Sumedha Bhagat scite author profile

Estrogen receptors (ER) alpha and beta are members of a superfamily of nuclear receptors and mediate estrogen [17beta-estradiol (E2)] signaling. ERbeta has considerably less transcription potency than ERalpha in heterologous expression systems that use E2 response elements (ERE) in tandem as the trans-acting unit. We show here that despite similar intracellular characteristics, ERbeta, in contrast to ERalpha, fails to induce gene transcription synergistically in response to E2 from tandem EREs. Moreover, our results indicate that ERalpha-specific partial agonistic activity of antagonists occurs additively. Although synergy contributes, it is not sufficient for differences in the transcription potencies between the ER subtypes. We demonstrate here that differences in the abilities of ERs to integrate activation functions through functional interactions between amino and carboxyl termini are critical for the transcriptional strength of ER subtypes.

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P-Glycoprotein Shows Strong Catalytic Cooperativity between the Two Nucleotide Sites

Senior

Bhagat

1998

Biochemistry

107

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P-Glycoprotein (Pgp) (also known as multidrug-resistance protein) contains two nucleotide binding sites, both of which are catalytic ATPase sites. The covalent reagent 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole (NBD-Cl) reacts in catalytic sites, and full inactivation of ATPase activity occurs at a reaction stoichiometry of 1 mol of NBD-Cl/mol of Pgp. We show that, at reaction stoichiometry of < or = 1 mol/mol, both nucleotide sites become labeled in relatively nonselective fashion. There is therefore strong interaction between the two nucleotide sites because (a) reaction of one site with NBD-Cl severely impedes reaction of reagent with the other site, and (b) reaction of one site inhibits steady-state ATPase, i.e. both sites are inhibited. Vanadate-trapping experiments revealed that when one nucleotide site was reacted with NBD-Cl, not even a single ATPase turnover event could occur in the other, intact, nucleotide site. The data demonstrate therefore that catalytic cooperativity between the two nucleotide sites in Pgp is extremely strong and mandatory for catalysis.

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Inhibition of P-Glycoprotein ATPase Activity by Beryllium Fluoride

1997

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ATPase activity of P-glycoprotein (multidrug-resistance protein) was found to be potently inhibited by beryllium fluoride (BeFx) in combination with MgATP, MgADP, or corresponding Mg-8-azido-nucleotides. Inhibition was due to trapping of nucleoside diphosphate at catalytic sites. Full inhibition was achieved on trapping of 1 mol of nucleotide per mol of Pgp. Reactivation was slow (t(1/2) = 32 min at 37 degrees C), and release of trapped nucleotide correlated with recovery of ATPase. Trapping of 8-azido-ADP followed by UV irradiation yielded permanent inactivation and specific labeling of Pgp in plasma membranes. Both N- and C-terminal nucleotide binding sites were labeled. These findings give strong confirmation of the concepts that in intact Pgp both nucleotide sites are active in MgATP hydrolysis, and that they interact strongly. The characteristics of inhibition by BeFx were similar in general to those seen with vanadate. However, PPi gave strong protection against BeFx inhibition, and in this respect, inhibition by BeFx was clearly different from vanadate inhibition.

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Inhibition of P-Glycoprotein ATPase Activity by Procedures Involving Trapping of Nucleotide in Catalytic Sites

Sankaran

Bhagat

Senior

1997

Archives of Biochemistry and Biophysics

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Sumedha Bhagat

Both P-glycoprotein Nucleotide-binding Sites Are Catalytically Active

Differences in the Abilities of Estrogen Receptors to Integrate Activation Functions Are Critical for Subtype-Specific Transcriptional Responses

P-Glycoprotein Shows Strong Catalytic Cooperativity between the Two Nucleotide Sites

Inhibition of P-Glycoprotein ATPase Activity by Beryllium Fluoride

Inhibition of P-Glycoprotein ATPase Activity by Procedures Involving Trapping of Nucleotide in Catalytic Sites

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