Searched for: Department/Unit:Neuroscience Institute
Apical versus Basal Neurogenesis Directs Cortical Interneuron Subclass Fate
Petros, Timothy J; Bultje, Ronald S; Ross, M Elizabeth; Fishell, Gord; Anderson, Stewart A
Fate determination in the mammalian telencephalon, with its diversity of neuronal subtypes and relevance to neuropsychiatric disease, remains a critical area of study in neuroscience. Most studies investigating this topic focus on the diversity of neural progenitors within spatial and temporal domains along the lateral ventricles. Often overlooked is whether the location of neurogenesis within a fate-restricted domain is associated with, or instructive for, distinct neuronal fates. Here, we use in vivo fate mapping and the manipulation of neurogenic location to demonstrate that apical versus basal neurogenesis influences the fate determination of major subgroups of cortical interneurons derived from the subcortical telencephalon. Somatostatin-expressing interneurons arise mainly from apical divisions along the ventricular surface, whereas parvalbumin-expressing interneurons originate predominantly from basal divisions in the subventricular zone. As manipulations that shift neurogenic location alter interneuron subclass fate, these results add an additional dimension to the spatial-temporal determinants of neuronal fate determination.
PMCID:4704102
PMID: 26526999
ISSN: 2211-1247
CID: 1825812
The Corticohippocampal Circuit, Synaptic Plasticity, and Memory
Basu, Jayeeta; Siegelbaum, Steven A
Synaptic plasticity serves as a cellular substrate for information storage in the central nervous system. The entorhinal cortex (EC) and hippocampus are interconnected brain areas supporting basic cognitive functions important for the formation and retrieval of declarative memories. Here, we discuss how information flow in the EC-hippocampal loop is organized through circuit design. We highlight recently identified corticohippocampal and intrahippocampal connections and how these long-range and local microcircuits contribute to learning. This review also describes various forms of activity-dependent mechanisms that change the strength of corticohippocampal synaptic transmission. A key point to emerge from these studies is that patterned activity and interaction of coincident inputs gives rise to associational plasticity and long-term regulation of information flow. Finally, we offer insights about how learning-related synaptic plasticity within the corticohippocampal circuit during sensory experiences may enable adaptive behaviors for encoding spatial, episodic, social, and contextual memories.
PMCID:4632668
PMID: 26525152
ISSN: 1943-0264
CID: 1825442
Lung function tests (MIP, MEP, FVC, VC) predict ventilation and wheelchair use in late-onset Pompe disease [Meeting Abstract]
Roberts, M; Mozaffar, T; Young, P; Johnson, E; Quartel, A; Berger, K
ISI:000362925400025
ISSN: 1873-2364
CID: 1821972
Synaptic plasticity as a cortical coding scheme
Froemke, Robert C; Schreiner, Christoph E
Processing of auditory information requires constant adjustment due to alterations of the environment and changing conditions in the nervous system with age, health, and experience. Consequently, patterns of activity in cortical networks have complex dynamics over a wide range of timescales, from milliseconds to days and longer. In the primary auditory cortex (AI), multiple forms of adaptation and plasticity shape synaptic input and action potential output. However, the variance of neuronal responses has made it difficult to characterize AI receptive fields and to determine the function of AI in processing auditory information such as vocalizations. Here we describe recent studies on the temporal modulation of cortical responses and consider the relation of synaptic plasticity to neural coding.
PMCID:4641776
PMID: 26497430
ISSN: 1873-6882
CID: 1817392
Thalamic control of sensory selection in divided attention
Wimmer, Ralf D; Schmitt, L Ian; Davidson, Thomas J; Nakajima, Miho; Deisseroth, Karl; Halassa, Michael M
How the brain selects appropriate sensory inputs and suppresses distractors is unknown. Given the well-established role of the prefrontal cortex (PFC) in executive function, its interactions with sensory cortical areas during attention have been hypothesized to control sensory selection. To test this idea and, more generally, dissect the circuits underlying sensory selection, we developed a cross-modal divided-attention task in mice that allowed genetic access to this cognitive process. By optogenetically perturbing PFC function in a temporally precise window, the ability of mice to select appropriately between conflicting visual and auditory stimuli was diminished. Equivalent sensory thalamocortical manipulations showed that behaviour was causally dependent on PFC interactions with the sensory thalamus, not sensory cortex. Consistent with this notion, we found neurons of the visual thalamic reticular nucleus (visTRN) to exhibit PFC-dependent changes in firing rate predictive of the modality selected. visTRN activity was causal to performance as confirmed by bidirectional optogenetic manipulations of this subnetwork. Using a combination of electrophysiology and intracellular chloride photometry, we demonstrated that visTRN dynamically controls visual thalamic gain through feedforward inhibition. Our experiments introduce a new subcortical model of sensory selection, in which the PFC biases thalamic reticular subnetworks to control thalamic sensory gain, selecting appropriate inputs for further processing.
PMCID:4626291
PMID: 26503050
ISSN: 1476-4687
CID: 1816762
Insulin enhances striatal dopamine release by activating cholinergic interneurons and thereby signals reward
Stouffer, Melissa A; Woods, Catherine A; Patel, Jyoti C; Lee, Christian R; Witkovsky, Paul; Bao, Li; Machold, Robert P; Jones, Kymry T; de Vaca, Soledad Cabeza; Reith, Maarten E A; Carr, Kenneth D; Rice, Margaret E
Insulin activates insulin receptors (InsRs) in the hypothalamus to signal satiety after a meal. However, the rising incidence of obesity, which results in chronically elevated insulin levels, implies that insulin may also act in brain centres that regulate motivation and reward. We report here that insulin can amplify action potential-dependent dopamine (DA) release in the nucleus accumbens (NAc) and caudate-putamen through an indirect mechanism that involves striatal cholinergic interneurons that express InsRs. Furthermore, two different chronic diet manipulations in rats, food restriction (FR) and an obesogenic (OB) diet, oppositely alter the sensitivity of striatal DA release to insulin, with enhanced responsiveness in FR, but loss of responsiveness in OB. Behavioural studies show that intact insulin levels in the NAc shell are necessary for acquisition of preference for the flavour of a paired glucose solution. Together, these data imply that striatal insulin signalling enhances DA release to influence food choices.
PMCID:4624275
PMID: 26503322
ISSN: 2041-1723
CID: 1816772
Hippocampal plasticity during the progression of Alzheimer's disease
Mufson, E J; Mahady, L; Waters, D; Counts, S E; Perez, S E; DeKosky, S T; Ginsberg, S D; Ikonomovic, M D; Scheff, S W; Binder, L I
Neuroplasticity involves molecular and structural changes in central nervous system (CNS) throughout life. The concept of neural organization allows for remodeling as a compensatory mechanism to the early pathobiology of Alzheimer's disease (AD) in an attempt to maintain brain function and cognition during the onset of dementia. The hippocampus, a crucial component of the medial temporal lobe memory circuit, is affected early in AD and displays synaptic and intraneuronal molecular remodeling against a pathological background of extracellular amyloid-beta (Abeta) deposition and intracellular neurofibrillary tangle (NFT) formation in the early stages of AD. Here we discuss human clinical pathological findings supporting the concept that the hippocampus is capable of neural plasticity during mild cognitive impairment (MCI), a prodromal stage of AD and early stage AD.
PMCID:4567973
PMID: 25772787
ISSN: 1873-7544
CID: 1810702
Glycosylated Hemoglobin A1c and Lack of Association With Symptom Severity in Patients Undergoing Chemotherapy for Solid Tumors
Hammer, Marilyn J; Aouizerat, Bradley E; Schmidt, Brian L; Cartwright, Frances; Wright, Fay; Miaskowski, Christine
PURPOSE/OBJECTIVES: To assess the effects of high blood sugar at the levels of diabetic or prediabetic states during cancer treatment because patients undergoing chemotherapy (CTX) experience multiple symptoms that vary among individuals and may be affected by glucose levels. DESIGN: Descriptive, cross-sectional. SETTING: Two comprehensive cancer centers, one Veterans Affairs hospital, and four community-based oncology programs. SAMPLE: 244 outpatients with breast, gastrointestinal, gynecologic, and lung cancers. METHODS: Patients completed demographic and symptom questionnaires. Glycosylated hemoglobin A1c (HbA1c) was evaluated to determine diabetic state. Descriptive statistics and one-way analyses of variance were used in the analyses. MAIN RESEARCH VARIABLES: HbA1c, symptom severity scores, patient and clinical characteristics (e.g., age, gender, comorbidities, sociodemographic information, body mass index [BMI], lifestyle factors). FINDINGS: HbA1c results showed 9% of the sample in the diabetic and 26% in the prediabetic state. Patients in the diabetic state reported a higher number of comorbid conditions and were more likely to be African American. Patients in the prediabetic state were older aged. Patients in the diabetic and prediabetic states had a higher BMI compared to nondiabetic patients. No differences in symptom severity or quality-of-life (QOL) scores were found among the three diabetic states. CONCLUSIONS: This study is the first to evaluate for associations between diabetic states and symptom severity and QOL scores in patients receiving CTX. This study confirmed that older age, as well as having higher BMI and having multiple comorbidities, were associated with increased mean glycemic levels. IMPLICATIONS FOR NURSING: Clinicians should assess and identify patients with diabetes or prediabetes undergoing treatment for cancer. Patients who are older aged, those with a high BMI, and those with multiple comorbid conditions may be at increased risk for higher glycemic states.
PMID: 26488828
ISSN: 1538-0688
CID: 1810232
Editorial on the Honorary Cerebellum Issue for the Retirement of Enrico Mugnaini [Editorial]
De Zeeuw, Chris I; Jaarsma, Dick; Voogd, Jan; Llinas, Rodolfo; Martina, Marco
PMID: 26450590
ISSN: 1473-4230
CID: 1809802
Gray Matter Correlates of Cognitive Performance Differ between Relapsing-Remitting and Primary-Progressive Multiple Sclerosis
Jonkman, Laura E; Rosenthal, Diana M; Sormani, Maria Pia; Miles, Laura; Herbert, Joseph; Grossman, Robert I; Inglese, Matilde
Multiple Sclerosis (MS) is a chronic inflammatory/demyelinating and neurodegenerative disease of the central nervous system (CNS). Most patients experience a relapsing-remitting (RR) course, while about 15-20% of patients experience a primary progressive (PP) course. Cognitive impairment affects approximately 40-70% of all MS patients and differences in cognitive impairment between RR-MS and PP-MS have been found. We aimed to compare RR-MS and PP-MS patients in terms of cognitive performance, and to investigate the MRI correlates of cognitive impairment in the two groups using measures of brain volumes and cortical thickness. Fifty-seven patients (42 RR-MS, 15 PP-MS) and thirty-eight matched controls underwent neuropsychological (NP) testing and MRI. PP-MS patients scored lower than RR-MS patients on most of the NP tests in absence of any specific pattern. PP-MS patients showed significantly lower caudate volume. There was no significant difference in MRI correlates of cognitive impairment between the two groups except for a prevalent association with MRI measures of cortical GM injury in RR-MS patients and with MRI measures of subcortical GM injury in PP-MS patients. This suggests that although cognitive impairment results from several factors, cortical and subcortical GM injury may play a different role depending on the disease course.
PMCID:4616346
PMID: 26485710
ISSN: 1932-6203
CID: 1810022