Dietary Saturated Fatty Acids and Brain Function

The degree to which fatty acids modulate brain function beyond periods of rapid brain growth is poorly understood. Nevertheless, recent evidence suggests that dietary fatty acid composition influences numerous behaviors including body temperature regulation, pain sensitivity, feeding behavior including macronutrient selection, and cognitive performance. Importantly, alterations are observed in the absence of essential fatty acid (EFA) deficiency, beyond periods of rapid brain development, and at levels similar to those consumed by the North American population. Data suggest that the content of saturated fatty acids (SFAs), and not that of the EFAs, may be the important component of dietary fat mediating macronutrient selection and cognition under these experimental conditions. Yet, a direct role of SFAs in modulating brain functions has not been elucidated. A discussion of potential mechanisms which may directly involve the central nervous system, or may indirectly influence central processes via peripheral pathway(s) is presented.     

Hypertension associated with neurocognitive performance among persons with type 2 diabetes: a brief report

Background Among persons with type 2 diabetes (T2DM) it is not known whether the presence of hypertension could have a detrimental effect on learning ability and whether repeated exposure to information changes the amount of information retained. The aim of this study was to determine cross-sectional evidence for a differential burden to cognitive functioning among persons with T2DM and comorbid hypertension (HTN).Methods This study performed a cross-sectional, retrospective analysis, by medical chart review, of patients with a diagnosis of T2DM.Results Medical records information for history of HTN, age, gender and cognitive performance scores were recorded and analysed for 112 T2DM patients, with an average age of 60 years (SD = 13.84). Differences in cognitive performance scores were compared between patients with and without a history of HTN. The results show that participants who were diagnosed with hypertension produced lower average Rey Auditory–Verbal Learning Test scores than individuals who are not diagnosed with hypertension. Trial 2 was the only trial to prove significant with a P-value of 0.041.Conclusions Our results support previous studies showing that HTN is associated with increased risk to learning and memory functioning, although the degree of interference with these cognitive functions could not be determined from our research. Recognising that people diagnosed with HTN may be at risk for poorer learning and memory skills, future research can investigate how the length of time with the diseases affects learning and memory, and how medication management can attenuate cognitive learning and memory performance.     

脂肪因子在糖尿病认知功能障碍中的调控作用及运动干预机制

糖尿病认知功能障碍指糖尿病患者伴有认知功能损伤，是一种常见的糖尿病并发症，尤其高发于老年2型糖尿病患者。研究表明，脂肪组织分泌的细胞因子，如脂联素（adiponectin,APN）和瘦素（leptin,LEP）等不仅能够调节能量代谢，还与糖尿病认知功能障碍的发生发展密切相关，可能作为糖尿病相关认知功能障碍的生物标志物。APN和LEP能够穿过血脑屏障进入大脑，通过结合神经元或神经胶质细胞（如小胶质细胞和星形胶质细胞）上的受体，激活或抑制胞内下游的p38 MAPK、AMPK、ERK、JAK2/STAT3、PI3K/AKT和SIRT1/PGC-1α等信号通路，调节海马神经发生、突触可塑性、神经炎症、氧化应激和神经元凋亡等生理进程，进而调控认知功能。重要的是，APN和LEP还可能作为运动改善糖尿病认知功能障碍的重要介质。通过剖析APN和LEP与糖尿病认知功能障碍之间的关系，梳理APN和LEP调控认知功能的潜在生物学机制，探讨运动介导APN和LEP改善糖尿病认知功能障碍的可能机制，旨在为进一步丰富“脂-脑”crosstalk理论体系，制定并完善糖尿病认知功能障碍的诊疗策略开拓思路。     

Peripheral inflammatory biomarkers are associated with cognitive function and dementia: Framingham Heart Study Offspring cohort

Inflammatory protein biomarkers induced by immune responses have been associated with cognitive decline and the pathogenesis of Alzheimer's disease (AD). Here, we investigate associations between a panel of inflammatory biomarkers and cognitive function and incident dementia outcomes in the well-characterized Framingham Heart Study Offspring cohort. Participants aged ≥40 years and dementia-free at Exam 7 who had a stored plasma sample were selected for profiling using the OLINK proteomics inflammation panel. Cross-sectional associations of the biomarkers with cognitive domain scores (N = 708, 53% female, 22% apolipoprotein E (APOE) ε4 carriers, 15% APOE ε2 carriers, mean age 61) and incident all-cause and AD dementia during up to 20 years of follow-up were tested. APOE genotype-stratified analyses were performed to explore effect modification. Higher levels of 12 and 3 proteins were associated with worse executive function and language domain factor scores, respectively. Several proteins were associated with more than one cognitive domain, including IL10, LIF-R, TWEAK, CCL19, IL-17C, MCP-4, and TGF-alpha. Stratified analyses suggested differential effects between APOE ε2 and ε4 carriers: most ε4 carrier associations were with executive function and memory domains, whereas most ε2 associations were with the visuospatial domain. Higher levels of TNFB and CDCP1 were associated with higher risks of incident all-cause and AD dementia. Our study found that TWEAK concentration was associated both with cognitive function and risks for AD dementia. The association of these inflammatory biomarkers with cognitive function and incident dementia may contribute to the discovery of therapeutic interventions for the prevention and treatment of cognitive decline.     

Orexin deficiency modulates cognitive flexibility in a sex-dependent manner

Cognitive flexibility is an important executive function and refers to the ability to adapt behaviors in response to changes in the environment. Of note, many brain disorders are associated with impairments in cognitive flexibility. Several classical neurotransmitter systems including dopamine, acetylcholine and noradrenaline are shown to be important for cognitive flexibility, however, there is not much known about the role of neuropeptides. The neuropeptide orexin, which is brain-widely released by neurons in the lateral hypothalamus, is a major player in maintaining sleep/wake cycle, feeding behavior, arousal, and motivational behavior. Recent studies showed a role of orexin in attention, cognition and stress-induced attenuation of cognitive flexibility by disrupting orexin signaling locally or systemically. However, it is not known so far whether brain-wide reduction or loss of orexin affects cognitive flexibility. We investigated this question by testing male and female orexin-deficient mice in the attentional set shifting task (ASST), an established paradigm of cognitive flexibility. We found that orexin deficiency impaired the intra-dimensional shift phase of the ASST selectively in female homozygous orexin-deficient mice and improved the first reversal learning phase selectively in male homozygous orexin-deficient mice. We also found that these orexin-mediated sex-based modulations of cognitive flexibility were not correlated with trait anxiety, narcoleptic episodes, and reward consumption. Our findings highlight a sexually dimorphic role of orexin in regulating cognitive flexibility and the need for further investigations of sex-specific functions of the orexin circuitry.     

Sharp wave/ripple network oscillations and learning-associated hippocampal maps

Sharp wave/ripple (SWR, 150–250 Hz) hippocampal events have long been postulated to be involved in memory consolidation. However, more recent work has investigated SWRs that occur during active waking behaviour: findings that suggest that SWRs may also play a role in cell assembly strengthening or spatial working memory. Do such theories of SWR function apply to animal learning? This review discusses how general theories linking SWRs to memory-related function may explain circuit mechanisms related to rodent spatial learning and to the associated stabilization of new cognitive maps.     

Hidden talents: Poly (I:C)-induced maternal immune activation improves mouse visual discrimination performance and reversal learning in a sex-dependent manner

While there is a strong focus on the negative consequences of maternal immune activation (MIA) on developing brains, very little attention is directed towards potential advantages of early life challenges. In this study, we utilized a polyinosine-polycytidylic acid (poly(I:C)) MIA model to test visual pairwise discrimination (PD) and reversal learning (RL) in mice using touchscreen technology. Significant sex differences emerged in that MIA reduced the latency for males to make a correct choice in the PD task while females reached criterion sooner, made fewer errors, and utilized fewer correction trials in RL compared to saline controls. These surprising improvements were accompanied by the sex-specific upregulation of several genes critical to cognitive functioning, indicative of compensatory plasticity in response to MIA. In contrast, when exposed to a 'two-hit' stress model (MIA + loss of the social component of environmental enrichment [EE]), mice did not display anhedonia but required an increased number of PD and RL correction trials. These animals also had significant reductions of CamK2a mRNA in the prefrontal cortex. Appropriate functioning of synaptic plasticity, via mediators such as this protein kinase and others, are critical for behavioral flexibility. Although EE has been implicated in, delaying the appearance of symptoms associated with certain brain disorders, these findings are in line with evidence that it also makes individuals more vulnerable to its loss. Overall, with the right 'dose', early life stress exposure can confer at least some functional advantages, which are lost when the number or magnitude of these exposures become too great.     

Autonomy and the limits of cognitive enhancement

In the debates regarding the ethics of human enhancement, proponents have found it difficult to refute the concern, voiced by certain bioconservatives, that cognitive enhancement violates the autonomy of the enhanced. However, G. Owen Schaefer, Guy Kahane and Julian Savulescu have attempted not only to avoid autonomy‐based bioconservative objections, but to argue that cognition‐enhancing biomedical interventions can actually enhance autonomy. In response, this paper has two aims: firstly, to explore the limits of their argument; secondly, and more importantly, to develop a more complete understanding of autonomy and its relation to cognitive enhancement. By drawing a distinction between the capacity for autonomy and the exercise and achievement of autonomy, and by exploring the possible effects of cognitive enhancement on both competence and authenticity conditions for autonomy, the paper identifies and explains which dimensions of autonomy can and cannot, in principle, be enhanced via direct cognitive interventions. This allows us to draw conclusions regarding the limits of cognitive enhancement as a means for enhancing autonomy.     

Insect responses to plant water deficits. II. Effect of water deficits in soybean plants on the growth and survival of Mexican bean beetle larvae

Abstract. 1. We examined the effect of water deficits in soybean, Glycine max [L.] Merr., on the growth and survival of Mexican bean beetle larvae, Epilachna varivestis Mulsant (Coleoptera: Coccinellidae).
2. Larvae were reared under growth chamber, glasshouse, and field conditions on foliage from plants that were either well-watered or subjected to water deficits.
3. Larval survival, growth rate and pupal weight were reduced, and development time was increased when larvae were reared on foliage from plants subjected to water deficits. These results are contrary to White's (1974) hypothesis that water deficits in plants cause increased growth and survival of herbivorous insects.
4. Changes in foliage chemistry caused by water deficits, possibly in the concentration of free amino acids, are the most likely causes of the observed effects on growth rate and development time. However, under glasshouse and field conditions, physical changes in foliage and/or the foliage's environment that accompany water deficits are also important.