Special Issue on Synthetic Host Molecules

IF 2.3 4区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY Israel Journal of Chemistry Pub Date : 2024-07-29 DOI:10.1002/ijch.202400053
Assist. Prof. Dr. Víctor García-López, Prof. Dr. Ofer Reany
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This event offered a unique opportunity to unite experts from both subfields, fostering dialogues and collaborations. It was a particularly significant gathering after a hiatus caused by the COVID-19 pandemic, which had disrupted the individual meetings of each conference.</p><p>The field of synthetic host molecules originated in the ′60s when Charles J. Pedersen reported the first examples of crown ethers and their remarkable capabilities to bind alkali metal ions according to their cavity size and the metal radii. Shortly after, Jean-Marie Lehn developed cryptands, bicyclic crown ether compounds with higher selectivity. In 1979, Donald Cram introduced spherands, the first examples of synthetic hosts with complete preorganization, significantly reducing the energetic penalty associated with the reorganization and desolvation of crown ethers and cryptands. These groundbreaking contributions earned Pedersen, Lehn, and Cram the Nobel Prize in Chemistry in 1987, officially establishing the field of Supramolecular Chemistry.</p><p>Over the last four decades, the field has accelerated rapidly, developing numerous new classes of synthetic host molecules. These systems have evolved from molecules capable of binding organic and inorganic ions to advanced hosts with unique structural, catalytic, optoelectronic, magnetic, and transmembrane transport properties. They can selectively bind myriad organic and bioorganic molecules in diverse media, including water. As a result, these highly functional host molecules have found applications in various fields, including medicine, biotechnology, catalysis, chemical separation, data storage, polymer science, and nanotechnology. This progress has been made possible through interdisciplinary research that merges concepts from synthetic chemistry, physical organic chemistry, computational chemistry, biophysics, and state-of-the-art analytical techniques.</p><p><b>Prof. Pablo Ballester</b> and <b>Dr. Gemma Aragay</b> present an authoritative review on water-soluble aryl- and aryl-extended calix[4]pyrroles. They highlight their achievements over the last two decades to incorporate water-solubilizing groups, enhance the hydrophobic aromatic cavity, and reduce the conformational flexibility of calix[4]pyrroles, resulting in outstanding hosts capable of binding polar organic molecules in aqueous environments. Furthermore, the authors discuss the potential applications of these hosts as protective groups that sequester organic molecules participating in chemical reactions and provide insights into future applications, particularly at the water-solid interface, suggesting the use of calix[4]pyrroles in biotechnological applications.</p><p><b>Prof. Andreas Hening</b> and <b>Justin Neumann</b> present a review that summarises recent achievements in the utility of anionic calixarenes in biomembrane transport of peptides with a strong emphasis on understanding the mechanism of which cell-penetrating peptides (CPPs) are translocated across lipid bilayer membranes. They highlight the use of anionic calixarene derivatives as amphiphilic counterion activators that assist with CPP intake even at catalytic levels. Accordingly, the amphiphilic counterions partitioned into the lipid bilayer membrane and then formed a membrane-bound peptide-counterion complex, which shuttled across the membrane and then released into the vesicle lumen. Further examples of stimulus-responsive membrane transport point that these types of amphiphilic calixarenes enable membrane translocation and cytosolic delivery of hydrophilic molecules. Additionally, they also provide a side-benefit to this developed field that includes the use and standardized membrane transport screening assays.</p><p>Inspired by the lessons taught by biological systems, <b>Prof. Agustí Lledo</b> and his team are at the frontier of developing a new class of self-folding hosts based on calix[5]arenes with superior induced fit behavior. In this issue, they review the design principles, synthetic approaches used to obtain these hosts, and strategies for tuning their binding properties with the aid of molecular dynamic simulations. Their work represents a significant step towards understanding and emulating biological receptor dynamics.</p><p><b>Prof. Vladimir Azov and Francois J. De Beer</b> provide a comprehensive review of calix[4]arenes and calix[4]resorcinarene hosts equipped with redox-active moieties, such as ferrocene, tetrathiafulvalene, and quinones. They highlight the ability to develop hosts with switchable properties, particularly emphasizing how the binding and release of guest molecules can be controlled through redox or electrochemical stimuli, which alter the non-covalent interactions between the host and guest or physically change the host‘s cavity. Additionally, the authors discuss the potential of these redox-responsive hosts as a platform for developing innovative electrochemical sensors. They provide valuable insights into the future applications of switchable hosts, such as their integration into molecular machines for object manipulation and other nanotechnological applications.</p><p><b>Prof. Vaidhyanathan Ramamurthy</b> and <b>Amal Sam Sunny</b> report using an octa acid host to investigate the effect of molecular confinement on the Diels-Alder reaction of cyclopentadiene to obtain dicyclopentadiene in aqueous media. Although other hosts have been investigated for this purpose, this particular host is unique because it is fully closed, preventing the guest from interacting with the surrounding water. Through mechanistic investigations, the authors discovered that the reaction occurs at least 2000 times faster than in water, offering insights into the role of non-covalent interactions and molecular confinement in bringing the reactants to optimum proximity.</p><p><b>Prof. Ivan Castillo</b> and <b>Dr</b>. <b>Armando Berlanga-Vázquez</b> report using phenanthroline-functionalized calix[8]arene ligands that form complexes with Mn(I) for the electrocatalytic reduction of CO<sub>2</sub>. They successfully reduced CO<sub>2</sub> to CO and H<sub>2</sub>, and in some cases, they detected the formation of CH<sub>4</sub>. This study highlights the importance of the cavity provided by the calix[8]arene ligands to influence the catalytic behavior of the complex, which is different from the reactivity observed with analogous Mn(I) complexes that do not contain calixarene.</p><p><b>Prof. Mihail Barboiu</b> and his team reported on the ability of a pyrene box to bind various 1,ω-amino acids, differing in the length of their aliphatic chains. The pyrene box, a novel class of self-assembled host developed by this group, consists of two 1,3,5,8-pyrenetetrasulfonate anions laterally capped by H-bonding guanidinium or amino-guanidinium cations. Through NMR studies and analysis of numerous X-ray co-crystal structures, the authors investigated the potential effects of alkali metal countercations on the encapsulation process, system stability, and guest preference during competitive experiments. Additionally, the X-ray co-crystal structures allowed the authors to determine the conformation of guests within the host‘s confinement, providing insights into the system‘s dynamic preference for specific guests. This host represents a new platform to mimic the dynamic nature of some biological hosts.</p><p><b>Prof. Florian Beuerle</b> and <b>Dr. Svetlana Ivanova</b> contribute an in-depth review of covalent organic cages, covering their various classifications, design principles, and their synthesis. They describe how small, rigid molecules, such as cavitands and other building blocks, dynamically self-assemble through covalent bonds to generate shape-persisting cages with small cavities. These individual cages can further assemble into more extensive crystalline porous networks with broad applications. Importantly, the authors explain in detail how different analytical techniques are crucial for the characterization and investigation of these hosts.</p><p><b>Prof</b>. <b>Nuno Basílio</b> and <b>Prof. A. Jorge Parola</b> studied the effect of cucurbit[7]uril (CB[7]) complexation on protonated <i>trans</i>-chalcone dyes p<i>K</i><sub>a</sub> values. They successfully tuned the sign (complexation-induced positive or negative p<i>K</i><sub>a</sub> shifts) and magnitude by systematic engineering of <i>trans</i>-chalcone dyes. Accordingly, one generally observed an increase in the p<i>K</i><sub>a</sub> values of several guests because of the preferential binding of the protonated form over the conjugated base. Nevertheless, by careful modification, some deprotonated <i>trans</i>-chalcone dyes showed a higher affinity towards CB[7] than their protonated counterparts, leading to complexation-induced negative p<i>K</i><sub>a</sub> shifts. These results show that following rational design, the control of equilibria by CB[7] can be achieved.</p><p>In the review of <b>Prof. Huijuan Yu</b>, <b>Prof. Yuefei Wang</b> and co-workers, they describe the use of major macrocyclic host families, including cyclodextrins, calixarenes, cucurbiturils and pillararenes, in screening bioactive ingredients from herbal medicines and their druggability enhancement following their encapsulation in the cavity of the host molecules. Applications include developments of screening techniques, enhancement of solubility, stability, and bioavailability, and enhancement of extraction, efficiency.</p><p>We would like to thank all the authors of this special issue for their efforts and valuable contributions. We also thank Prof. Ehud Keinan for his leadership on this project and his continued support of the supramolecular community and Dr. Brian Johnson of Wiley-VCH, for his kind and continuous support.</p>","PeriodicalId":14686,"journal":{"name":"Israel Journal of Chemistry","volume":"64 6-7","pages":""},"PeriodicalIF":2.3000,"publicationDate":"2024-07-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1002/ijch.202400053","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Israel Journal of Chemistry","FirstCategoryId":"92","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1002/ijch.202400053","RegionNum":4,"RegionCategory":"化学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"CHEMISTRY, MULTIDISCIPLINARY","Score":null,"Total":0}
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Abstract

We are excited to introduce this special issue of the Israel Journal of Chemistry on Synthetic Host Molecules to celebrate the remarkable progress of the field. Featuring eleven scientific reviews and research articles from leading scientists worldwide, the special issue on synthetic host molecules explores the latest advances in some of the host systems developed during the last decades.

This issue also commemorates the milestone of the Joint Conference on Calixarenes and Cucurbiturils (JCCC 2023), which merged the 17th International Conference on Calixarenes (Calix 2023) and the 7th International Conference on Cucurbiturils (ICCB 2023) in Tel Aviv in July 2023. This event offered a unique opportunity to unite experts from both subfields, fostering dialogues and collaborations. It was a particularly significant gathering after a hiatus caused by the COVID-19 pandemic, which had disrupted the individual meetings of each conference.

The field of synthetic host molecules originated in the ′60s when Charles J. Pedersen reported the first examples of crown ethers and their remarkable capabilities to bind alkali metal ions according to their cavity size and the metal radii. Shortly after, Jean-Marie Lehn developed cryptands, bicyclic crown ether compounds with higher selectivity. In 1979, Donald Cram introduced spherands, the first examples of synthetic hosts with complete preorganization, significantly reducing the energetic penalty associated with the reorganization and desolvation of crown ethers and cryptands. These groundbreaking contributions earned Pedersen, Lehn, and Cram the Nobel Prize in Chemistry in 1987, officially establishing the field of Supramolecular Chemistry.

Over the last four decades, the field has accelerated rapidly, developing numerous new classes of synthetic host molecules. These systems have evolved from molecules capable of binding organic and inorganic ions to advanced hosts with unique structural, catalytic, optoelectronic, magnetic, and transmembrane transport properties. They can selectively bind myriad organic and bioorganic molecules in diverse media, including water. As a result, these highly functional host molecules have found applications in various fields, including medicine, biotechnology, catalysis, chemical separation, data storage, polymer science, and nanotechnology. This progress has been made possible through interdisciplinary research that merges concepts from synthetic chemistry, physical organic chemistry, computational chemistry, biophysics, and state-of-the-art analytical techniques.

Prof. Pablo Ballester and Dr. Gemma Aragay present an authoritative review on water-soluble aryl- and aryl-extended calix[4]pyrroles. They highlight their achievements over the last two decades to incorporate water-solubilizing groups, enhance the hydrophobic aromatic cavity, and reduce the conformational flexibility of calix[4]pyrroles, resulting in outstanding hosts capable of binding polar organic molecules in aqueous environments. Furthermore, the authors discuss the potential applications of these hosts as protective groups that sequester organic molecules participating in chemical reactions and provide insights into future applications, particularly at the water-solid interface, suggesting the use of calix[4]pyrroles in biotechnological applications.

Prof. Andreas Hening and Justin Neumann present a review that summarises recent achievements in the utility of anionic calixarenes in biomembrane transport of peptides with a strong emphasis on understanding the mechanism of which cell-penetrating peptides (CPPs) are translocated across lipid bilayer membranes. They highlight the use of anionic calixarene derivatives as amphiphilic counterion activators that assist with CPP intake even at catalytic levels. Accordingly, the amphiphilic counterions partitioned into the lipid bilayer membrane and then formed a membrane-bound peptide-counterion complex, which shuttled across the membrane and then released into the vesicle lumen. Further examples of stimulus-responsive membrane transport point that these types of amphiphilic calixarenes enable membrane translocation and cytosolic delivery of hydrophilic molecules. Additionally, they also provide a side-benefit to this developed field that includes the use and standardized membrane transport screening assays.

Inspired by the lessons taught by biological systems, Prof. Agustí Lledo and his team are at the frontier of developing a new class of self-folding hosts based on calix[5]arenes with superior induced fit behavior. In this issue, they review the design principles, synthetic approaches used to obtain these hosts, and strategies for tuning their binding properties with the aid of molecular dynamic simulations. Their work represents a significant step towards understanding and emulating biological receptor dynamics.

Prof. Vladimir Azov and Francois J. De Beer provide a comprehensive review of calix[4]arenes and calix[4]resorcinarene hosts equipped with redox-active moieties, such as ferrocene, tetrathiafulvalene, and quinones. They highlight the ability to develop hosts with switchable properties, particularly emphasizing how the binding and release of guest molecules can be controlled through redox or electrochemical stimuli, which alter the non-covalent interactions between the host and guest or physically change the host‘s cavity. Additionally, the authors discuss the potential of these redox-responsive hosts as a platform for developing innovative electrochemical sensors. They provide valuable insights into the future applications of switchable hosts, such as their integration into molecular machines for object manipulation and other nanotechnological applications.

Prof. Vaidhyanathan Ramamurthy and Amal Sam Sunny report using an octa acid host to investigate the effect of molecular confinement on the Diels-Alder reaction of cyclopentadiene to obtain dicyclopentadiene in aqueous media. Although other hosts have been investigated for this purpose, this particular host is unique because it is fully closed, preventing the guest from interacting with the surrounding water. Through mechanistic investigations, the authors discovered that the reaction occurs at least 2000 times faster than in water, offering insights into the role of non-covalent interactions and molecular confinement in bringing the reactants to optimum proximity.

Prof. Ivan Castillo and Dr. Armando Berlanga-Vázquez report using phenanthroline-functionalized calix[8]arene ligands that form complexes with Mn(I) for the electrocatalytic reduction of CO2. They successfully reduced CO2 to CO and H2, and in some cases, they detected the formation of CH4. This study highlights the importance of the cavity provided by the calix[8]arene ligands to influence the catalytic behavior of the complex, which is different from the reactivity observed with analogous Mn(I) complexes that do not contain calixarene.

Prof. Mihail Barboiu and his team reported on the ability of a pyrene box to bind various 1,ω-amino acids, differing in the length of their aliphatic chains. The pyrene box, a novel class of self-assembled host developed by this group, consists of two 1,3,5,8-pyrenetetrasulfonate anions laterally capped by H-bonding guanidinium or amino-guanidinium cations. Through NMR studies and analysis of numerous X-ray co-crystal structures, the authors investigated the potential effects of alkali metal countercations on the encapsulation process, system stability, and guest preference during competitive experiments. Additionally, the X-ray co-crystal structures allowed the authors to determine the conformation of guests within the host‘s confinement, providing insights into the system‘s dynamic preference for specific guests. This host represents a new platform to mimic the dynamic nature of some biological hosts.

Prof. Florian Beuerle and Dr. Svetlana Ivanova contribute an in-depth review of covalent organic cages, covering their various classifications, design principles, and their synthesis. They describe how small, rigid molecules, such as cavitands and other building blocks, dynamically self-assemble through covalent bonds to generate shape-persisting cages with small cavities. These individual cages can further assemble into more extensive crystalline porous networks with broad applications. Importantly, the authors explain in detail how different analytical techniques are crucial for the characterization and investigation of these hosts.

Prof. Nuno Basílio and Prof. A. Jorge Parola studied the effect of cucurbit[7]uril (CB[7]) complexation on protonated trans-chalcone dyes pKa values. They successfully tuned the sign (complexation-induced positive or negative pKa shifts) and magnitude by systematic engineering of trans-chalcone dyes. Accordingly, one generally observed an increase in the pKa values of several guests because of the preferential binding of the protonated form over the conjugated base. Nevertheless, by careful modification, some deprotonated trans-chalcone dyes showed a higher affinity towards CB[7] than their protonated counterparts, leading to complexation-induced negative pKa shifts. These results show that following rational design, the control of equilibria by CB[7] can be achieved.

In the review of Prof. Huijuan Yu, Prof. Yuefei Wang and co-workers, they describe the use of major macrocyclic host families, including cyclodextrins, calixarenes, cucurbiturils and pillararenes, in screening bioactive ingredients from herbal medicines and their druggability enhancement following their encapsulation in the cavity of the host molecules. Applications include developments of screening techniques, enhancement of solubility, stability, and bioavailability, and enhancement of extraction, efficiency.

We would like to thank all the authors of this special issue for their efforts and valuable contributions. We also thank Prof. Ehud Keinan for his leadership on this project and his continued support of the supramolecular community and Dr. Brian Johnson of Wiley-VCH, for his kind and continuous support.

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合成宿主分子特刊
De Beer 全面综述了装有氧化还原活性分子(如二茂铁、四硫富缬烯和醌类)的钙[4]烷和钙[4]间苯二酚宿主。他们强调了开发具有可切换特性的宿主的能力,特别强调了如何通过氧化还原或电化学刺激来控制客体分子的结合和释放,从而改变宿主和客体之间的非共价相互作用或物理改变宿主的空腔。此外,作者还讨论了这些氧化还原反应宿主作为开发创新电化学传感器平台的潜力。Vaidhyanathan Ramamurthy 教授和 Amal Sam Sunny 报告说,他们使用辛酸宿主研究了分子限制对环戊二烯的 Diels-Alder 反应的影响,从而在水介质中获得双环戊二烯。虽然已经为此研究了其他宿主,但这种特殊宿主是独一无二的,因为它是完全封闭的,阻止了客体与周围水的相互作用。Ivan Castillo 教授和 Armando Berlanga-Vázquez 博士报告说,他们使用菲罗啉功能化的钙[8]炔配体与锰(I)形成复合物,对二氧化碳进行电催化还原。他们成功地将 CO2 还原成 CO 和 H2,并在某些情况下检测到 CH4 的生成。这项研究强调了钙[8]烯配体提供的空腔对影响配合物催化行为的重要性,这种催化行为不同于在不含钙[8]烯的类似锰(I)配合物中观察到的反应性。Mihail Barboiu 教授及其团队报告了芘盒结合各种 1,ω-氨基酸的能力,这些氨基酸的脂肪链长度各不相同。芘盒是该研究小组开发的一类新型自组装宿主,它由两个 1,3,5,8-芘四磺酸盐阴离子组成,阴离子侧面被以 H 键连接的胍或氨基胍阳离子封盖。通过核磁共振研究和对大量 X 射线共晶体结构的分析,作者研究了碱金属反离子在竞争实验中对封装过程、系统稳定性和客体偏好的潜在影响。此外,作者还通过 X 射线共晶体结构确定了客体在宿主限制条件下的构象,从而深入了解了系统对特定客体的动态偏好。Florian Beuerle 教授和 Svetlana Ivanova 博士对共价有机笼进行了深入评述,涵盖了它们的各种分类、设计原理及其合成。他们描述了小的刚性分子(如空穴剂和其他构建模块)如何通过共价键进行动态自组装,从而生成具有小空穴的形状持久的笼子。这些单独的笼子可以进一步组装成更广泛的结晶多孔网络,并具有广泛的应用前景。Nuno Basílio 教授和 A. Jorge Parola 教授研究了葫芦[7]脲(CB[7])络合对质子化反查耳酮染料 pKa 值的影响。他们通过对反查尔酮染料进行系统工程研究,成功地调整了其符号(络合引起的正或负 pKa 值移动)和大小。因此,由于质子化形式优先于共轭碱的结合,人们普遍观察到几种客体的 pKa 值增加了。不过,通过精心修饰,一些去质子化的反查尔酮染料对 CB[7] 的亲和力高于质子化的同类染料,从而导致络合引起的负 pKa 值变化。在余慧娟教授、王跃飞教授及其合作者的综述中,他们介绍了主要大环宿主家族(包括环糊精、钙烯、葫芦巴烯和支柱烯)在筛选中药生物活性成分中的应用,以及它们在宿主分子空腔中被包封后的药用性增强。其应用包括开发筛选技术,提高溶解度、稳定性和生物利用率,以及提高提取效率。
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来源期刊
Israel Journal of Chemistry
Israel Journal of Chemistry 化学-化学综合
CiteScore
6.20
自引率
0.00%
发文量
62
审稿时长
6-12 weeks
期刊介绍: The fledgling State of Israel began to publish its scientific activity in 1951 under the general heading of Bulletin of the Research Council of Israel, which quickly split into sections to accommodate various fields in the growing academic community. In 1963, the Bulletin ceased publication and independent journals were born, with Section A becoming the new Israel Journal of Chemistry. The Israel Journal of Chemistry is the official journal of the Israel Chemical Society. Effective from Volume 50 (2010) it is published by Wiley-VCH. The Israel Journal of Chemistry is an international and peer-reviewed publication forum for Special Issues on timely research topics in all fields of chemistry: from biochemistry through organic and inorganic chemistry to polymer, physical and theoretical chemistry, including all interdisciplinary topics. Each topical issue is edited by one or several Guest Editors and primarily contains invited Review articles. Communications and Full Papers may be published occasionally, if they fit with the quality standards of the journal. The publication language is English and the journal is published twelve times a year.
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Cover Picture: (Isr. J. Chem. 8-9/2024) Special Issue on RNA-Based Catalysts that Revolutionized the Discovery of Bioactive Peptides Hexagonal and Trigonal Quasiperiodic Tilings Breaking the Degeneracy of Sense Codons – How Far Can We Go? Cover Picture: (Isr. J. Chem. 6-7/2024)
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