Profound neuronal dysfunction in the entorhinal cortex contributes to early loss of short-term memory in Alzheimer’s disease1–3. Here we show broad neuroprotective effects of entorhinal brain-derived neurotrophic factor (BDNF) administration in several animal models of Alzheimer’s disease, with extension of therapeutic benefits into the degenerating hippocampus. In amyloid-transgenic mice, BDNF gene delivery, when administered after disease onset, reverses synapse loss, partially normalizes aberrant gene expression, improves cell signaling and restores learning and memory. These outcomes occur independently of effects on amyloid plaque load. In aged rats, BDNF infusion reverses cognitive decline, improves age-related perturbations in gene expression and restores cell signaling. In adult rats and primates, BDNF prevents lesion-induced death of entorhinal cortical neurons. In aged primates, BDNF reverses neuronal atrophy and ameliorates age-related cognitive impairment. Collectively, these findings indicate that BDNF exerts substantial protective effects on crucial neuronal circuitry involved in Alzheimer’s disease, acting through amyloid-independent mechanisms. BDNF therapeutic delivery merits exploration as a potential therapy for Alzheimer’s disease.
SUMMARY BACKGROUND Greater than 50% of recurrences in estrogen receptor-positive (ER+) breast cancer occur after 5 years of adjuvant endocrine therapy. Biomarkers capable of improving the risk-benefit of extended adjuvant endocrine therapy for these late recurrences would be clinically valuable. We compared the prognostic ability of the Breast Cancer Index (BCI), Oncotype DX Recurrence Score (RS) and IHC4 for both early and late recurrence among patients with ER+, node negative (N0) disease within the ATAC clinical trial. METHODS BCI was performed from 1102 primary tumor samples from ER+ patients and two versions (BCI-C (primary) and BCI-L (secondary), based on cubic and linear combinations of the variables) were evaluated. RS and IHC4 values were previously derived. Prognostic discrimination for early (<5y) and late recurrence (5–10y) was assessed. To evaluate the ability of the biomarkers to predict recurrence beyond standard clinicopathological parameters, the likelihood-ratio chi-square (LR-Δχ2) was calculated from Cox proportional hazards models. The primary endpoint was distant recurrence (DR). FINDINGS In the primary analysis of 665 ER+ N0 patients, categorical BCI-C demonstrated significant differences in risk of DR over 10 years (P<0·0001). In the secondary analysis, BCI-L proved to be a much stronger predictor, and BCI-L, IHC4 and RS had significant prognostic performance for early DR (BCI-L, p<0·0002), while only BCI-L was significant for late DR (LR-Δχ2: 7·97, p=0·0048). For risk of early DR at 5 years, BCI-L classified 59% (390/665), 25% (166/665) and 16% (109/665) of patients with 1.3% (0.5% – 3.1%), 5.6% (2.9% – 10.5%) and 18.1% (12.0% – 27.0%) for low, intermediate and high risk, respectively. For risk of late DR at 10 years, BCI-L classified 61% (366/596), 25% (146/596) and 14% (84/596) of patients with 3.5% (2.0% – 6.1%), 13.4% (8.5% – 20.8%) and 13.3% (7.4% – 23.4%) for low, intermediate and high, respectively. INTERPRETATION While all three biomarkers predicted for early DR, BCI-L was the only significant prognostic for risk of late DR. The three BCI-L groups identified two risk populations for both early and late DR with 84% (556/665) of patients having low risk for early DR, and a smaller population (39%, 230/596) having high risk for late DR who may benefit from extended endocrine or other therapy. FUNDING Avon Foundation, National Institutes of Health, Breast Cancer Foundation, DOD Breast Cancer Research Program, Susan G. Komen for the Cure, Breakthrough Breast Cancer through the Mary-Jean Mitchell Green Foundation, Astrazeneca, NIHR Biomedical Research Centre at the Royal Marsden.
Purpose: Residual risk of relapse remains a substantial concern for patients with hormone receptorpositive breast cancer, with approximately half of all disease recurrences occurring after five years of adjuvant antiestrogen therapy.Experimental Design: The objective of this study was to examine the prognostic performance of an optimized model of Breast Cancer Index (BCI), an algorithmic gene expression-based signature, for prediction of early (0-5 years) and late (>5 years) risk of distant recurrence in patients with estrogen receptor-positive (ER þ ), lymph node-negative (LN À ) tumors. The BCI model was validated by retrospective analyses of tumor samples from tamoxifen-treated patients from a randomized prospective trial (Stockholm TAM, n ¼ 317) and a multi-institutional cohort (n ¼ 358).Results: Within the Stockholm TAM cohort, BCI risk groups stratified the majority ($65%) of patients as low risk with less than 3% distant recurrence rate for 0 to 5 years and 5 to 10 years. In the multi-institutional cohort, which had larger tumors, 55% of patients were classified as BCI low risk with less than 5% distant recurrence rate for 0 to 5 years and 5 to 10 years. For both cohorts, continuous BCI was the most significant prognostic factor beyond standard clinicopathologic factors for 0 to 5 years and more than five years.Conclusions: The prognostic sustainability of BCI to assess early-and late-distant recurrence risk at diagnosis has clinical use for decisions of chemotherapy at diagnosis and for decisions for extended adjuvant endocrine therapy beyond five years. Clin Cancer Res; 19(15); 4196-205. Ó2013 AACR.
Synaptic dysfunction has been shown to be one of the earliest correlates of disease progression in animal models of Alzheimer's disease. Amyloid- protein (A) is thought to play an important role in disease-related synaptic dysfunction, but the mechanism by which A leads to synaptic dysfunction is not understood. Here we describe evidence that cleavage of APP in the C terminus may be necessary for the deficits present in APP transgenic mice. In APP transgenic mice with a mutated cleavage site at amino acid 664, normal synaptic transmission, synaptic plasticity, and learning were maintained despite the presence of elevated levels of APP, A 42 , and even plaque accumulation. These results indicate that cleavage of APP may play a critical role in the development of synaptic and behavioral dysfunction in APP transgenic mice.
Evidence from rodent studies indicates that the β-cell-derived neurohormone amylin exerts multiple effects on eating behavior, including reductions in meal size, intake of highly palatable foods, and stress-induced sucrose consumption. To assess the effect of amylin agonism on human eating behavior we conducted a randomized, blinded, placebo-controlled, multicenter study investigating the effects of the amylin analog pramlintide on body weight, 24-h caloric intake, portion sizes, “fast food” intake, and perceived control of eating in 88 obese subjects. After a 2-day placebo lead-in, subjects self-administered pramlintide (180 μg) or placebo by subcutaneous injection 15 min before meals for 6 wk without concomitant lifestyle modifications. Compared with placebo, pramlintide treatment elicited significant mean reductions from baseline in body weight on day 44 (−2.1 ± 0.3 vs. +0.1 ± 0.4%, P < 0.001), 24-h caloric intake (−990 ± 94 vs. −243 ± 126 kcal on day 3, P < 0.0001; −680 ± 86 vs. −191 ± 161 kcal on day 43, P < 0.01), portion sizes, and caloric intake at a “fast food challenge” (−385 ± 61 vs. −109 ± 88 kcal on day 44, P < 0.05). Pramlintide treatment also improved perceived control of eating, as demonstrated by a 45% placebo-corrected reduction in binge eating scores ( P < 0.01). The results of this translational research study confirm in humans various preclinical effects of amylin agonism, demonstrating that pramlintide-mediated weight loss in obese subjects is accompanied by sustained reductions in 24-h food intake, portion sizes, fast food intake, and binge eating tendencies.
Accurate tumor classification is fundamental to inform predictive biomarker testing and optimize therapy. Gene expression-based tests are proposed as diagnostic aids in cases with uncertain diagnoses. This study directly compared the diagnostic accuracy of IHC analysis versus molecular classification using a 92-gene RT-PCR assay for determination of the primary tumor site. This prospectively defined blinded study of diagnostically challenging cases included 131 high-grade, primarily metastatic tumors. Cases were reviewed and reference diagnoses established through clinical correlation. Blinded FFPE sections were evaluated by either IHC/morphology analysis or the 92-gene assay. The final analysis included 122 cases. The 92-gene assay demonstrated overall accuracy of 79% (95% CI, 71% to 85%) for tumor classification versus 69% (95% CI, 60% to 76%) for IHC/morphology analysis (P = 0.019). Mean IHC use was 7.9 stains per case (median, 8; range, 2 to 15). IHC/morphology analysis accuracy was 79%, 80%, and 46% when 1 to 6 (n = 42), 7 to 9 (n = 41), and >9 (n = 39) IHC stains were used, respectively, versus 81%, 85%, and 69%, respectively, with the 92-gene assay. Results from this blinded series of high-grade metastatic cases demonstrate superior accuracy with the 92-gene assay versus standard-of-care IHC analysis and strongly support the diagnostic utility of molecular classification in difficult-to-diagnose metastatic cancer.
Drug-associated contextual cues can exert a powerful influence on behavior through associative pairing between the drug and the environment. However, the anatomical and molecular substrates for these effects are not well characterized. Using a drug-conditioning paradigm, we examined the expression of the immediate early gene product, Fos, within specific brain circuits using immunocytochemical detection. Rats were given either morphine (5 mg/ml/kg) or saline once a day for 10 days. The drug administration was always paired with a specific environment (activity monitors) different from the home cage. Following this treatment, the rats were returned to the cages at various times thereafter, with only a mock injection. Conditioned behavioral activation was observed in rats at 3, 5, and 7 days following treatment with morphine. In rats showing the conditioned motor response, several cortical and limbic areas showed substantial increases in the number of Fos positive cells, indicating that these regions were more active during exposure to the drug-paired environment. Areas that were most activated included prefrontal cortex, cingulate cortex, nucleus accumbens, and preoptic area. Further analysis showed that this increase in Fos expression was not directly related to the increase in motor activity, and that the drug-associated conditioning and Fos expression was lessened at 7 days and absent by 14 days post-treatment. These results are discussed in terms of their relevance to the problem of relapse in drug addiction.
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