to the Ghent Stool Bank. The PD patients received the healthy stool via a tube inserted into the nose which led directly into the small intestine.
The FMT procedures were performed on 46 patients with PD between December 2020 and December 2021. The participants in this group ranged in ages from 50 to 65. There were 24 PD patients in the placebo group, and a total of 22 donors provided the healthy stool. Clinical evaluations were performed at baseline, three, six, and 12 months.
After 12 months, the group that received the transplants showed a reduction in symptoms compared to the placebo group. Their motor score on the Movement Disorder Society-Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) improved by a mean of 5.8 points. The improvement registered on the same scale for the placebo group was 2.7 points.
Developed in the 1980s, the MDS-UPDRS is a scale utilized to evaluate various aspects of PD by measuring patient responses via a questionnaire rating several issues (such as cognitive impairment, apathy, depression, and anxiousness) common in PD patients from normal to severe. It is divided into four parts:
Part I: Non-motor experiences of daily living.
Part II: Motor experiences of daily living.
Part III: Motor examination.
Part IV: Motor complications.
During the final six months of the research, the improvement in motor symptoms became even greater. To the VIB-IRC researchers this implied that an FMT may have long-lasting effects on PD patients. The FMT study group also experienced less constipation, a condition that can be bothersome for some PD patients.
“Our results are really encouraging!” said the study’s first author, Arnout Bruggeman, MD, PhD student, VIB-UGent Center for Inflammation Research, in a UGent News release. “After twelve months, participants who received the healthy donor stool transplant showed a significant improvement in their motor score, the most important measure for Parkinson’s symptoms.”
Findings Could Lead to Other Targeted Therapies for PD
The VIB-IRC researchers believe there is a correlation between the gut microbiome and Parkinson’s disease.
“Our findings suggested a single FMT induced mild, but long-lasting beneficial effects on motor symptoms in patients with early-stage PD. These findings highlight the potential of modulating the gut microbiome as a therapeutic approach and warrant a further exploration of FMT in larger cohorts of patients with PD in various disease stages,” the IRC researchers wrote in eClinicalMedicine.
“Our next step is to obtain funding to determine which bacteria have a positive influence. This could lead to the development of a ‘bacterial pill’ or other targeted therapy that could replace FMT in the future,” Debby Laukens, PhD, Associate Professor, Ghent University, told Neuroscience News.
According to the Parkinson’s Foundation website, nearly one million people in the US live with PD. It is second only to Alzheimer’s disease in the category of neurodegenerative diseases.
More research and studies are needed before the VIB-IRC’s stool transplant treatment can be used in clinical care. As researchers learn more about which specific strains of bacteria are doing the beneficial work in PD patients, that data could eventually lead to clinical laboratory tests performed to help physicians identify which microbes are lacking in the microbiomes of their PD patients, and if fecal transplants could help those patients.
New non-invasive test could replace traditional painful spinal taps and clinical laboratory fluid analysis for diagnosis of Parkinson’s disease
Scientists at AXIM Biotechnologies of San Diego have added another specimen that can be collected non-invasively for rapid, point-of-care clinical laboratory testing. This time it is tears, and the diagnostic test is for Parkinson’s disease (PD).
The new assay measures abnormal alpha-synuclein (a-synuclein), a protein that is a biomarker for Parkinson’s, according to an AXIM news release which also said the test is the first rapid test for PD.
“The revolutionary nature of AXIM’s new test is that it is non-invasive, inexpensive, and it can be performed at a point of care. It does not require a lumbar puncture, freezing, or sending samples to a lab. AXIM’s assay uses a tiny tear drop versus a spinal tap to collect the fluid sample and the test can be run at a doctor’s office with quantitative results delivered from a reader in less than 10 minutes,” the news release notes.
“Furthermore, emerging evidence shows that a-synuclein assays have the potential to differentiate people with PD from healthy controls, enabling the potential for early identification of at-risk groups,” the news release continues. “These findings suggest a crucial role for a-synuclein in therapeutic development, both in identifying pathologically defined subgroups of people with Parkinson’s disease and establishing biomarker-defined at-risk cohorts.”
This is just the latest example of a disease biomarker that can be collected noninvasively. Other such biomarkers Dark Daily has covered include:
“With this new assay, AXIM has immediately become a stakeholder in the Parkinson’s disease community, and through this breakthrough, we are making possible new paradigms for better clinical care, including earlier screening and diagnosis, targeted treatments, and faster, cheaper drug development,” said John Huemoeller, CEO, AXIM (above), in a news release. Patients benefit from non-invasive clinical laboratory testing. (Photo copyright: AXIM Biotechnologies.)
Fast POC Test versus Schirmer Strip
AXIM said it moved forward with its novel a-synuclein test propelled by earlier tear-related research that found “a-synuclein in its aggregated form can be detected in tears,” Inside Precision Medicine reported.
But that research used what AXIM called the “outdated” Schirmer Strip method to collect tears. The technique involves freezing tear samples at -80 degrees Celsius (-112 Fahrenheit), then sending them to a clinical laboratory for centrifugation for 30 minutes; quantifying tear protein content with a bicinchoninic acid assay, and detecting a-synuclein using a plate reader, AXIM explained.
Alternatively, AXIM says its new test may be performed in doctors’ offices and offers “quantitative results delivered from a reader in less than 10 minutes.”
“Our proven expertise in developing tear-based diagnostic tests has led to the development of this test in record speed, and I’m extremely proud of our scientific team for their ability to expand our science to focus on such an important focus area as Parkinson’s,” said John Huemoeller, CEO, AXIM in the news release.
“This is just the beginning for AXIM in this arena,” he added. “But I am convinced when pharmaceutical companies, foundations, and neurologists see how our solution can better help diagnose Parkinson’s disease in such an expedited and affordable way, we will be at the forefront of PD research, enabling both researchers and clinicians a brand-new tool in the fight against PD.”
One of those tests was “a lateral flow diagnostic for point-of-care use that measures the level of lactoferrin proteins in tear fluid, which work to protect the surface of the eye. … Axim said that low lactoferrin levels have also been linked to Parkinson’s disease and that the assay can be used alongside its alpha-synuclein test,” Fierce Biotech noted.
“It made sense to try and look at the proteinaceous [consisting of or containing protein] constituents of tear fluid,” Lew told Neurology Live. “Tear fluid is easy to collect. It’s noninvasive, inexpensive. It’s not like when you do a lumbar puncture, which is a much more involved ordeal. There’s risk of contamination with blood (saliva is dirty) issues with blood and collection. [Tear fluid analysis] is much safer and less expensive to do.”
In Biomarkers in Medicine, Lew et al noted why tears make good biomarkers for Parkinson’s disease, including “the interconnections between the ocular [eye] surface system and neurons affected in Parkinson’s disease.”
The researchers also highlighted “recent data on the identification of tear biomarkers including oligomeric α-synuclein, associated with neuronal degeneration in PD, in tears of PD patients” and discussed “possible sources for its release into tears.”
Future Clinical Laboratory Testing for Parkinson’s
Parkinson’s disease is the second most common neurodegenerative disorder after Alzheimer’s. It affects nearly one million people in the US. About 1.2 million people may have it by 2030, according to the Parkinson’s Foundation.
Thus, an accurate, inexpensive, non-invasive diagnostic test that can be performed at the point of care, and which returns clinical laboratory test results in less than 10 minutes, will be a boon to physicians who treat PD patients worldwide.
Clinical laboratory managers and pathologists may want to follow AXIM’s future research to see when the diagnostic test may become available for clinical use.