Metabolic control in isolated brown fat cells

The activity of the uncoupling protein in brown fat mitochondria is enhanced at alkaline pH, leading to the hypothesis that changes in intracellular pH (pHi) may modulate the thermogenic response to sympathetic stimulation. We employed ratio imaging of the fluorescent dye 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein to measure pHi in acutely isolated single brown fat cells from hamster and neonatal rat and in cultured rat cells. Basal pHi averaged approximately 7.2 in HCO3- media and 0.1-0.15 pH units lower in nominally HCO3(-)-free media in all cell types. In both HCO3- and HCO3(-)-free media, stimulation with norepinephrine (NE) typically caused an alkalinization of approximately 0.05-0.1 pH units, which was followed by a smaller net acidification occurring primarily after NE was removed. Alkalinization seemed to be mediated predominantly by alpha-adrenergic stimulation, while acidification most often followed beta-adrenergic activation. Similar pHi changes were elicited by NE in rat and hamster cells, but responses were more frequent in hamster cells. Assays of recovery from ammonium prepulse-induced acid loads indicated that rat and hamster cells have both Na(+)-H+ and Na(+)- and HCO3(-)-dependent regulatory systems, while hamster cells have, in addition, a Na(+)-independent recovery mechanism activated at acid pHi. We conclude that alpha-adrenergic alkalinization of brown fat may contribute to the control of thermogenesis.

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Membrane responses to norepinephrine in cultured brown fat cells.

The Journal of General Physiology ◽

10.1085/jgp.95.3.523 ◽

1990 ◽

Vol 95 (3) ◽

pp. 523-544 ◽

Cited By ~ 33

Author(s):

M T Lucero ◽

P A Pappone

Keyword(s):

Brown Fat ◽

Fat Cells ◽

Adrenergic Agonists ◽

Whole Cell ◽

K Channels ◽

Inward Current ◽

General Physiology ◽

Perforated Patch ◽

Beta Adrenergic Agonists ◽

Outward Currents

We used the "perforated-patch" technique (Horn, R., and A. Marty, 1988. Journal of General Physiology. 92:145-159) to examine the effects of adrenergic agonists on the membrane potentials and membrane currents in isolated cultured brown fat cells from neonatal rats. In contrast to our previous results using traditional whole-cell patch clamp, 1-23-d cultured brown fat cells clamped with the perforated patch consistently showed vigorous membrane responses to both alpha- and beta-adrenergic agonists, suggesting that cytoplasmic components essential for the thermogenic response are lost in whole-cell experiments. The membrane responses to adrenergic stimulation varied from cell to cell but were consistent for a given cell. Responses to bath-applied norepinephrine in voltage-clamped cells had three possible components: (a) a fast transient inward current, (b) a slower outward current carried by K+ that often oscillated in amplitude, and (c) a sustained inward current largely by Na+. The fast inward and outward currents were activated by alpha-adrenergic agonists while the slow inward current was mediated by beta-adrenergic agonists. Oscillating outward currents were the most frequently seen response to norepinephrine stimulation. Activation of this current, termed IK,NE, was independent of voltage and seemed to be carried by Ca2(+)-activated K channels since the current oscillated in amplitude at constant membrane potential and gradually decreased when the cells were bathed with calcium-free external solution. IK,NE had a novel pharmacology in that it could be blocked by 4-aminopyridine, tetraethylammonium, apamin, and charybdotoxin. Both IK,NE and the voltage-gated K channels also present in brown fat (Lucero, M. T., and P. A. Pappone, 1989a. Journal of General Physiology. 93:451-472) may play a role in maintaining cellular homeostasis in the face of the high metabolic activity involved in thermogenesis.

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Kinase inactive Tyrosine kinase (Tyk2) Supports Differentiation of Brown fat Cells

Endocrinology ◽

10.1210/en.2015-2048 ◽

2016 ◽

pp. en.2015-2048 ◽

Cited By ~ 3

Author(s):

Vidisha Raje ◽

Marta Derecka ◽

Marc Cantwell ◽

Jeremy Meier ◽

Karol Szczepanek ◽

...

Keyword(s):

Tyrosine Kinase ◽

Brown Fat ◽

Fat Cells

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Glucose uptake in brown fat cells is dependent on mTOR complex 2–promoted GLUT1 translocation

Journal of Experimental Medicine ◽

10.1084/jem.21112oia69 ◽

2014 ◽

Vol 211 (12) ◽

pp. 21112OIA69

Author(s):

Jessica M. Olsen ◽

Masaaki Sato ◽

Olof S. Dallner ◽

Anna L. Sandström ◽

Didier F. Pisani ◽

...

Keyword(s):

Glucose Uptake ◽

Brown Fat ◽

Fat Cells

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Effects of P2 purinergic receptor stimulation in brown adipocytes

AJP Cell Physiology ◽

10.1152/ajpcell.1997.273.2.c679 ◽

1997 ◽

Vol 273 (2) ◽

pp. C679-C686 ◽

Cited By ~ 30

Author(s):

S. C. Lee ◽

P. A. Pappone

Keyword(s):

Heat Production ◽

Purinergic Receptor ◽

Cytosolic Calcium ◽

Extracellular Atp ◽

Brown Fat ◽

Brown Adipocyte ◽

Fat Cells ◽

Sympathetic Stimulation ◽

Adrenergic Stimulation ◽

Brown Adipocytes

Sympathetic stimulation of brown adipocytes plays a major role in body energy homeostasis by activating energy-wasting pathways. Sympathetic neuronal input initiates a variety of metabolic, developmental, and membrane responses in brown fat cells. Many of these actions are mediated by adrenergic pathways mobilized by released norepinephrine. However, since sympathetic stimulation may also release vesicular ATP, we tested brown fat cells for ATP responses. Micromolar concentrations of extracellular ATP had a number of effects on brown adipocytes. We have shown previously that ATP elicits substantial (average of approximately 30%) increases in cell membrane capacitance (P. A. Pappone and S. C. Lee, J. Gen. Physiol. 108: 393-404, 1996). Here, we show that cytosolic calcium levels were increased by ATP, both through release from intracellular stores and through influx, as assessed by fura 2 imaging. In addition, ATP indirectly activated a nonselective cation conductance that was independent of cytosolic calcium levels in patch voltage-clamped brown fat cells. Similar calcium, conductance, and capacitance responses could be activated by 2-methylthio-ATP and ADP, consistent with mediation by a P2 type purinergic receptor. Calorimetric measurements from cell suspensions showed that ATP increased basal heat production of isolated brown fat cells by approximately 40% but had no effect on the greater than fivefold increase in heat production seen with maximal adrenergic stimulation. These myriad responses to extracellular ATP suggest that P2 receptor-mediated signaling is important in brown adipocyte physiology and that sympathetic stimulation may normally activate purinergic as well as adrenergic pathways in brown fat.

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Norepinephrine-Induced Shift in Levels of Adenosine 3':5'-monophosphate and ATP Parallel to Increased Respiratory Rate and Lipolysis in Isolated Hamster Brown-Fat Cells

European Journal of Biochemistry ◽

10.1111/j.1432-1033.1976.tb10170.x ◽

1976 ◽

Vol 62 (2) ◽

pp. 383-390 ◽

Cited By ~ 70

Author(s):

Bertil PETTERSSON ◽

Ivar VALLIN

Keyword(s):

Respiratory Rate ◽

Brown Fat ◽

Fat Cells

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Alpha-adrenergic stimulation activates a calcium-sensitive chloride current in brown fat cells.

The Journal of General Physiology ◽

10.1085/jgp.106.2.231 ◽

1995 ◽

Vol 106 (2) ◽

pp. 231-258 ◽

Cited By ~ 18

Author(s):

P A Pappone ◽

S C Lee

Keyword(s):

Intracellular Calcium ◽

Brown Fat ◽

Chloride Conductance ◽

Free Calcium ◽

Fat Cells ◽

Adrenergic Stimulation ◽

Chloride Currents ◽

Whole Cell ◽

Perforated Patch ◽

Whole Cell Recordings

The first response of brown adipocytes to adrenergic stimulation is a rapid depolarizing conductance increase mediated by alpha-adrenergic receptors. We used patch recording techniques on cultured brown fat cells from neonatal rats to characterize this conductance. Measurements in perforated patch clamped cells showed that fast depolarizing responses were frequent in cells maintained in culture for 1 d or less, but were seen less often in cells cultured for longer periods. Ion substitution showed that the depolarization was due to a selective increase in membrane chloride permeability. The reversal potential for the depolarizing current in perforated patch clamped cells indicated that intracellular chloride concentrations were significantly higher than expected if chloride were passively distributed. The chloride conductance could be activated by increases in intracellular calcium, either by exposing intact cells to the ionophore A23187 or by using pipette solutions with free calcium levels of 0.2-1.0 microM in whole-cell configuration. The chloride conductance did not increase monotonically with increases in intracellular calcium, and going whole cell with pipette-free calcium concentrations > or = 10 microM rapidly inactivated the current. The chloride currents ran down in whole-cell recordings using intracellular solutions of various compositions, and were absent in excised patches. These findings imply that cytoplasmic factors in addition to intracellular calcium are involved in regulation of the chloride conductance. The chloride currents could be blocked by niflumic acid or flufenamic acid with IC50s of 3 and 7 microM, or by higher concentrations of SITS (IC50 = 170 microM), DIDS (IC50 = 50 microM), or 9-anthracene carboxylic acid (IC50 = 80 microM). The chloride conductance activated in whole cell by intracellular calcium had the permeability sequence PNOS > PI > PBr > PCl > Paspartate, measured from either reversal potentials or conductances. Instantaneous current-voltage relations for the calcium-activated chloride currents were linear in symmetric chloride solutions. Much of the current was time and voltage independent and active at all membrane potentials between -100 and +100 mV, but an additional component of variable amplitude showed time-dependent activation with depolarization. Volume-sensitive chloride currents were also present in brown fat cells, but differed from the calcium-activated currents in that they responded to cell swelling, required intracellular ATP in whole-cell recordings, showed no sensitivity to intracellular or extracellular calcium levels, and were relatively resistant to block by niflumic and flufenamic acids. (ABSTRACT TRUNCATED AT 400 WORDS)

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