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Defective early phase insulin release in perifused isolated pancreatic islets of spiny mice (acomys cahirinus) (1975)

Rabinovitch, A. ; Gutzeit, A. ; Kikuchi, M. ; [et al.]

Springer

Diabetologia 11 (1975), S. 457-465

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ISSN: 1432-0428

Keywords: Insulin secretion ; perifused islets ; spiny mouse (acomys cahirinus) ; obese (ob/ob) C57 BL/6J mice ; glucose ; tolbutamide ; arginine ; theophylline ; cyclic AMP ; cytochalasin B

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In order to characterize pancreatic beta cell function in Geneva bred spiny mice (acomys cahirinus), the dynamics of immunoreactive insulin release were examined during perifusion of pancreatic islets isolated from normoglycemic acomys. The initial insulin response of acomys was slow: no clear-cut early (1 to 10 min) peak of insulin release was observed when glucose in the perifusion medium was abruptly raised from 2.8 mM to concentrations as high as 56 mM. This was true for islets of either young, or older more obese acomys. However, after 20 to 30 min of perifusion at the high glucose concentrations, the rate of insulin release from acomys islets became similar to that from islets of rats or mice. By contrast, glucose-induced insulin release responses observed with islets of Wistar-derived rats, Swiss albino mice, and inbred C57 BL/6J lean or obese (ob/ob) mice, were clearly biphasic. Tolbutamide 1.5 mM, arginine 16 mM, and theophylline 10 mM were ineffective in stimulating insulin release from acomys islets in the presence of a substimulatory glucose concentration (2.8 mM), whereas these agents were effective in rat islets at the same substimulatory concentration of glucose. On the other hand, when these agents, as well as cyclic AMP 10 mM or cytochalasin B 10 (μg/ml were applied in the presence of a stimulating concentration of glucose (16.8 mM), the glucose-stimulated insulin release from acomys islets was increased to the same or to a greater extent than from rat islets. It is suggested that the failure of all the agents tested to stimulate an early rapid phase of insulin release from acomys islets may be secondary to the observed initial insensitivity to glucose, which insensitivity may in turn reflect a selective impairment in the recognition of glucose as an insulinogenic signal in this species.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00429916

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Analysis of the circuitry responsible for primary afferent depolarization in the trigeminal spinal nucleus caudalis of cats (1977)

Nakamura, Y. ; Murakami, T. ; Kikuchi, M. ; [et al.]

Springer

Experimental brain research 29 (1977), S. 405-418

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ISSN: 1432-1106

Keywords: Trigeminal nerve ; PAD ; Trigeminal spinal nucleus caudalis ; Interneuron ; Subnucleus magnocellularis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Depth analysis was performed on the field potential evoked by stimulation of the infraorbital nerve in the trigeminal spinal nucleus caudalis and the subjacent lateral reticular formation of cats. It was shown by dye marking of the recording positions that each subnucleus of the nucleus caudalis (subnucleus marginalis, gelatinosus and magnocellularis) and the reticular formation could be differentiated from one another by the characteristics of the peripherally evoked field potentials. Responses of neurons were extracellularly recorded in the subnuclei gelatinosus and magnocellularis of the nucleus caudalis and in the reticular formation to stimulation of the trigeminal sensory branches (the frontal, infraorbital and lingual nerves), the nucleus ventralis posteromedialis of the thalamus and the cerebral cortex. The properties of the neurons were studied in relation to their thresholds, latencies, receptive fields (sensory branches effective for spike generation) and frequency-following capacities. These responses were then compared with properties of the PAD induced in the fibers terminating in the nucleus caudalis by similar peripheral and central stimulation. It was found that the neurons in the subnucleus magnocellularis were the most likely candidates for the interneurons mediating the peripherally evoked disynaptic PAD in the trigeminal nerve fibers terminating in the nucleus caudalis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236179

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Primary afferent depolarization in the trigeminal spinal nucleus of cats (1977)

Nakamura, Y. ; Murakami, T. ; Kikuchi, M. ; [et al.]

Springer

Experimental brain research 29 (1977), S. 45-56

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ISSN: 1432-1106

Keywords: Trigeminal nerve ; Primary afferent fiber ; Trigeminal spinal nucleus ; PAD ; Intra-axonal record

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Intra-axonal recordings were made from trigeminal primary afferent fibers in the trigeminal spinal nuclei oralis and caudalis of cats. Primary afferent depolarization (PAD) was evoked in these afferents by stimulation of the trigeminal peripheral sensory branches (the frontal, infraorbital and lingual nerves), the cerebral cortex and the trigeminal spinal nucleus caudalis. The properties of the PAD, including the threshold, latency, receptive field (sensory branches effective for PAD induction) and frequency-following capacity, were studied with the following results: 1. Stimulation of all the peripheral branches tested as well as the cerebral cortex could evoke PAD in the same single fiber. The latency of the PAD evoked by stimulation of the nerve in which the fiber being recorded from was included was generally shorter than that evoked by other branches. The PAD evoked by peripheral nerve stimulation was assumed to be disynaptic in some cases. 2. The peripherally evoked PAD was chiefly attributable to low threshold afferents in the stimulated sensory branches of the trigeminal nerve. 3. The peripherally evoked PAD could follow stimulation at up to 30/sec, though the amplitude was reduced. 4. Stimulation of the nucleus caudalis could evoke PAD with disynaptic latency in the majority of the fibers terminating in the same nucleus, whereas it evoked PAD with mainly polysynaptic latency in the fibers terminating in the nucleus oralis. The results are discussed in relation to the neuronal circuitry responsible for induction of the trigeminal PAD.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236874

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