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Effects of Ventrobasal Lesion and Cortical Cooling on Fast Oscillations (〉200 Hz) in Rat Somatosensory Cortex

Staba, Richard J. ; Brett-Green, Barbara ; Paulsen, Marcy ; [et al.]

American Physiological Society ; 2003

In: Journal of Neurophysiology Vol. 89, No. 5 ( 2003-05-01), p. 2380-2388

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In: Journal of Neurophysiology, American Physiological Society, Vol. 89, No. 5 ( 2003-05-01), p. 2380-2388

Abstract: High-frequency oscillatory activity ( 〉 200 Hz) termed “fast oscillations” (FO) have been recorded in the rodent somatosensory cortex and may reflect very rapid integration of vibrissal information in sensory cortex. Yet, while electrophysiological correlates suggest that FO is generated within intracortical networks, contributions of subcortical structures along the trigeminal pathway remain uncertain. Using surface and laminar electrode arrays, in vivo recordings of vibrissal and electrically evoked FO were made within somatosensory cortex of anesthetized rodents before and after ablation of the ventrobasal thalamus (VB) or during reversible cortical cooling. In VB-lesioned animals, vibrissal stimulation failed to evoke FO, while epicortical stimulation in lesioned animals remained effective in generating FO. In nonlesioned animals, cortical cooling eliminated vibrissal-evoked FO despite the persistence of thalamocortical input. Vibrissal-evoked FO returned with the return to physiological temperatures. Results from this study indicate that somatosensory cortex alone is able to initiate and sustain FO. Moreover, these data suggest that cortical network interactions are solely responsible for the generation of FO, while synchronized thalamocortical input serves as the afferent trigger.

Type of Medium: Online Resource

ISSN: 0022-3077 , 1522-1598

URL: Article

DOI: 10.1152/jn.01098.2002

RVK:

XA 10000 ; XA 552555

Language: English

Publisher: American Physiological Society

Publication Date: 2003

detail.hit.zdb_id: 80161-6

detail.hit.zdb_id: 1467889-5

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Intracortical Pathways Mediate Nonlinear Fast Oscillation (〉200 Hz) Interactions Within Rat Barrel Cortex

Staba, Richard J. ; Ard, Tyler D. ; Benison, Alexander M. ; [et al.]

American Physiological Society ; 2005

In: Journal of Neurophysiology Vol. 93, No. 5 ( 2005-05), p. 2934-2939

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In: Journal of Neurophysiology, American Physiological Society, Vol. 93, No. 5 ( 2005-05), p. 2934-2939

Abstract: Whisker evoked fast oscillations (FOs; 〉 200 Hz) within the rodent posteromedial barrel subfield are thought to reflect very rapid integration of multiwhisker stimuli, yet the pathways mediating FO interactions remain unclear and may involve interactions within thalamus and/or cortex. In the present study using anesthetized rats, a cortical incision was made between sites representing the stimulated whiskers to determine how intracortical networks contributed to patterns of FOs. With cortex intact, simultaneous stimulation of a pair of whiskers aligned in a row evoked supralinear responses between sites separated by several millimeters. In contrast, stimulation of a nonadjacent pair of whiskers within an arc evoked FOs with no evidence for nonlinear interactions. However, stimulation of an adjacent pair of whiskers in an arc did evoke supralinear responses. After a cortical cut, supralinear interactions associated with FOs within a row were lost. These data indicate a distinct bias for stronger long-range connectivity that extends along barrel rows and that horizontal intracortical pathways exclusively mediate FO-related integration of tactile information.

Type of Medium: Online Resource

ISSN: 0022-3077 , 1522-1598

URL: Article

DOI: 10.1152/jn.01101.2004

RVK:

XA 10000 ; XA 552555

Language: English

Publisher: American Physiological Society

Publication Date: 2005

detail.hit.zdb_id: 80161-6

detail.hit.zdb_id: 1467889-5

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Two Distinct Regions of Secondary Somatosensory Cortex in the Rat: Topographical Organization and Multisensory Responses

Brett-Green, Barbara ; Paulsen, Marcy ; Staba, Richard J. ; [et al.]

American Physiological Society ; 2004

In: Journal of Neurophysiology Vol. 91, No. 3 ( 2004-03), p. 1327-1336

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In: Journal of Neurophysiology, American Physiological Society, Vol. 91, No. 3 ( 2004-03), p. 1327-1336

Abstract: In rodents, as in other species, regions of secondary somatosensory cortex (SII) may be distinguished from primary cortex (SI) both anatomically and electrophysiologically. However, the number of rodent SII subregions, their somatotopic organization, and their function are poorly understood. The presence of multisensory responsive neurons in some areas of SII suggests that one of its roles may be in the integration of somatosensory information with information from other sensory modalities. In this study, we used auditory, somatosensory, or combined auditory/somatosensory stimuli, and high-resolution epipial-evoked potential maps of rat SII to identify the number of spatially discrete subregions, estimate their somatotopic organization, and delineate regions with multisensory response properties. Maps revealed two distinct subregions within SII, one rostral and the other caudal, which were situated lateral to the posteromedial barrel subfield. Distinct somatotopies were evident at both SII loci, and analysis of evoked responses within both areas indicated multisensory interactions. These data are consistent with the presence of classically defined rostral SII regions and provide functional evidence for a lesser known, but distinct, caudal SII area. Furthermore, evidence for multisensory interactions within SII suggests that both secondary areas may process features specifically associated with multisensory integration in parallel with unimodal processing in primary areas.

Type of Medium: Online Resource

ISSN: 0022-3077 , 1522-1598

URL: Article

DOI: 10.1152/jn.00905.2003

RVK:

XA 10000 ; XA 552555

Language: English

Publisher: American Physiological Society

Publication Date: 2004

detail.hit.zdb_id: 80161-6

detail.hit.zdb_id: 1467889-5

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Helicobacter pylori -induced posttranscriptional regulation of H-K-ATPase α-subunit gene expression by miRNA

Zhang, Yong-Mei ; Noto, Jennifer M. ; Hammond, Charles E. ; [et al.]

American Physiological Society ; 2014

In: American Journal of Physiology-Gastrointestinal and Liver Physiology Vol. 306, No. 7 ( 2014-04-01), p. G606-G613

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In: American Journal of Physiology-Gastrointestinal and Liver Physiology, American Physiological Society, Vol. 306, No. 7 ( 2014-04-01), p. G606-G613

Abstract: Acute Helicobacter pylori infection of gastric epithelial cells induces CagA oncoprotein- and peptidoglycan (SLT)-dependent mobilization of NF-κB p50 homodimers that bind to H-K-ATPase α-subunit (HKα) promoter and repress HKα gene transcription. This process may facilitate gastric H. pylori colonization by induction of transient hypochlorhydria. We hypothesized that H. pylori also regulates HKα expression posttranscriptionally by miRNA interaction with HKα mRNA. In silico analysis of the HKα 3′ untranslated region (UTR) identified miR-1289 as a highly conserved putative HKα-regulatory miRNA. H. pylori infection of AGS cells transfected with HKα 3′ UTR- Luc reporter construct repressed luciferase activity by 70%, whereas Δ cagA or Δ slt H. pylori infections partially abrogated repression. Transfection of AGS cells expressing HKα 3′ UTR- Luc construct with an oligoribonucleotide mimetic of miR-1289 induced maximal repression (54%) of UTR activity within 30 min; UTR activity was unchanged by nontargeting siRNA transfection. Gastric biopsies from patients infected with cagA + H. pylori showed a significant increase in miR-1289 expression compared with uninfected patients or those infected with cagA − H. pylori. Finally, miR-1289 expression was necessary and sufficient to attenuate biopsy HKα protein expression in the absence of infection. Taken together, these data indicate that miR-1289 is upregulated by H. pylori in a CagA- and SLT-dependent manner and targets HKα 3′ UTR, affecting HKα mRNA translation. The sensitivity of HKα mRNA 3′ UTR to binding of miR-1289 identifies a novel regulatory mechanism of gastric acid secretion and offers new insights into mechanisms underlying transient H. pylori-induced hypochlorhydria.

Type of Medium: Online Resource

ISSN: 0193-1857 , 1522-1547

URL: Article

DOI: 10.1152/ajpgi.00333.2013

Language: English

Publisher: American Physiological Society

Publication Date: 2014

detail.hit.zdb_id: 1477329-6

SSG: 12

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