Tit for Tat: Costly Punishment in Manifest Huntington's Disease.

OBJECTIVE: We aimed to investigate costly punishment in patients with Huntington's disease (HD). BACKGROUND: HD is an autosomal dominant neurodegenerative disease with motor, cognitive, and psychiatric symptoms. As neuropsychiatric abnormalities often precede motor symptoms, we wanted to assess whether costly punishment is part of the neuropsychological profile of patients with HD. METHODS: A total of 40 non-demented subjects were prospectively enrolled in this study with a between-subject design comparing manifest HD patients (n = 18) to healthy controls (HC; n = 22). All participants performed 8 rounds of a costly punishment task, in which money was shared unevenly in 5 rounds or in a fair manner in the remaining 3 rounds. Participants then had to decide whether they wanted to punish the trustee. Furthermore, all participants underwent neuropsychological background tasks. RESULTS: HD patients performed worse in the neuropsychological background tests compared to HC (all p values <0.05). Moreover, HD patients punished more often in fair (Wald χ2 = 5.03, p = 0.025) but not in unfair rounds (Wald χ2 = 1.63, p = 0.202). CONCLUSIONS: Our results demonstrate increased costly punishment during fair conditions in HD patients. Whether this behaviour is due to a lack of recognition of social norms, an impairment in top-down inhibition, or an effect of antidopaminergic medication remains unclear.

Patterns of CAG repeat instability in the central nervous system and periphery in Huntington's disease and in spinocerebellar ataxia type 1.

The expanded HTT CAG repeat causing Huntington's disease (HD) exhibits somatic expansion proposed to drive the rate of disease onset by eliciting a pathological process that ultimately claims vulnerable cells. To gain insight into somatic expansion in humans, we performed comprehensive quantitative analyses of CAG expansion in ~50 central nervous system (CNS) and peripheral postmortem tissues from seven adult-onset and one juvenile-onset HD individual. We also assessed ATXN1 CAG repeat expansion in brain regions of an individual with a neurologically and pathologically distinct repeat expansion disorder, spinocerebellar ataxia type 1 (SCA1). Our findings reveal similar profiles of tissue instability in all HD individuals, which, notably, were also apparent in the SCA1 individual. CAG expansion was observed in all tissues, but to different degrees, with multiple cortical regions and neostriatum tending to have the greatest instability in the CNS, and liver in the periphery. These patterns indicate different propensities for CAG expansion contributed by disease locus-independent trans-factors and demonstrate that expansion per se is not sufficient to cause cell type or disease-specific pathology. Rather, pathology may reflect distinct toxic processes triggered by different repeat lengths across cell types and diseases. We also find that the HTT CAG length-dependent expansion propensity of an individual is reflected in all tissues and in cerebrospinal fluid. Our data indicate that peripheral cells may be a useful source to measure CAG expansion in biomarker assays for therapeutic efforts, prompting efforts to dissect underlying mechanisms of expansion that may differ between the brain and periphery.

Resistance to natural killer cell immunosurveillance confers a selective advantage to polyclonal metastasis.

Polyclonal metastases frequently arise from clusters of circulating tumor cells (CTCs). CTC clusters metastasize better than single CTCs, but the underlying molecular mechanisms are poorly understood. Here, we show that polyclonal metastatic seeds exhibit higher resistance to natural killer (NK) cell killing. Using breast cancer models, we observed higher proportions of polyclonal lung metastasis in immunocompetent mice compared with mice lacking NK cells. Depleting NK cells selectively increased monoclonal but not polyclonal metastases, suggesting that CTC clusters are less sensitive to NK-mediated suppression. Transcriptional analyses revealed that clusters have elevated expression of cell-cell adhesion and epithelial genes, which is associated with decreased expression of NK cell activating ligands. Furthermore, perturbing tumor cell epithelial status altered NK ligand expression and sensitivity to NK-mediated killing. Collectively, our findings show that NK cells can determine the fate of CTCs of different epithelial and mesenchymal states, and impact metastatic clonal evolution by favoring polyclonal seeding.

Targeting of IL-2 to cytotoxic lymphocytes as an improved method of cytokine-driven immunotherapy.

The use of high-dose interleukin-2 (IL-2) has fallen out of favor due to severe life-threatening side effects. We have recently described a unique way of directly targeting IL-2 to cytotoxic lymphocytes using a virally encoded immune evasion protein and an IL-2 mutant that avoids off-target side effects such as activation of regulatory T cells and vascular endothelium.

Two different phenomena in basic motor speech performance in premanifest Huntington disease.

OBJECTIVE: Dysarthria is a common feature in Huntington disease (HD). The aim of this cross-sectional pilot study was the description and objective analysis of different speech parameters with special emphasis on the aspect of speech timing of connected speech and nonspeech verbal utterances in premanifest HD (preHD). METHODS: A total of 28 preHD mutation carriers and 28 age- and sex-matched healthy speakers had to perform a reading task and several syllable repetition tasks. Results of computerized acoustic analysis of different variables for the measurement of speech rate and regularity were correlated with clinical measures and MRI-based brain atrophy assessment by voxel-based morphometry. RESULTS: An impaired capacity to steadily repeat single syllables with higher variations in preHD compared to healthy controls was found (variance 1: Cohen d = 1.46). Notably, speech rate was increased compared to controls and showed correlations to the volume of certain brain areas known to be involved in the sensory-motor speech networks (net speech rate: Cohen d = 1.19). Furthermore, speech rate showed correlations to disease burden score, probability of disease onset, the estimated years to onset, and clinical measures like the cognitive score. CONCLUSIONS: Measurement of speech rate and regularity might be helpful additional tools for the monitoring of subclinical functional disability in preHD. As one of the possible causes for higher performance in preHD, we discuss huntingtin-dependent temporarily advantageous development processes of the brain.

Maternal obesity and overnutrition alter fetal growth rate and cotyledonary vascularity and angiogenic factor expression in the ewe.

In pregnant sheep, maternal:fetal exchange occurs across placentomes composed of placental cotyledonary and uterine caruncular tissues. Recently, we reported that fetal weights of obese (OB) ewes [fed a diet of 150% of National Research Council (NRC) recommendations] were approximately 30% greater than those of control (C) ewes (fed a diet 100% of NRC recommendations) at midgestation (MG), but fetal weights were similar in late gestation (LG). Transplacental nutrient exchange is dependent on placental blood flow, which itself is dependent on placental vascularity. The current study investigated whether the observed initial faster and subsequent slower fetal growth rate of OB compared with C was associated with changes in cotyledonary vascularity and expression of angiogenic factors (vascular endothelial growth factor, fibroblast growth factor-2, placental growth factor, angiopoietin-1 and -2). Cotyledonary arteriole diameters were markedly greater (P < 0.05) in OB than C ewes at MG, but while arteriole diameter of C ewes increased (P < 0.05) from MG to LG, they remained unchanged in OB ewes. Cotyledonary arterial angiogenic factors mRNA and protein expression were lower (P < 0.05) in OB than C ewes at MG and remained low from MG to LG. In contrast, mRNA levels of angiogenic factors in C ewes declined from high levels at MG to reach those of OB ewes by LG. The increase in cotyledonary arteriole diameter in early to MG may function to accelerate fetal growth rate in OB ewes, while the decreased cotyledonary arterial angiogenic factors from MG-LG may function to protect the fetus from excessive placental vascular development, increased maternal nutrient delivery, and excessive weight gain.