The lead structure in cardiac glycosides is 5 ?,14 ?-androstane-3 ?,14-diol

Schönfeld, Werner; Weiland, Jürgen; Lindig, Claus; Masnyk, Marek; Kabat, Marek; Kurek, A.; Wicha, J.; Repke, K.

doi:10.1007/bf00496377

Cited by 100 publications

(49 citation statements)

References 42 publications

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“…3C), likely contributing to high affinity binding. This feature agrees well with the observation that the NH 2 substitution of the hydroxyl at C4* provides the highest affinity (25), because it will form a hydrogen bond with Glu-122 as well as Glu-319 (Fig. 3C), a residue affecting ouabain binding (8).…”

Section: Resultssupporting

confidence: 90%

Crystal structure of the sodium-potassium pump (Na ⁺ ,K ⁺ -ATPase) with bound potassium and ouabain

Ogawa

Shinoda

Cornelius

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

315

274

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The sodium-potassium pump (Na ؉ ,K ؉ -ATPase) is responsible for establishing Na ؉ and K ؉ concentration gradients across the plasma membrane and therefore plays an essential role in, for instance, generating action potentials. Cardiac glycosides, prescribed for congestive heart failure for more than 2 centuries, are efficient inhibitors of this ATPase. Here we describe a crystal structure of Na ؉ ,K ؉ -ATPase with bound ouabain, a representative cardiac glycoside, at 2.8 Å resolution in a state analogous to E2⅐2K ؉ ⅐Pi. Ouabain is deeply inserted into the transmembrane domain with the lactone ring very close to the bound K ؉ , in marked contrast to previous models. Due to antagonism between ouabain and K ؉ , the structure represents a low-affinity ouabain-bound state. Yet, most of the mutagenesis data obtained with the high-affinity state are readily explained by the present crystal structure, indicating that the binding site for ouabain is essentially the same. According to a homology model for the high affinity state, it is a closure of the binding cavity that confers a high affinity.cardiac glycosides ͉ crystallography

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Section: Resultssupporting

confidence: 90%

Crystal structure of the sodium-potassium pump (Na ⁺ ,K ⁺ -ATPase) with bound potassium and ouabain

Ogawa

Shinoda

Cornelius

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

315

274

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“…The response of the latter enzymes to the analogs used is not known. However, studies of the structureactivity relationships for inhibition of Na,K-ATPase by large numbers of cardiotonic steroids 15,16,30 suggest that a similar macroscopic pattern applies generally across different species and tissues in spite of large differences in affinities. Therefore, the rank order pattern for the OUA analogs observed with the dog enzyme is likely to apply, at least in a broad way, to each of the rat isoforms.…”

Section: Plasma Steroid Levels In Rats Infusedmentioning

confidence: 99%

“…14 Because ouabain and digoxin have comparable potency as inhibitors of the isoforms of the rat sodium pump, 15 we suspected that the long-term pressor activity of ouabain might be independent of its ability to inhibit the sodium pump (Na,K-ATPase). Because the sugar and integrity of the lactone ring have quantitative contributions to the high potency of ouabain as an inhibitor of Na,K-ATPase, 16 we investigated a series of natural and synthetic analogs of ouabain for their effects on long-term blood pressure in normal rats. In each analog, the integrity of the steroid nucleus was maintained so the hemo-dynamic impact of structural alterations that affect their potency as inhibitors of Na,K-ATPase could be determined.…”

mentioning

confidence: 99%

Structure-Activity Relationships for the Hypertensinogenic Activity of Ouabain

2001

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Abstract-Elevated levels of an endogenous ouabain circulate in many patients with essential hypertension. However, in contrast to ouabain, digoxin does not induce hypertension. This study investigated the hypothesis that within a single cardiac glycoside, the structural elements that induce hypertension differ from those responsible for high potency as a sodium pump inhibitor. Normal male Sprague-Dawley rats received infusions of vehicle (VEH), rhamnose (RHA), ouabain (OUA), ouabagenin (OGN), dihydro-ouabain (DHO), iso-ouabain (ISO), and a lactone ring opened analog (ORO) at 30 g ⅐ kg Ϫ1 ⅐ 24 h Ϫ1 for 5 weeks via subcutaneous osmotic pumps. Cuff pressures were taken weekly. At the end of the study, trunk blood was harvested, extracted by C18 column, and subjected to high-performance liquid chromatography. Fractions were analyzed for OUA, OGN, and DHO by immunoassay. In OUA-, OGN-, and DHO-infused rats, 1 main peak of immunoreactivity corresponding to the infused agent was found. No evidence of in vivo conversion to OUA or DHO was found for any analog except ORO. At 5 weeks, systolic blood pressures in VEH, RHA, OUA, OGN, DHO, ISO, and ORO were 132Ϯ2.5, 133Ϯ1.5, 159Ϯ2.6,* 154Ϯ4,* 167Ϯ4,* † 171Ϯ2.2,* † and 169Ϯ2.4* † mm Hg, respectively (*PϽ0.01 versus VEH and RHA, †PϽ0.05 versus OUA). The hypertensinogenic activity was greater than OUA in 3 analogs (DHO, ISO, and ORO) in which the lactone was saturated, conformationally restrained by linkage with the oxygen at C14, or opened, respectively. These compounds were weak inhibitors of dog kidney Na,K-ATPase. Thus, RHA and the unsaturated lactone ring are crucial to the high potency of OUA as an inhibitor of the sodium pump but appear to be unrelated to its ability to induce hypertension. The conclusion that this form of hypertension is mediated primarily by the steroid nucleus suggests also that OUA may have a mechanism of action independent of the sodium pump.

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“…While they show considerable structural diversity, all members of this family share a common steroidal framework, regarded as the pharmacophoric moiety responsible for the activity of these compounds [27] . Generally, this steroid core is double-substituted with an unsaturated lactone ring at position 17 and a sugar portion at position 3; and this lactone moiety of cardiac glycosides is critical for their potent inhibition of Na + /K + -ATPase.…”

Section: Introductionmentioning

confidence: 99%

Active ingredients in Chinese medicines promoting blood circulation as Na+/K+-ATPase inhibitors

Chen¹,

Jinn

Chen³

et al. 2011

Acta Pharmacol Sin

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The positive inotropic effect of cardiac glycosides lies in their reversible inhibition on the membrane-bound Na + /K + -ATPase in human myocardium. Steroid-like compounds containing a core structure similar to cardiac glycosides are found in many Chinese medicines conventionally used for promoting blood circulation. Some of them are demonstrated to be Na + /K + -ATPase inhibitors and thus putatively responsible for their therapeutic effects via the same molecular mechanism as cardiac glycosides. On the other hand, magnesium lithospermate B of danshen is also proposed to exert its cardiac therapeutic effect by effectively inhibiting Na + /K + -ATPase. Theoretical modeling suggests that the number of hydrogen bonds and the strength of hydrophobic interaction between the effective ingredients of various medicines and residues around the binding pocket of Na + /K + -ATPase are crucial for the inhibitory potency of these active ingredients. Ginsenosides, the active ingredients in ginseng and sanqi, substantially inhibit Na + /K + -ATPase when sugar moieties are attached only to the C-3 position of their steroid-like structure, equivalent to the sugar position in cardiac glycosides. Their inhibitory potency is abolished, however, when sugar moieties are linked to C-6 or C-20 position of the steroid nucleus; presumably, these sugar attachments lead to steric hindrance for the entrance of ginsenosides into the binding pocket of Na + /K + -ATPase. Neuroprotective effects of cardiac glycosides, several steroid-like compounds, and magnesium lithospermate B against ischemic stroke have been accordingly observed in a cortical brain slice-based assay model, and cumulative data support that effective inhibitors of Na + /K + -ATPase in the brain could be potential drugs for the treatment of ischemic stroke.

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The lead structure in cardiac glycosides is 5 ?,14 ?-androstane-3 ?,14-diol

Cited by 100 publications

References 42 publications

Crystal structure of the sodium-potassium pump (Na ⁺ ,K ⁺ -ATPase) with bound potassium and ouabain

Crystal structure of the sodium-potassium pump (Na ⁺ ,K ⁺ -ATPase) with bound potassium and ouabain

Structure-Activity Relationships for the Hypertensinogenic Activity of Ouabain

Active ingredients in Chinese medicines promoting blood circulation as Na+/K+-ATPase inhibitors

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The lead structure in cardiac glycosides is 5 ?,14 ?-androstane-3 ?,14-diol

Cited by 100 publications

References 42 publications

Crystal structure of the sodium-potassium pump (Na + ,K + -ATPase) with bound potassium and ouabain

Crystal structure of the sodium-potassium pump (Na + ,K + -ATPase) with bound potassium and ouabain

Structure-Activity Relationships for the Hypertensinogenic Activity of Ouabain

Active ingredients in Chinese medicines promoting blood circulation as Na+/K+-ATPase inhibitors

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Product

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Crystal structure of the sodium-potassium pump (Na ⁺ ,K ⁺ -ATPase) with bound potassium and ouabain

Crystal structure of the sodium-potassium pump (Na ⁺ ,K ⁺ -ATPase) with bound potassium and ouabain