Working memory PCI-32765 mw processes are closely interrelated to attentional processes as attention permits information to be further stored and processed in working memory. Attentional processes are reflected by the visual N1 event-related potential (ERP)-component. The visual N1 may reflect effects of attention on sensory processing or an integrated process of perception and attention. The visual N1 is an exogenous potential that is modulated by attentional processes modifying the magnitude of neural responses to incoming information. Beste et al.
[136] examined the association of the TNF-α rs1800629 polymorphism with attention and mental rotation performance in an event-related potential (ERP) study in healthy participants. The results show that carriers of rs1800629 A-allele display elevated attentional processes as compared to the GG genotype group. Carriers of the rs1800629 A allele performed CHIR-99021 solubility dmso better than the GG genotype group. The finding of enhanced attentional and mental rotation performance in A-allele carriers supports recent findings that the A-allele of this SNP enhances cognitive performance on a general measure of cognitive processing speed. Interferon-alpha increases
the expression of TNF-α. During interferon-alpha therapy in psychiatric symptoms, TNF-α polymorphism played a role in susceptibility to this disorder. Recently role of TNF-α rs1800629 polymorphism in labile anger and depression was investigated by Lotrich et al. [137]. A-allele of rs1800629 was associated with worsened labile anger and fatigue during treatment but not with major depression incidence or increased Beck Depression Inventory IMP dehydrogenase II. Labile anger was not predicted by the serotonin transporter polymorphism. During treatment with an exogenous cytokine, vulnerability to worsening labile anger distinct from major depression is associated with genetic variability in TNF-α. Tumour necrosis factor-alpha has been reported to play a role in neuropathic pain. Leung and Cahill [138] described the role of TNF-α in neuropathic pain. Neuropathic pain is pathological pain where nociceptive responses
persist beyond the resolution of damage to the nerve or its surrounding tissue. Animal models of neuropathic pain based on various types of nerve injuries have persistently implicated a pivotal role for TNF-α at both peripheral and central levels of sensitization. Achrol et al. [139] identified SNPs associated with increased risk of new intracranial haemorrhage (ICH) after brain arteriovenous malformation (BAVM). Achrol et al. [125] investigated four promoter SNPs in interleukin-6 and tumour necrosis factor (rs1800629, rs361525). An association has been found between TNF-α rs361525 polymorphism and increased risk of new ICH after diagnosis. The patients with TNF-α rs361525 AG genotype had increased risk of new ICH. No other SNP was found to be associated with new ICH. Genetic factors play role in endometriosis [5, 140].