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Open states of nuclear envelope ion channels in cardiac myocytes (1994)

Bustamante, J. O.

Springer

The journal of membrane biology 138 (1994), S. 77-89

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ISSN: 1432-1424

Keywords: Cardiac ; Nucleus ; Nuclear envelope ; Nuclear pore complex ; Nuclear ion channels ; Channel conductance

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract Prevalent nucleocytoplasmic transport theory views flow of monoatomic ions as completely unrestricted, resulting from the presence of large diameter pore complexes (NPCs) that perforate, but hold together, the two separate membranes of the nuclear envelope (NE). However, three lines of investigations indicate that, at least in some cell types, monoatomic ion flow is restricted. (i) Patch clamp reveals quantized, ion channel-like activity in several NE preparations; activity thought to result from nuclear ion channels (NICs) connected to NPCs. (ii) Ratiometric fluorescence microscopy demonstrates that ions, as well as small molecules relevant to signal transduction, do distribute as if there is a NE barrier. (iii) Electron microscopy shows that NPCs contain material that behaves like a plug. NICs' large conductance (up to 1,000 pS) makes them a major determinant of nuclear ion concentrations which, in turn, influence nuclear processes. Therefore, NICs are an important modulating force of gene and transcriptional activities—two major determinants of gene expression. As nuclear processes may take from seconds (e.g., signaling) to minutes (e.g., transcription), the time the channels dwell in the ion-conducting open state is relevant to understanding NICs' role in nuclear function. Consequently, dwell-times and lifetimes of open NIC states were studied in 61 patch-clamped adult mouse cardiac myocyte nuclei. Upon voltage stimulation, NICs opened to main states of large conductance (281 ± 198 pS, range = 120–490 pS, n = 55) and wide-range mean dwell-times (∼100 msec, 1–10 sec, and min). Closed states (0 pS) also had widely distributed mean dwell-times (∼100 msec, 1–10 sec, and min). Putative open substates (37 ±11 pS, range = 25–50, pS, n = 6) of high bursting frequency (〈1 msec) were observed without intervening main states (≈5% of patches). Fast (∼0.1 msec) and slow (∼10 msec) statetransitions were also detected. These observations suggest a role for NICs in mediating cytoplasmic signal control of cardiomyocyte gene expression.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00211071

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Nuclear electrophysiology (1994)

Bustamante, J. O.

Springer

The journal of membrane biology 138 (1994), S. 105-112

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ISSN: 1432-1424

Keywords: Nucleus ; Nuclear membrane ; Nuclear envelope ; Nucleocytoplasmic transport ; Nuclear pore complex ; Ions

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Conclusions Patch-clamp, fluorescence microscopy and high-resolution EM have yielded new data which question current concepts of ion transport across the nuclear envelope. The current challenge is to prove that NICs play an important role in nuclear function either through their identity with NPCs or parts thereof. Electrophysiological designs must incorporate cell biology approaches as done for putative protein-conducting channels of the ER (Simon & Blobel, 1991, 1992). Preliminary studies (J.O. Bustamante et al., in preparation), illustrated in Fig. 1, confirm that, as is the case of NPCs, NICs cannot function in an extracellular environment deprived of cytosolic factors. Our current efforts aim at clarifying if the lysate factors required for macromolecular transport through NPCs (e.g., Adam et al., 199la,b) are those required for NIC open-shut gating. Monoclonal antibodies to identified NPC proteins should be helpful in furthering the identification of NICs with NPCs. Our observation of blockade of NIC activity with wheat germ agglutinin, discussed above, supports the idea that NPCs are the structural foundation for NICs. Should NICs be identified with NPCs or otherwise proven essential to nucleocytoplasmic transport, NIC response to cytoplasmic signals would suggest that they are relevant to mediating gene control by transduction and other cytosolic signals (Karin, 1991; Davis, 1992). NIC influence on intranuclear free ion concentrations is potentially important to controlling gene activation, repression, as well as the efficiency and fidelity of gene expression (e.g., Kroeger, 1963; Lezzi & Gilbert, 1970; Leake et al., 1972; Morgan & Curran, 1986; Li & Rokita, 1991; Lippard, 1993). As electrophysiological and cell/molecular biology approaches merge, the prospects improve for the field of nuclear electrophysiology.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00232638

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