Ryoko Krause scite author profile

Calreticulin is a Ca2+-binding chaperone in the endoplasmic reticulum (ER), and calreticulin gene knockout is embryonic lethal. Here, we used calreticulin-deficient mouse embryonic fibroblasts to examine the function of calreticulin as a regulator of Ca2+ homeostasis. In cells without calreticulin, the ER has a lower capacity for Ca2+ storage, although the free ER luminal Ca2+ concentration is unchanged. Calreticulin-deficient cells show inhibited Ca2+ release in response to bradykinin, yet they release Ca2+ upon direct activation with the inositol 1,4,5-trisphosphate (InsP3). These cells fail to produce a measurable level of InsP3 upon stimulation with bradykinin, likely because the binding of bradykinin to its cell surface receptor is impaired. Bradykinin binding and bradykinin-induced Ca2+ release are both restored by expression of full-length calreticulin and the N + P domain of the protein. Expression of the P + C domain of calreticulin does not affect bradykinin-induced Ca2+ release but restores the ER Ca2+ storage capacity. Our results indicate that calreticulin may play a role in folding of the bradykinin receptor, which affects its ability to initiate InsP3-dependent Ca2+ release in calreticulin-deficient cells. We concluded that the C domain of calreticulin plays a role in Ca2+ storage and that the N domain may participate in its chaperone functions.

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Ivermectin: A Positive Allosteric Effector of the α7 Neuronal Nicotinic Acetylcholine Receptor

Krause¹,

Buisson²,

Bertrand³

et al. 1998

Mol Pharmacol

299

236

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We report that preapplication of ivermectin, in the micromolar range, strongly enhances the subsequent acetylcholine-evoked current of the neuronal chick or human alpha7 nicotinic acetylcholine receptors reconstituted in Xenopus laevis oocytes and K-28 cells. This potentiation does not result from nonspecific Cl- currents. The concomitant increase in apparent affinity and cooperativity of the dose-response curve suggest that ivermectin acts as a positive allosteric effector. This interpretation is supported by the observation of an increase in efficiency of a partial agonist associated with the potentiation and by the differential effect of ivermectin on mutants within the M2 channel domain. Ivermectin effects reveal a novel allosteric site for pharmacological agents on neuronal alpha7 nicotinic acetylcholine receptors.

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Purification of human muscle satellite cells by flow cytometry

Baroffio¹,

Aubry²,

Kaelin

et al. 1993

Muscle and Nerve

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To purify satellite cells directly from human muscle biopsies, we have developed a method based on size separation of dissociated cells by flow cytometry. Immediately after tryptic dissociation of human muscle biopsies and elimination of erythrocytes, microscopic observation and flow cytometry analysis of cell suspensions revealed two populations of cells differing in size and nucleocytoplasmic ratio. Clonal cultures of these two cell types with a manual procedure demonstrated that only the small cells were myogenic satellite cells. Flow cytometry-sorting and analysis of the small cell population showed that (1) all sorted cells contained desmin immediately after dissociation and plating; (2) more than 98% of the cells expressed the 5.1.H11 epitope after 2 weeks of proliferation in culture; and (3) 90% of the sorted cells were able to form myotubes when cultivated at low density or in clonal cultures. Thus, human muscle satellite cells can be directly purified from human muscle samples using flow cytometry.

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A voltage‐dependent proton current in cultured human skeletal muscle myotubes.

Bernheim¹,

Krause²,

Baroffio³

et al. 1993

The Journal of Physiology

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SUMMARY1. A voltage-dependent proton current, IH' was studied in cultured myotubes obtained from biopsies of human muscle, using whole-cell recording with the patchclamp technique.2. With a pH. of 8-0 and a calculated pHi of 6-3, IH was activated at voltages more depolarized than -50 mV and its conductance reached its maximum value at voltages more depolarized than + 10 mV.3. Studies of the reversal potential ofIH during substitution of K+, Na+, Ca2+, Cl-, Cs+ and H+ in the extracellular solution indicated that protons were the major charge carriers of IH 4. IH was also activated during a voltage step to + 22 mV with a pHo of 7-3 and a calculated pHi of 7-3. 5. Acidification of the extracellular solution led to a shift towards depolarized voltages of the conductance-voltage relationship.6. Stationary noise analysis ofIH suggested that the elementary event underlyingIH was very small with a conductance of less than 0 09 pS.7. Extracellular application of various divalent cations blocked IH. The block by divalent cations was voltage dependent, being more efficient at hyperpolarized than at depolarized voltages. For Cd2 , the Michaelis-Menten constant (Km) for the block was 0-6 ,tM at -28 mV and 10-4 #4M at + 12 mV.8. Ca2+ was a less efficient blocker than Cd2+ but could block IH at physiological concentrations (the Km values for the block were 0 9 mm at -38 mV and 7-3 mm at -8 mV).9

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Activation of nicotinic acetylcholine receptors increases the rate of fusion of cultured human myoblasts.

Krause¹,

Hamann²,

Bader³

et al. 1995

The Journal of Physiology

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1. Fusion of myogenic cells is important for muscle growth and repair. The aim of this study was to examine the possible involvement of nicotinic acetylcholine receptors (nAChR) in the fusion process of myoblasts derived from postnatal human satellite cells. 2. Acetylcholine‐activated currents (ACh currents) were characterized in pure preparations of freshly isolated satellite cells, proliferating myoblasts, myoblasts triggered to fuse and myotubes, using whole‐cell and single‐channel voltage clamp recordings. Also, the effect of cholinergic agonists on myoblast fusion was tested. 3. No nAChR were observed in freshly isolated satellite cells. nAChR were first observed in proliferating myoblasts, but ACh current densities increased markedly only just before fusion. At that time most mononucleated myoblasts had ACh current densities similar to those of myotubes. ACh channels had similar properties at all stages of myoblast maturation. 4. The fraction of myoblasts that did not fuse under fusion‐promoting conditions had no ACh current and thus resembled freshly isolated satellite cells. 5. The rate of myoblast fusion was increased by carbachol, an effect antagonized by alpha‐bungarotoxin, curare and decamethonium, but not by atropine, indicating that nAChR were involved. Even though a prolonged exposure to carbachol led to desensitization, a residual ACh current persisted after several days of exposure to the nicotinic agonist. 6. Our observations suggest that nAChR play a role in myoblast fusion and that part of this role is mediated by the flow of ions through open ACh channels.

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Ryoko Krause

Functional specialization of calreticulin domains

Ivermectin: A Positive Allosteric Effector of the α7 Neuronal Nicotinic Acetylcholine Receptor

Purification of human muscle satellite cells by flow cytometry

A voltage‐dependent proton current in cultured human skeletal muscle myotubes.

Activation of nicotinic acetylcholine receptors increases the rate of fusion of cultured human myoblasts.

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