Acanthocytes Identified in Huntington’s Disease

Clinical Features and Novel Pathogenic Variants of Chinese Patients With McLeod Syndrome and Chorea-Acanthocytosis

BACKGROUND

McLeod syndrome (MLS) and chorea-acanthocytosis (ChAc) are exceedingly rare diseases characterized by a variety of movement disorders including chorea, dystonia, and Parkinsonism. Genetic analysis plays a key role in early and accurate diagnosis, but relevant variants are still under investigation. This study aims to explore new pathogenic variants in Chinese patients with MLS and ChAc and to conduct a comprehensive analysis of the clinical heterogeneity among these patients.

METHODS

Eighteen Chinese patients who presented with choreatic movements with negative HTT genetic testing were identified and underwent targeted next-generation sequencing, verified by Sanger sequencing.

RESULTS

Two novel XK variants (c.970A>T, c.422_423del) were identified in three index MLS patients and six novel VPS13A variants (c.9219C>A, c.3467T>A, c.4208dup, c.9243_9246del, c.5364del, c.556-290_697-483del) in five index ChAc patients. One copy number variant of VPS13A (g.79827595_79828762del/c.556-290_697-483del) was firstly described in Chinese population.

CONCLUSION

As the currently largest descriptive study of MLS and ChAc patients in China, this study expands on the clinical and genetic spectrum of XK and VPS13A, contributing to the clinical diagnosis of MLS and ChAc.

Hyaluronic acid impacts hematological endpoints and spleen histological features in African catfish (Clarias gariepinus)

Since its identification in the vitreous humour of the eye and laboratory biosynthesis, hyaluronic acid (HA) has been a vital component in several pharmaceutical, nutritional, medicinal, and cosmetic uses. However, little is known about its potential toxicological impacts on aquatic inhabitants. Herein, we investigated the hematological response of Clarias gariepinus to nominal doses of HA. To achieve this objective, 72 adult fish were randomly and evenly distributed into four groups: control, low-dose (0.5 mg/l HA), medium-dose (10 mg/l HA), and high-dose (100 mg/l HA) groups for two weeks each during both the exposure and recovery periods. The findings confirmed presence of anemia, neutrophilia, leucopoenia, lymphopenia, and eosinophilia at the end of exposure to HA. In addition, poikilocytosis and a variety of cytomorphological disturbances were observed. Dose-dependent histological alterations in spleen morphology were observed in the exposed groups. After HA removal from the aquarium for 2 weeks, the groups exposed to the two highest doses still exhibited a notable decline in red blood cell count, hemoglobin concentration, mean corpuscular hemoglobin concentration, and an increase in mean corpuscular volume. Additionally, there was a significant rise in neutrophils, eosinophils, cell alterations, and nuclear abnormalities percentages, along with a decrease in monocytes, coupled with a dose-dependent decrease in lymphocytes. Furthermore, only the highest dose of HA in the recovered groups continued to cause a significant increase in white blood cells. White blood cells remained lower, and the proportion of apoptotic RBCs remained higher in the high-dose group. The persistence of most of the haematological and histological disorders even after recovery period indicates a failure of physiological compensatory mechanisms to overcome the HA-associated problems or insufficient duration of recovery. Thus, these findings encourage the inclusion of this new hazardous agent in the biomonitoring program and provide a specific pattern of hematological profile in HA-challenged fish. Further experiments are highly warranted to explore other toxicological hazards of HA using dose/time window protocols.