This is where we will share the latest scientific papers on all things NA. The papers below were published in 2021.
Sleep Disorders in McLeod Syndrome
For a limited time (October 3, 2022), we have full access to this article published in the journal Parkinsonism and Related Disorders via this link:
Neuropathology of McLeod Syndrome
Background. McLeod syndrome (MLS) is a rare (prevalence: <1/100,000), slowly progressive, X-linked recessive subtype
of neuroacanthocytosis with mean age at onset of 47 years. Penetrance is high and may be complete after age 60 years. Individuals with MLS show an Xp21-linked Kell blood group variant (depressed Kell erythrocyte antigens including the erythrocyte membrane protein Kx) caused by an XK gene mutation. Neurological features include chorea, involuntary tongue
movements, dysarthria, dysphagia, dystonia, motor/vocal tics, cognitive impairment, neuropsychological disturbances (attention, memory, frontal lobe deficits), axonal sensorimotor neuropathy, myopathy, seizures, and biting of lips/tongue.
Cardiac manifestations and hepatosplenomegaly occur.
We describe two male siblings (61 and 63 years old) who presented with generalized chorea since their early twenties, sensory loss, areflexia, depression, anxiety, seizures, mild personality changes, and, since their mid-40s, cognitive impairment. Distal muscle weakness occurred in the older brother. Acanthocytes were detected. The XK mutation IVS2-2A>G was identified (younger brother).
Authors: Deutschländer, Angela B., Dickson, Dennis W., Wszolek, Zbigniew K. Neuropathology of McLeod Syndrome. Movement Disorders. 2021. https://doi.org/10.1002/mds.28882
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Three new XK alleles; two associated with a McLeod RBC phenotype
Background. The Kx antigen is the product of the XK gene on the X chro- mosome and the only known antigen in the XK blood group system.1 The Kx and Kell proteins are covalently linked on the red blood cells (RBC) membrane, and changes in the XK gene that abolish expression of Kx antigen are associated with very weak expression of Kell system antigens, known as the McLeod phenotype, found almost exclusively in males. The phenotype may be fortuitously detected when screening healthy blood donors.2 Importantly, XK null and missense mutations can cause the McLeod syndrome which is associated with acanthocytes, a late onset of neurological impairment, chorea-like disease, cardiomyopathy, and various degrees of muscular atrophy.1,3 Large deletions in the X chromosome can also cause McLeod syndrome, X-linked Chronic Granulomatous Disorder, and the contiguous gene deletion syndrome.4,5 Here, we report the molecular basis of the McLeod phenotype in a healthy male blood donor found by random screening for depressed Kell expression, a patient referred for a family history of a McLeod phenotype, and a patient referred for testing as part of a neurological workup.
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Therapeutic targeting of Lyn kinase to treat chorea-acanthocytosis
Abstract. Chorea-Acanthocytosis (ChAc) is a devastating, little understood, and currently untreatable neurodegenerative disease caused by VPS13A mutations. Based on our recent demonstration that accumulation of activated Lyn tyrosine kinase is a key pathophysiological event in human ChAc cells, we took advantage of Vps13a−/− mice, which phenocopied human ChAc. Using proteomic approach, we found accumulation of active Lyn, γ-synuclein and phospho-tau proteins in Vps13a−/− basal ganglia secondary to impaired autophagy leading to neuroinflammation. Mice double knockout Vps13a−/− Lyn−/− showed normalization of red cell morphology and improvement of autophagy in basal ganglia. We then in vivo tested pharmacologic inhibitors of Lyn: dasatinib and nilotinib. Dasatinib failed to cross the mouse brain blood barrier (BBB), but the more specific Lyn kinase inhibitor nilotinib, crosses the BBB. Nilotinib ameliorates both Vps13a−/− hematological and neurological phenotypes, improving autophagy and preventing neuroinflammation. Our data support the proposal to repurpose nilotinib as new therapeutic option for ChAc patients.
Authors: Peikert K*, Federti E*, Matte A, Constantin G, Pietronigro EC, Fabene PF, Defilippi P, Turco E, Del Gallo F, Pucci P, Amoresano A, Illiano A, Cozzolino F, Monti M, Garello F, Terreno E, Alper SL, Glaß H, Pelzl L, Akgün K, Ziemssen T, Ordemann R, Lang F, Brunati AM, Tibaldi E, Andolfo I, Iolascon A, Bertini G, Buffelli M, Zancanaro C, Lorenzetto E, Siciliano A, Bonifacio M, Danek A, Walker RH, Hermann A*, De Franceschi L*.https://doi:10.1186/s40478-021-01181-y
Targeting Lyn Kinase in Chorea-Acanthocytosis: A Translational Treatment Approach in a Rare Disease
Abstract:Chorea-acanthocytosis (ChAc) is a neurodegenerative disease caused by mutations in the VPS13A gene. It is characterized by several neurological symptoms and the appearance of acanthocytes. Elevated tyrosine kinase Lyn activity has been recently identified as one of the key pathophysiological mechanisms in this disease, and therefore represents a promising drug target. Methods: We evaluated an individual off-label treatment with the tyrosine kinase inhibitor dasatinib (100 mg/d, 25.8–50.4 weeks) of three ChAc patients. Alongside thorough safety monitoring, we assessed motor and non-motor scales (e.g., MDS-UPDRS, UHDRS, quality of life) as well as routine and experimental laboratory parameters (e.g., serum neurofilament, Lyn kinase activity, actin cytoskeleton in red blood cells). Results: Dasatinib appeared to be reasonably safe. The clinical parameters remained stable without significant improvement or deterioration. Regain of deep tendon reflexes was observed in one patient. Creatine kinase, serum neurofilament levels, and acanthocyte count did not reveal consistent effects. However, a reduction of initially elevated Lyn kinase activity and accumulated autophagy markers, as well as a partial restoration of the actin cytoskeleton, was found in red blood cells. Conclusions: We report on the first treatment approach with disease-modifying intention in ChAc. The experimental parameters indicate target engagement in red blood cells, while clinical effects on the central nervous system could not be proven within a rather short treatment time. Limited knowledge on the natural history of ChAc and the lack of appropriate biomarkers remain major barriers for “clinical trial readiness”. We suggest a panel of outcome parameters for future clinical trials in ChAc.
Authors: Peikert K, Glaß H, Federti E, Matte A, Pelzl L, Akgün K, Ziemssen T, Ordemann R, Lang F. The Network for Translational Research for Neuroacanthocytosis Patients, De Franceschi L*, Hermann A*. May 2021. Journal of Personalized Medicine 11(5):392.https://doi.org/10.3390/jpm11050392
The Erythrocyte Sedimentation Rate and Its Relation to Cell Shape and Rigidity of Red Blood Cells from Chorea-Acanthocytosis Patients in an Off-Label Treatment with Dasatinib
Abstract:Background: Chorea-acanthocytosis (ChAc) is a rare hereditary neurodegenerative disease with deformed red blood cells (RBCs), so-called acanthocytes, as a typical marker of the disease. Erythrocyte sedimentation rate (ESR) was recently proposed as a diagnostic biomarker. To date, there is no treatment option for affected patients, but promising therapy candidates, such as dasatinib, a Lyn-kinase inhibitor, have been identified. Methods: RBCs of two ChAc patients during and after dasatinib treatment were characterized by the ESR, clinical hematology parameters and the 3D shape classification in stasis based on an artificial neural network. Furthermore, mathematical modeling was performed to understand the contribution of cell morphology and cell rigidity to the ESR. Microfluidic measurements were used to compare the RBC rigidity between ChAc patients and healthy controls. Results: The mechano-morphological characterization of RBCs from two ChAc patients in an off-label treatment with dasatinib revealed differences in the ESR and the acanthocyte count during and after the treatment period, which could not directly be related to each other. Clinical hematology parameters were in the normal range. Mathematical modeling indicated that RBC rigidity is more important for delayed ESR than cell shape. Microfluidic experiments confirmed a higher rigidity in the normocytes of ChAc patients compared to healthy controls. Conclusions: The results increase our understanding of the role of acanthocytes and their associated properties in the ESR, but the data are too sparse to answer the question of whether the ESR is a suitable biomarker for treatment success, whereas a correlation between hematological and neuronal phenotype is still subject to verification.
Authors: Rabe A*, Kihm A*, Darras A*, Peikert K*, Simionato G*, Dasanna AK*, Glaß H, Geisel J, Quint S, Danek A, Wagner C, Fedosov DA, Hermann A, Kaestner L. May 2021. Biomolecules 11(5):727. https://doi.org/10.3390/biom11050727.
Acanthocyte Sedimentation Rate as a Diagnostic Biomarker for Neuroacanthocytosis Syndromes: Experimental Evidence and Physical Justification
Abstract:(1) Background: Chorea-acanthocytosis and McLeod syndrome are the core diseases among the group of rare neurodegenerative disorders called neuroacanthocytosis syndromes (NASs). NAS patients have a variable number of irregularly spiky erythrocytes, so-called acanthocytes. Their detection is a crucial but error-prone parameter in the diagnosis of NASs, often leading to misdiagnoses. (2) Methods: We measured the standard Westergren erythrocyte sedimentation rate (ESR) of various blood samples from NAS patients and healthy controls. Furthermore, we manipulated the ESR by swapping the erythrocytes and plasma of different individuals, as well as replacing plasma with dextran. These measurements were complemented by clinical laboratory data and single-cell adhesion force measurements. Additionally, we followed theoretical modeling approaches. (3) Results: We show that the acanthocyte sedimentation rate (ASR) with a two-hour read-out is significantly prolonged in chorea-acanthocytosis and McLeod syndrome without overlap compared to the ESR of the controls. Mechanistically, through modern colloidal physics, we show that acanthocyte aggregation and plasma fibrinogen levels slow down the sedimentation. Moreover, the inverse of ASR correlates with the number of acanthocytes (R2=0.61, p=0.004). (4) Conclusions: The ASR/ESR is a clear, robust and easily obtainable diagnostic marker. Independently of NASs, we also regard this study as a hallmark of the physical view of erythrocyte sedimentation by describing anticoagulated blood in stasis as a percolating gel, allowing the application of colloidal physics theory.
Authors: Darras A*, Peikert K*, Rabe A, Yaya F, Simionato G, John T, Dasanna AK, Buvalyy S, Geisel J, Hermann A, Fedosov DA, Danek A, Wagner C, Kaestner L. April 2021. Cells 10(4):788. https://doi.org/10.3390/cells10040788.