Kevin Peikert1, Andreas Hermann1,2,3, Adrian Danek4. 1. Translational Neurodegeneration Section "Albrecht Kossel", Department of Neurology, University Medical Center Rostock, University of Rostock, Rostock, Germany. 2. DZNE, German Center for Neurodegenerative Diseases, Research Site Rostock/Greifswald, Rostock, Germany. 3. Center for Transdisciplinary Neurosciences Rostock (CTNR), University Medical Center Rostock, University of Rostock, Rostock, Germany. 4. Neurologische Klinik und Poliklinik, Ludwig-Maximilians-Universität, Munich, Germany.
Abstract
BACKGROUND: McLeod syndrome (MLS) is an X-linked multisystemic progressive disorder caused by loss of function mutations in the XK gene. The rare blood group phenotype of MLS patients with absent Kx antigen requires the support of specialized transfusion institutions because of the risk of transfusion complications. Acanthocytosis of red blood cells occurs in almost all patients. Nonhematological manifestations of MLS are very similar to those of VPS13A disease (chorea-acanthocytosis), an autosomal-recessive condition. Their shared phenotype apart from acanthocytosis includes movement disorders such as chorea and dystonia, epilepsy, peripheral neuropathy, and muscle involvement, typically with creatine kinase (CK) elevation, cardiomyopathy included. SUMMARY: In this review, we describe the nonhematological manifestations of MLS in comparison with those of VPS13A disease. While there are many similarities, differences such as mode of inheritance, sex distribution, age at manifestation, severity of heart involvement, frequency of feeding dystonia or of involuntary head drops may help to distinguish these disorders in the clinic. Immunohematological demonstration of the McLeod-Kell phenotype or detection of pathogenic mutations of XK (or VPS13A, respectively) is the gold standard for distinction. "Neuroacanthocytosis" was often used as an overarching term, but is potentially misleading, as the term does not refer to a defined disease entity. Its use, if continued, must not prevent clinicians to seek a final diagnosis on the basis of molecular findings. The clinical similarity of MLS and VPS13A disease has long suggested some shared pathophysiology. Evidence for molecular interaction between XK, the McLeod protein, and chorein, the VPS13A gene product, has recently been put forward: XK forms a complex with chorein/VPS13A, a bulk lipid transporter located at various membrane contact sites. The exact role of XK in this complex needs to be further elucidated. Impairment of bulk lipid transport appears as the common denominator of both MLS and VPS13A disease. A variety of further conditions may in time be added to the "bulk lipid transport diseases," such as the recently recognized disorders caused by mutations in the VPS13B, VPS13C, and VPS13D genes. KEY MESSAGES: (1) Patients diagnosed with the rare red cell McLeod phenotype (McLeod syndrome, MLS) require interdisciplinary collaboration of transfusion medicine specialists, neurologists, and cardiologists for both their hematological and nonhematological disease manifestations. (2) The phenotypical similarity of MLS and VPS13A disease, often leading to either confusion or insufficient diagnostic depth (under the label of "neuroacanthocytosis"), is based on interaction of the respective proteins, XK and chorein, within the cellular machinery for bulk lipid transport. (3) Overall, the term "bulk lipid transport diseases" seems useful for further research on a group of conditions that may not only share pathophysiology, but may also share treatment approaches.
BACKGROUND: McLeod syndrome (MLS) is an X-linked multisystemic progressive disorder caused by loss of function mutations in the XK gene. The rare blood group phenotype of MLS patients with absent Kx antigen requires the support of specialized transfusion institutions because of the risk of transfusion complications. Acanthocytosis of red blood cells occurs in almost all patients. Nonhematological manifestations of MLS are very similar to those of VPS13A disease (chorea-acanthocytosis), an autosomal-recessive condition. Their shared phenotype apart from acanthocytosis includes movement disorders such as chorea and dystonia, epilepsy, peripheral neuropathy, and muscle involvement, typically with creatine kinase (CK) elevation, cardiomyopathy included. SUMMARY: In this review, we describe the nonhematological manifestations of MLS in comparison with those of VPS13A disease. While there are many similarities, differences such as mode of inheritance, sex distribution, age at manifestation, severity of heart involvement, frequency of feeding dystonia or of involuntary head drops may help to distinguish these disorders in the clinic. Immunohematological demonstration of the McLeod-Kell phenotype or detection of pathogenic mutations of XK (or VPS13A, respectively) is the gold standard for distinction. "Neuroacanthocytosis" was often used as an overarching term, but is potentially misleading, as the term does not refer to a defined disease entity. Its use, if continued, must not prevent clinicians to seek a final diagnosis on the basis of molecular findings. The clinical similarity of MLS and VPS13A disease has long suggested some shared pathophysiology. Evidence for molecular interaction between XK, the McLeod protein, and chorein, the VPS13A gene product, has recently been put forward: XK forms a complex with chorein/VPS13A, a bulk lipid transporter located at various membrane contact sites. The exact role of XK in this complex needs to be further elucidated. Impairment of bulk lipid transport appears as the common denominator of both MLS and VPS13A disease. A variety of further conditions may in time be added to the "bulk lipid transport diseases," such as the recently recognized disorders caused by mutations in the VPS13B, VPS13C, and VPS13D genes. KEY MESSAGES: (1) Patients diagnosed with the rare red cell McLeod phenotype (McLeod syndrome, MLS) require interdisciplinary collaboration of transfusion medicine specialists, neurologists, and cardiologists for both their hematological and nonhematological disease manifestations. (2) The phenotypical similarity of MLS and VPS13A disease, often leading to either confusion or insufficient diagnostic depth (under the label of "neuroacanthocytosis"), is based on interaction of the respective proteins, XK and chorein, within the cellular machinery for bulk lipid transport. (3) Overall, the term "bulk lipid transport diseases" seems useful for further research on a group of conditions that may not only share pathophysiology, but may also share treatment approaches.
Authors: Hans H Jung; Martin Hergersberg; Marco Vogt; Jens Pahnke; Valerie Treyer; Benno Röthlisberger; Spyros S Kollias; David Russo; Beat M Frey Journal: Transfusion Date: 2003-07 Impact factor: 3.157
Authors: L Rampoldi; C Dobson-Stone; J P Rubio; A Danek; R M Chalmers; N W Wood; C Verellen; X Ferrer; A Malandrini; G M Fabrizi; R Brown; J Vance; M Pericak-Vance; G Rudolf; S Carrè; E Alonso; M Manfredi; A H Németh; A P Monaco Journal: Nat Genet Date: 2001-06 Impact factor: 38.330
Authors: Kevin Peikert; Enrica Federti; Andreas Hermann; Lucia De Franceschi; Alessandro Matte; Gabriela Constantin; Enrica Caterina Pietronigro; Paolo Francesco Fabene; Paola Defilippi; Emilia Turco; Federico Del Gallo; Pietro Pucci; Angela Amoresano; Anna Illiano; Flora Cozzolino; Maria Monti; Francesca Garello; Enzo Terreno; Seth Leo Alper; Hannes Glaß; Lisann Pelzl; Katja Akgün; Tjalf Ziemssen; Rainer Ordemann; Florian Lang; Anna Maria Brunati; Elena Tibaldi; Immacolata Andolfo; Achille Iolascon; Giuseppe Bertini; Mario Buffelli; Carlo Zancanaro; Erika Lorenzetto; Angela Siciliano; Massimiliano Bonifacio; Adrian Danek; Ruth Helen Walker Journal: Acta Neuropathol Commun Date: 2021-05-03 Impact factor: 7.801
Authors: Suzanne Lesage; Valérie Drouet; Elisa Majounie; Vincent Deramecourt; Maxime Jacoupy; Aude Nicolas; Florence Cormier-Dequaire; Sidi Mohamed Hassoun; Claire Pujol; Sorana Ciura; Zoi Erpapazoglou; Tatiana Usenko; Claude-Alain Maurage; Mourad Sahbatou; Stefan Liebau; Jinhui Ding; Basar Bilgic; Murat Emre; Nihan Erginel-Unaltuna; Gamze Guven; François Tison; Christine Tranchant; Marie Vidailhet; Jean-Christophe Corvol; Paul Krack; Anne-Louise Leutenegger; Michael A Nalls; Dena G Hernandez; Peter Heutink; J Raphael Gibbs; John Hardy; Nicholas W Wood; Thomas Gasser; Alexandra Durr; Jean-François Deleuze; Meriem Tazir; Alain Destée; Ebba Lohmann; Edor Kabashi; Andrew Singleton; Olga Corti; Alexis Brice Journal: Am J Hum Genet Date: 2016-03-03 Impact factor: 11.025
Authors: Antonia Rabe; Alexander Kihm; Alexis Darras; Kevin Peikert; Greta Simionato; Anil Kumar Dasanna; Hannes Glaß; Jürgen Geisel; Stephan Quint; Adrian Danek; Christian Wagner; Dmitry A Fedosov; Andreas Hermann; Lars Kaestner Journal: Biomolecules Date: 2021-05-12
Authors: Steffen M Recktenwald; Marcelle G M Lopes; Stephana Peter; Sebastian Hof; Greta Simionato; Kevin Peikert; Andreas Hermann; Adrian Danek; Kai van Bentum; Hermann Eichler; Christian Wagner; Stephan Quint; Lars Kaestner Journal: Front Physiol Date: 2022-04-27 Impact factor: 4.755