Repeated infusion of autologous adipose tissue-derived stem cells for Parkinson's disease.

BACKGROUND: Mesenchymal stem cells are expected to have a therapeutic effect on progressive neurodegenerative diseases for which there is currently no fundamental treatment. AIMS OF THE STUDY: The aim is to confirm that repeated infusion of autologous adipose tissue-derived stem cells (ADSCs) can be safely administered to patients with Parkinson's disease, and to investigate the effects of this as a pilot study. METHODS: Three patients with Parkinson's disease received five or six repeated infusions of ADSCs at intervals of approximately one month. Observations were based on medical examinations by a neurologist and interviews with the patient and caregivers. The severity of Parkinson's disease was assessed using the Hoehn & Yahr staging scale and Movement Disorder Society Unified Parkinson's Disease Rating Scale (MDS-UPDRS). RESULTS: No adverse events were observed during the observation period from the start of treatment to six months after the end of the last dose. MDS-UPDRS improved in all three patients. CONCLUSIONS: Repeated administration of Autologous ADSCs for Parkinson's disease was safe and feasible. The results of this pilot study provide insight into the value of further research.

"Evaluation of neprilysin activity in Adipose-Derived stem cells from Alzheimer's disease patients".

INTRODUCTION: The antibody drugs targeting ß-amyloid in Alzheimer's disease pose risks of inflammation and vascular damage. It is known that neprilysin, an endogenous enzyme responsible for ß-amyloid degradation, is reduced in areas with ß-amyloid deposition. Supplementation of neprilysin could potentially contribute to Alzheimer's disease treatment. When considering the use of adipose tissue-derived stem cells (ADSCs) for Alzheimer's disease therapy, it is crucial to ensure that Alzheimer's disease patient-derived ADSCs maintain neprilysin activity. If so, the use of autologous ADSCs may lead to a treatment with minimal risks of rejection or infection. Therefore, we investigated the neprilysin activity in Alzheimer's disease patient-derived adipose tissue-derived stem cells to assess their potential in Alzheimer's disease treatment. METHODS: Five Alzheimer's disease patients (MSC1-5) and two Chronic Obstructive Pulmonary Disease (COPD) patients (MSC6-7) were enrolled. ADSCs were cultured for 6 days with varying seeding densities. On the 3rd day, the medium was replaced, and on the 6th day, ADSCs were harvested. Cells were stained for PE-Cy7 Mouse IgG1 κ Isotype control and PE-Cy Mouse Anti-Human CD10, and CD10 expression was assessed by flow cytometry. Ethical approval and informed consent were obtained. RESULTS: Neprilysin activity, crucial for ß-amyloid degradation, was assessed in ADSCs. Positivity rates for CD10 expression in ADSCs from Alzheimer's patients were consistently high: 99.6%, 99.5%, 99.9%, 99.3%, 99.8%, and 100.0%. Control ADSCs from COPD patients (MSC6-7) exhibited comparable positivity rates. Flow cytometry plots for all seven cases are presented in Figures 1-7. DISCUSSION: This study confirms the presence and maintenance of neprilysin activity in ADSCs from Alzheimer's disease patients. The high positivity rates for CD10 expression in these cells suggest that neprilysin, a key enzyme in ß-amyloid degradation, remains active. The implications are significant, as ADSCs offer immune-compatible and low infection risk advantages. The study underscores the potential of autologous ADSCs as a therapeutic approach in Alzheimer's disease. Their ability to naturally harbor neprilysin activity, coupled with their safety profile, makes them a promising candidate for further exploration. While acknowledging the need for larger, more diverse cohorts and long-term studies, these findings contribute to the growing body of evidence supporting the development of stem cell-based interventions in Alzheimer's disease treatment.

Hypothesis: Intravenous administration of mesenchymal stem cells is effective in the treatment of Alzheimer's disease.

We propose the intravenous administration of autologous adipose-derived stem cells as a new treatment for Alzheimer's disease. We hypothesize that the stem cells will secrete neprilysin in the brain to break down and remove amyloid deposits in the Alzheimer's brain. We have shown a case of skin amyloid deposition that disappeared after stem cell administration and confirmed that the stem cells administered had neprilysin activity. In addition to neprilysin secretion, other mechanisms of action of stem cells include nerve regeneration, nerve repair, growth factor secretion, anti-inflammatory effects, and angiogenesis. The harvesting of adipose-derived stem cells is minimally invasive, and intravenous administration can be safely repeated. We hope that the efficacy of this new treatment will be verified and that it will bring a ray of hope to patients suffering from this incurable disease.