Interactions between Clinically Used Bisphosphonates and Bone Mineral: from Coordination Chemistry to Biomedical Applications and Beyond

Gałęzowska, Joanna

doi:10.1002/cmdc.201700769

Cited by 25 publications

(23 citation statements)

References 157 publications

(458 reference statements)

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“…In basic pH, CaL complexes (for all studied ligands) undergo one step hydrolysis to CaH –1 L (Ca(OH)L) species; the p K s of these processes lie in the range of 9.91 – 10.17 and can be assigned to deprotonation of water molecules bound to Ca 2+ . Undoubtedly, neither NH + R nitrogen nor RNH 3 + moieties do not participate in metal ion binding, in contrast to e.g., Cu 2+ , which has been found in many examples of N‐BPs both in solution and solid state . Proposed coordination models for inc and L 2 do not differ significantly from coordination of L 1 , what leads us to an assumption that the binding is implemented in the same manner with using phosphonic functions of the ligands only.…”

Section: Resultsmentioning

confidence: 97%

“…In basic pH, CaL complexes (for all studied ligands) undergo one step hydrolysis to CaH -1 L (Ca(OH)L) species; the pKs of these processes lie in the range of 9.91 -10.17 and can be assigned to deprotonation of water molecules bound to Ca 2+ . Undoubtedly, neither NH + R nitrogen nor RNH 3 + moieties do not participate in metal ion binding, [3] [20] in contrast to e.g., Cu 2+ , [32] [39] which has been found in many examples of N-BPs both in solution and solid [39] Due to very basic constants of amine functions NH + R, which do not deprotonate in measurable range of pH for inc and L 1 correct notification should be: inc = Hinc and L 1 = HL, however, here it was omitted for simplicity as suggested for analogous compounds in the literature. [40] [b] Obtained using Hyss2009 program, based on traditional approach introduced by Schwarzenbach, [41] state.…”

Section: Interactions Of N-bps With Ca 2+ Ionsmentioning

confidence: 99%

“…[20] [40] Ranks of logb values of CaL and CaL 2 complexes are as follows: 4.56 (inc), 4.86 (L 1 ), and 5.66 (L 2 ), and 8.52 (inc), 8.59 (L 2 ), and 8.93 (L 1 ), respectively; suggesting similar abilities of studied ligands to bind calcium cations in comparison to each others as well as other aminobisphosphonates, including those of medical use. [3][43] [44] However, when calculating logarithms of conditional stability constants (logK c ) at fixed pH 7.4 with respect to CaL, this rank is the opposite: 4.53 (inc), 4.00 (L 1 ), and 3.49 (L 2 ) and is in fact a better reflection of real binding strength, independent from co-existence of different species in the solution. The complexation process of L 1 was described in details in our previous studies [32] and assumed purely oxygen coordination of Ca 2+ .…”

Section: Interactions Of N-bps With Ca 2+ Ionsmentioning

confidence: 99%

“…Bisphosphonates (BPs) are a class of bone‐targeting drugs that have been used extensively in the treatment of bone‐resorptive diseases: osteoporosis, malignancy‐related hypercalcemia, Pagets disease, etc . BP drugs are divided into two subclasses characterized by a different mechanism of antiresorptive action and the rate of activity: i) non‐amino‐containing bisphosphonates (NN‐BP); less potent that are metabolized to cytotoxic analogs of adenosine triphosphate in the cell, and ii) amino‐containing bisphosphonates (N‐BP) ‐ considered as more potent due to the ability of inhibition of the mevalonate pathway enzyme farnesyl diphosphate (FPP) synthase in osteoclasts that leads to their apoptosis …”

Section: Introductionmentioning

confidence: 99%

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Thermodynamics of the Interactions of Aminobisphosphonates and Their Calcium Complexes with Bovine Serum Albumin

Gałęzowska

Chmielewska

2018

Chemistry & Biodiversity

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Binding of bisphosphonates (BPs) to plasma proteins was investigated in the 1990s as a pharmacokinetic issue in order to fully understand bio-distribution of BP drugs which are successfully used for the treatment of several bone-related diseases. It has been hypothesized that binding to these proteins occurs with low to moderate affinity despite of unfavorable hydrophilicity of BPs, and Ca was identified as a strong catalyst of this binding. However, these studies mainly consisted in the separation and quantification of bound and unbound drug or protein fractions using chromatographic techniques without an outcome on the molecular level. Presented thermodynamic studies analyze the interactions of three N-BPs as well as their Ca complexes with bovine serum albumine (BSA) by means of isothermal calorimetry. The studies reveal spontaneous enthalpy favored interactions of N-BPs (amino-containing BPs) with BSA, which are enhanced by the presence of Ca ions up to ~15-fold, strongly depending on N-BP. Those are low affinity binding events, comparable to Ca -N-BP interactions, which most likely occur at Ca binding site(s). It is a first example of estimation of thermodynamic forces of interactions of free and calcium-bound N-BPs with albumin.

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Section: Resultsmentioning

confidence: 97%

Section: Interactions Of N-bps With Ca 2+ Ionsmentioning

confidence: 99%

Section: Interactions Of N-bps With Ca 2+ Ionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Thermodynamics of the Interactions of Aminobisphosphonates and Their Calcium Complexes with Bovine Serum Albumin

Gałęzowska

Chmielewska

2018

Chemistry & Biodiversity

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“…Surprisingly, a biodistribution study revealed that among examined radiolabeled complexes, only 177 Lu-HEDP has high bone uptake. This can be explained by the significant role of hydroxyl group which enhanced chemisorptions of OH-phosphonates, possible formation of tridentate complex and more stable binding to Ca 2+ (Gałęzowska, 2018;Palma et al, 2011). The bone uptake of the activity was observed 0.5 h post-injection and it became quite significant at 2 h. At this time point, the total skeleton was clearly visible with an insignificant accumulation of activity in any soft tissues.…”

Section: Discussionmentioning

confidence: 94%

Investigation of 177Lu-labeled HEDP, DPD, and IDP as potential bone pain palliation agents

Mirković

Milanović

Stanković

et al. 2020

Journal of Radiation Research and Applied Sciences

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Application of bone-seeking radiopharmaceuticals is one of the modalities in the management of metastatic bone pain. The present study aimed to investigate the potential of 177 Lu-labeled phosphate/phosphonate ligands: 1-hydroxyethane 1,1-diphosphonic acid (HEDP), 2,3-dicarboxypropane-1,1-diphosphonic acid (DPD), and imidodiphosphate tetrasodium salt (IDP), as bone pain palliation agents. HEDP, DPD, and IDP were radiolabeled with 177 Lu in high radiolabeling yield (98.49%, 93.31%, and 90.69%, respectively), forming in vitro stable radiolabeled complexes in saline and human serum after 96 h. Biodistribution was followed by imaging studies and ex vivo measurement of radioactivity in organs in healthy Wistar rats. Significant bone accumulation and long retention even after 96 h (3.85 ± 0.91%ID/g), as well as relatively low uptake in soft tissue such as liver and spleen (<1%ID/g), were observed for 177 Lu-HEDP. Two other radiolabeled ligands showed lower accumulations in bone (<1% ID/g) and higher accumulations in liver and spleen at examined time points (>1.5% ID/g). Obtained results suggest that difference in the chemical structure of phosphonates/phosphates influences the rate of bone incorporation of 177 Lu-radiolabeled complexes. Desirable biodistribution pattern of 177 Lu-HEDP makes it suitable for its further preclinical investigations as a potential bone pain palliation agent.

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Synthesis of Geminal Bis‐ and Tetrakisphosphonate Ester Derivatives and Their Coordination Behavior Towards Ca(II) Ions

Koehne

Pietschnig

2022

Eur J Inorg Chem

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The preparation and thorough characterization of a variety of (arylmethylene)phosphonate ester derivatives (S1–S7) as well as derived geminal bisphosphonate (BP) ester ligands (L1–L7) is presented. Subsequent complexation reactions of CaCl2 with selected BPs (L1–L3) and a known aliphatic tetrakisphosphonate ester (L8) yield the respective Ca(II) coordination compounds [Ca(H2O)2(L1‐‐L3)2]Cl2 (C1‐‐C3) and [Ca(L8)Cl2]n (C4) for potential future application as multi‐delivery systems in osteoporosis treatment. Obtained SCXRD and 1H DOSY‐NMR data provide a detailed insight into their solid‐ as well as solution‐state structures extending the so far scarcely found X‐ray studies on geminal BP‐supported Ca(II) complexes.

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Interactions between Clinically Used Bisphosphonates and Bone Mineral: from Coordination Chemistry to Biomedical Applications and Beyond

Cited by 25 publications

References 157 publications

Thermodynamics of the Interactions of Aminobisphosphonates and Their Calcium Complexes with Bovine Serum Albumin

Thermodynamics of the Interactions of Aminobisphosphonates and Their Calcium Complexes with Bovine Serum Albumin

Investigation of 177Lu-labeled HEDP, DPD, and IDP as potential bone pain palliation agents

Synthesis of Geminal Bis‐ and Tetrakisphosphonate Ester Derivatives and Their Coordination Behavior Towards Ca(II) Ions

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