Mitochondrial DNA variants modulate genetic susceptibility to Parkinson's disease in Han Chinese.

It is well recognized that mitochondrial dysfunction is involved in the pathogenesis of Parkinson's disease (PD). The mtDNA displacement loop (D-loop) region is known to accumulate structural alterations and mutations. To understand how mtDNA variants contribute to the susceptibility to sporadic PD in Chinese, a total of 500 PD patients and 505 controls were recruited from East China, and their D-loop regions were sequenced. A total of 389 variants were detected out of the 1005 subjects. There were 91 variants with frequencies >1%, which included 88 single nucleotide polymorphisms (SNPs), 2 deletions and 1 insertion. Amongst, 6 SNPs were significantly associated with sporadic PD. Specifically, the SNPs 151T/C, 189G/A, 16086C/T and 16271C/T contributed to increased susceptibility, while 318C/T and 16134T/C were associated with reduced risk for PD. Further analyses of mtDNA haplogroups and their risk for PD occurrence showed that subjects carrying haplogroup A5 were susceptible while haplogroup B5 carriers were more resistant to the disease. In summary, our study for the first time systematically analyzed mtDNA variants by sequencing the D-loop region in a Chinese population to understand their associations with PD. These results demonstrate that mtDNA variants modulate risk for sporadic PD.

Arsenic induces transgenerational behavior disorders in Caenorhabditis elegans and its underlying mechanisms.

The present study aimed to identify the effects of arsenic on behaviors in Caenorhabditis elegans (C. elegans) and the transgenerational effects. The synchronized C. elegans (P generation) were exposed to 0, 0.2, 1.0, and 5.0 mM NaAsO2 and the subsequent generations (F1 and F2) were maintained on fresh nematode growth medium (NGM). The behaviors and growth were recorded at 0, 12, 24, 36, 48, 60, and 72 h post synchronization. The results demonstrated that arsenic affected various indicators regarding the behavior (head thrash, body bend, movement speed, wavelength, amplitude and so on) and in general the effects started to accumulate from 24 h and lasted throughout the exposure. The behavior impairments were transgenerational with varying patterns, amongst the head thrash and body bend responded most sensitively though the responses gradually declined across generations. Arsenic exposure inhibited the growth (body length, body width, and body area) in P C. elegans from 24 h to 60 h, however there was no difference between treatments groups and the control at 72 h. Arsenic led to a dose-dependent degeneration of dopaminergic neurons in C. elegans, and inhibition of BAS-1 and CAT-2 expressions. The expressions of GCS-1, GSS-1, and SKN-1 were induced by arsenic exposure. Overall, chronic arsenic exposure impaired the behaviors and there were transgenerational effects. The head thrash and body bend responded most sensitively. Arsenic induced behavioral disorders might be attributed to degeneration of dopaminergic neurons which was associated with oxidative stress.