Betty Ng scite author profile

The three SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein receptor) proteins, syntaxin, SNAP25 (synaptosome-associated protein of 25 kDa), and synaptobrevin, constitute the minimal machinery for exocytosis in secretory cells such as neurons and neuroendocrine cells by forming a series of complexes prior to and during vesicle fusion. It was subsequently found that these SNARE proteins not only participate in vesicle fusion, but also tether with voltage-dependent Ca(2+) channels to form an excitosome that precisely regulates calcium entry at the site of exocytosis. In pancreatic islet beta-cells, ATP-sensitive K(+) (K(ATP)) channel closure by high ATP concentration leads to membrane depolarization, voltage-dependent Ca(2+) channel opening, and insulin secretion, whereas subsequent opening of voltage-gated K(+) (Kv) channels repolarizes the cell to terminate exocytosis. We have obtained evidence that syntaxin-1A physically interacts with Kv2.1 (the predominant Kv in beta-cells) and the sulfonylurea receptor subunit of beta-cell K(ATP) channel to modify their gating behaviors. A model has proposed that the conformational changes of syntaxin-1A during exocytosis induce distinct functional modulations of K(ATP) and Kv2.1 channels in a manner that optimally regulates cell excitability and insulin secretion. Other proteins involved in exocytosis, such as Munc-13, tomosyn, rab3a-interacting molecule, and guanyl nucleotide exchange factor II, have also been implicated in direct or indirect regulation of beta-cell ion channel activities and excitability. This review discusses this interesting aspect that exocytotic proteins not only promote secretion per se, but also fine-tune beta-cell excitability via modulation of ion channel gating.

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Parathyroid Hormone- and Prostaglandin E₁-Response in a Selected Population of Bone Cells After Repeated Subculture and Storage at ‒80 C

Rao¹,

Ng²,

Brunette³

et al. 1977

Endocrinology

144

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Five different cell populations, designated I to V, were isolated from minced newborn rat calveria by 5-sequential 20 min incubations with an enzyme mixture containing collagenase, elastase and DNAse. In primary culture, all five populations responded to parathyroid hormone (PTH) to a different degree, population IV giving the highest increase in cyclic-3'5'-adenosine monophosphate (cAMP) level. None of the five populations gave any response to calcitonin. Upon subsequent subcultures, all populations, except population IV, either lost or considerably decreased their response to PTH. Population IV gave a two to three-fold increase in cAMP concentration in response to PTH up to the third subculture. No morphological differences could be observed among the five populations. The third subculture of population IV cells that had been stored in 10% glycerol at -80C for four months was subsequently thawed and subcultured to the sixth subculture. These cells still responded to PTH with an increase in cAMP level. In a second experiment, 5 different cell populations designated I to V were isolated in a similar way by incubation with collagenase and DNAse. The maximum response to PTH was found in population 3. The preservation of the PTH-responsiveness of this population, after subculturing, freezing, storing in 10% glycerol at -80 C and subsequent subculturing, was likewise demonstrated. The hormone-responsiveness of cells from the sixth subculture of previously frozen and thawed population IV cells was further analyzed. These cells responded to PTH at a concentration of 0.1 U/ml to 5U/ml and to prostaglandin E1 (PGE1) at a concentration of 0.1 microng/ml to 10 microng/ml. The time course of action on population IV of PTH was found to be different from that of PGE1, suggesting a possible difference in the regulation of intracellular cAMP levels by these hormones.

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Effects of NSAIDs on Bladder Function in Normal and Cystitis Rats: a Comparison Study of Aspirin, Indomethacin, and Ketoprofen

Takagi-Matsumoto

Tsukimi

et al. 2004

J Pharmacol Sci

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Abstract. To clarify the potential usefulness of non-steroidal anti-inflammatory drugs, NSAIDs, for patients with overactive bladder, we examined the effect of NSAIDs on urodynamic parameters in normal and cystitis rats and compared their ulcerogenic activity in the gastrointestinal mucosa. Cystometry was performed after administration of the conventional NSAIDs, aspirin, indomethacin, or ketoprofen. Prostaglandin levels were measured in the bladder of cystitis rats pretreated with NSAIDs. Furthermore, the ulcerogenic responses were examined. NSAIDs increased bladder capacity without any effect on micturition pressure in normal rats in the following rank order of potency: ketoprofen ³ indomethacin ³ aspirin. In cystitis rats, bladder capacity was increased and micturition frequency was decreased. The levels of prostaglandin were significantly increased in cystitis rats. All NSAIDs inhibited the increment of prostaglandin levels at doses equal to that effective in the improvement of bladder functions. When administered intraduodenally, both ketoprofen and indomethacin induced lesions in the gastrointestinal mucosa. However, aspirin had no significant effect. We demonstrate that NSAIDs are effective in animal models of disease, most likely by suppressing by prostaglandin synthesis. Since aspirin, in contrast to ketoprofen or indomethacin, did not cause any gastrointestinal lesions, aspirin might be the NSAIDs treatment of choice for overactive bladder.

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Collagen synthesis is a major component of protein synthesis in the periodontal ligament in various species

Sodek

Brunette

Feng

et al. 1977

Archives of Oral Biology

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Hormone-Specific Suppression of Adenosine 3′,5′-Monophosphate Responses in Bone in Vitro during Prolonged Incubation with Parathyroid Hormone, Prostaglandin E_1,and Calcitonin

Heersche¹,

Heyboer

1978

Endocrinology

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Betty Ng

SNAREing Voltage-Gated K+ and ATP-Sensitive K+ Channels: Tuning β-Cell Excitability with Syntaxin-1A and Other Exocytotic Proteins

Parathyroid Hormone- and Prostaglandin E₁-Response in a Selected Population of Bone Cells After Repeated Subculture and Storage at ‒80 C

Effects of NSAIDs on Bladder Function in Normal and Cystitis Rats: a Comparison Study of Aspirin, Indomethacin, and Ketoprofen

Collagen synthesis is a major component of protein synthesis in the periodontal ligament in various species

Hormone-Specific Suppression of Adenosine 3′,5′-Monophosphate Responses in Bone in Vitro during Prolonged Incubation with Parathyroid Hormone, Prostaglandin E_1,and Calcitonin

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Betty Ng

SNAREing Voltage-Gated K+ and ATP-Sensitive K+ Channels: Tuning β-Cell Excitability with Syntaxin-1A and Other Exocytotic Proteins

Parathyroid Hormone- and Prostaglandin E1-Response in a Selected Population of Bone Cells After Repeated Subculture and Storage at ‒80 C

Effects of NSAIDs on Bladder Function in Normal and Cystitis Rats: a Comparison Study of Aspirin, Indomethacin, and Ketoprofen

Collagen synthesis is a major component of protein synthesis in the periodontal ligament in various species

Hormone-Specific Suppression of Adenosine 3′,5′-Monophosphate Responses in Bone in Vitro during Prolonged Incubation with Parathyroid Hormone, Prostaglandin E1,and Calcitonin

Contact Info

Product

Resources

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Parathyroid Hormone- and Prostaglandin E₁-Response in a Selected Population of Bone Cells After Repeated Subculture and Storage at ‒80 C

Hormone-Specific Suppression of Adenosine 3′,5′-Monophosphate Responses in Bone in Vitro during Prolonged Incubation with Parathyroid Hormone, Prostaglandin E_1,and Calcitonin