Adriana Y. Prichina scite author profile

To show the synthetic utility of the catalytic C À C activation of less strained substrates,d escribed here are the collective and concise syntheses of the natural products (À)microthecaline A, (À)-leubehanol, (+ +)-pseudopteroxazole, (+ +)-seco-pseudopteroxazole,p seudopterosin A-F and G-J aglycones,a nd (+ +)-heritonin. The key step in these syntheses involve aR h-catalyzed C À C/C À Ha ctivation cascade of 3arylcyclopentanones,w hichp rovides ar apid and enantioselective route to access the polysubstituted tetrahydronaphthalene cores presented in these natural products.Other important features include 1) the direct CÀHa mination of the tetralone substrate in the synthesis of (À)-microthecaline A, 2) the use of phosphoric acid to enhance efficiency and regioselectivity for problematic cyclopentanone substrates in the C À Ca ctivation reactions,a nd 3) the direct conversion of serrulatane into amphilectane diterpenes by an allylic cyclodehydrogenation coupling.

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Deconstructive Asymmetric Total Synthesis of Morphine‐Family Alkaloid (−)‐Thebainone A

Hou

Prichina

Dong

2021

Angew Chem Int Ed

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Herein, we describe the development of ad econstructive strategy for the first asymmetric synthesis of (À)thebainone A, capitalizing on an enantioselective CÀCb ond activation and aC ÀOb ond cleavage reaction. The rhodiumcatalyzeda symmetric "cut-and-sew" transformation between sterically hindered trisubstituted alkenes and benzocyclobutenones allowed efficient construction of the fused A/B/C rings and the quaternary center of the natural product. The newly optimizedconditions show broad substrate scope and excellent enantioselectivity (up to 99.5:0.5 er). Taking advantage of boron-mediated ether bond cleavage,w ec ompleted the synthesis of the morphine alkaloid (À)-thebainone Ab yt wo complementary routes. Figure 1. Morphine and related alkaloids.

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Enantioselective Type II Cycloaddition of Alkynes via C–C Activation of Cyclobutanones: Rapid and Asymmetric Construction of [3.3.1] Bridged Bicycles

Hou

Zhang

et al. 2020

J. Am. Chem. Soc.

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Synthesis of bridged scaffolds via Type II cyclization constitutes substantial challenges due to the intrinsic ring strain accumulated in reaction transition states. Catalytic enantioselective Type II-cyclization methods are even rarer. Here, we describe a detailed study of developing a Rh(I)-catalyzed enantioselective intramolecular Type II cyclization of alkynes via C–C activation of cyclobutanones. This method offers a rapid approach to access a wide range of functionalized [3.3.1]-bridged bicycles along with an exocyclic olefin and an all-carbon quaternary stereocenter. Excellent enantioselectivity has been achieved using a combination of cationic rhodium(I) and DTBM-segphos. Attributed to the redox neutral and strong acid/base-free reaction conditions, high chemoselectivity has also been observed. For the oxygen-tethered substrates, the reaction can proceed at room temperature. In addition, partial kinetic resolution has been achieved for substrates with existing stereocenters, forging interesting chiral tricyclic scaffolds. The methylalkyne-derived substrates gave unexpected dimeric structures in good yield with excellent enantioselectivity and complete diastereoselectivity. Furthermore, the bridged bicyclic products can be diversely functionalized through simple transformations. Finally, mechanistic studies reveal a surprising reaction pathway that involves forming a metal-stabilized anti-Bredt olefin intermediate.

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Single cell profiling at the maternal–fetal interface reveals a deficiency of PD-L1+ non-immune cells in human spontaneous preterm labor

Liu

Aneas

Sakabe

et al. 2023

Sci Rep

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The mechanisms that underlie the timing of labor in humans are largely unknown. In most pregnancies, labor is initiated at term (≥ 37 weeks gestation), but in a signifiicant number of women spontaneous labor occurs preterm and is associated with increased perinatal mortality and morbidity. The objective of this study was to characterize the cells at the maternal–fetal interface (MFI) in term and preterm pregnancies in both the laboring and non-laboring state in Black women, who have among the highest preterm birth rates in the U.S. Using mass cytometry to obtain high-dimensional single-cell resolution, we identified 31 cell populations at the MFI, including 25 immune cell types and six non-immune cell types. Among the immune cells, maternal PD1+ CD8 T cell subsets were less abundant in term laboring compared to term non-laboring women. Among the non-immune cells, PD-L1+ maternal (stromal) and fetal (extravillous trophoblast) cells were less abundant in preterm laboring compared to term laboring women. Consistent with these observations, the expression of CD274, the gene encoding PD-L1, was significantly depressed and less responsive to fetal signaling molecules in cultured mesenchymal stromal cells from the decidua of preterm compared to term women. Overall, these results suggest that the PD1/PD-L1 pathway at the MFI may perturb the delicate balance between immune tolerance and rejection and contribute to the onset of spontaneous preterm labor.

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Asymmetric Total Syntheses of Di‐ and Sesquiterpenoids by Catalytic C−C Activation of Cyclopentanones

et al. 2020

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To show the synthetic utility of the catalytic C−C activation of less strained substrates, described here are the collective and concise syntheses of the natural products (−)‐microthecaline A, (−)‐leubehanol, (+)‐pseudopteroxazole, (+)‐seco‐pseudopteroxazole, pseudopterosin A–F and G—J aglycones, and (+)‐heritonin. The key step in these syntheses involve a Rh‐catalyzed C−C/C−H activation cascade of 3‐arylcyclopentanones, which provides a rapid and enantioselective route to access the polysubstituted tetrahydronaphthalene cores presented in these natural products. Other important features include 1) the direct C−H amination of the tetralone substrate in the synthesis of (−)‐microthecaline A, 2) the use of phosphoric acid to enhance efficiency and regioselectivity for problematic cyclopentanone substrates in the C−C activation reactions, and 3) the direct conversion of serrulatane into amphilectane diterpenes by an allylic cyclodehydrogenation coupling.

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