Antibacterial and β‐Lactamase Inhibitory Activity of Monocyclic β‐Lactams

Due to the widespread emergence of resistant bacterial strains, an urgent need for the development of new antibacterial agents with novel modes of action has emerged. The discovery of naturally occurring monocyclic β‐lactams in the late 1970s, mainly active against aerobic Gram‐negative bacteria, has introduced a new approach in the design and development of novel antibacterial β‐lactam agents. The main goal was the derivatization of the azetidin‐2‐one core in order to improve their antibacterial potency, broaden their spectrum of activity, and enhance their β‐lactamase stability. In that respect, our review covers the updates in the field of monocyclic β‐lactam antibiotics during the last three decades, taking into account an extensive collection of references. An overview of the relationships between the structural features of these monocyclic β‐lactams, classified according to their N‐substituent, and the associated antibacterial or β‐lactamase inhibitory activities is provided. The different paragraphs disclose a number of well‐established classes of compounds, such as monobactams, monosulfactams, monocarbams, monophosphams, nocardicins, as well as other known representative classes. Moreover, this review draws attention to some less common but, nevertheless, possibly important types of monocyclic β‐lactams and concludes by highlighting the recent developments on siderophore‐conjugated classes of monocyclic β‐lactams.     

Effects of variation in the human α2A‐ and α2C‐adrenoceptor genes on cognitive tasks and pain perception

Background: The mechanisms underlying interindividual variability in pain perception and cognitive responses are undefined but highly heritable. α_2C‐ and α_2A‐adrenergic receptors regulate noradrenergic activity and are important mediators of pain perception and analgesia. We hypothesized that common genetic variants in these genes, particularly the ADRA2C 322–325 deletion variant, affect pain perception or cognitive responses. Methods: We studied 73 healthy subjects (37 Caucasians and 36 African–Americans) aged 25.4 ± 4.6 years. Pain response to a cold pressor test was measured using a 10 cm visual analog scale and again on the next day, after three infusions of the selective α₂‐agonist dexmedetomidine. Standardized cognitive tests were administered at baseline and after each infusion. The contribution of ADRA2C deletion genotype, dexmedetomidine concentration, and other covariates to pain perception and cognitive responses was determined using multiple linear regression models. Secondary analysis examined the effects of ADRA2A and other ADRA2C variants on pain perception. Results: ADRA2C Del homozygotes had higher pain scores in response to cold at baseline (6.3 ± 1.8 cm) and after dexmedetomidine (5.6 ± 2.2 cm) than insertion allele carriers (4.6 ± 2.1 cm [baseline] and 3.8 ± 1.9 cm [after dexmedetomidine]; adjusted P‐values = 0.019 and 0.004, respectively). Cognitive responses were unrelated to ADRA2C Ins/Del genotype. None of the other ADRA2A and ADRA2C variants was significantly related to cold pain sensitivity before dexmedetomidine; after dexmedetomidine, ADRA2A rs1800038 was marginally associated (P = 0.03). Conclusion: The common ADRA2C del322–325 variant affected pain perception before and after dexmedetomidine but did not affect other cognitive responses, suggesting that it contributes to interindividual variability in pain perception.     

Depletion of αβ+ T cells for a haploidentical hematopoietic stem cell transplantation in children

A consistent and reproducible depletion technique is crucial for the successful transplantation of an ex vivo depleted graft. Our aim was to evaluate the efficacy of an ex vivo technique for depletion of αβ⁺ T cells using a biotinylated anti‐TCRαβ monoclonal antibody, which was performed by one clinical nurse specialist. Between 2012 and 2017, 119 depletion procedures from 216 apheresis using the anti‐TCRαβ monoclonal antibody were performed on 105 pediatric patients. The median log depletion of αβ⁺ T cells was 4.0 (range, 2.5‐5.0). The median recovery rates of CD34⁺, NK, and γδ⁺ T cells were 90.4%, 74.9%, and 75.9%, respectively. The efficacy of depletion of αβ⁺ T cells significantly improved over time and the duration of the depletion procedure significantly decreased over time. Our study demonstrated that this procedure for depletion of αβ⁺ T cells by skilled staff is highly effective at depleting target cells and obtaining CD34+ progenitor cells.     

β2‐Glycoprotein I: evolution,structure and function

Summary. β₂‐Glycoprotein I (β₂‐GPI) is a protein that circulates in blood at high concentrations. The function of β₂‐GPI has long been an enigma. More than 20 years ago, it was discovered that β₂‐GPI is the major antigen for the circulating antibodies in the antiphospholipid syndrome. However, this knowledge has not advanced our understanding of the physiologic role of the protein. In recent years, new insights have suggested an important function of this protein in innate immunity. β₂‐GPI was found to scavenge lipopolysaccharide and was able to clear unwanted anionic cellular remnants such as microparticles from the circulation. The function of β₂‐GPI seems to depend on the structural conformation of the protein, and it has been established that β₂‐GPI can exist in at least two conformations. In this review, we will highlight and summarize the current knowledge on this protein.     

β‐Blocker in Post‐Myocardial Infarct Survivors with Preserved Left Ventricular Systolic Function

Background: Long‐term β‐blockade therapy is beneficial in post‐myocardial infarct (MI) patients with left ventricular (LV) dysfunction; nevertheless, its benefit in post‐MI patients with preserved LV function remains unclear. The objective of this study is to investigate the effects of long‐term β‐blockade therapy on the clinical outcomes in post‐MI patients with preserved LV function. Hypothesis: The beneficial effects of long‐term β‐blockade therapy in post‐MI patients with impaired LV function may extend to those with preserved LV function. Methods: Of 617 consecutive post‐MI patients referred for cardiac rehabilitation program, 208 patients (age: 62.7 ± 0.8 years; male: 76%) with preserved LV function (ejection fraction ≥ 50%), negative exercise stress test, and on angiotensin‐converting enzyme inhibition were studied. Results: Baseline characteristics were comparable between patients on β‐blocker (n = 154) and not on β‐blocker (n = 54). After a mean follow‐up of 58.5 ± 2.7 months, 14 patients not on β‐blocker (26%) and 14 patients on β‐blocker (9%) died with hazard ratio (HR) of 2.5 (95% confidence interval [CI]: 1.25–6.42, P = 0.01). Likewise, patients not on β‐blocker had a higher incidence of cardiac death (HR: 3.0, 95% CI: 1.07–12.10, P = 0.04), and non‐sudden cardiac death (HR: 10.1, 95% CI: 1.82–89.65, P = 0.01), but not sudden cardiac death compared with patients on β‐blocker (HR: 1.6, 95% CI: 0.34–7.61, P = 0.54). A Cox regression analysis revealed that only advanced age (≥75 years; HR: 2.55, 95% CI: 1.18–5.49, P = 0.02) and the absence of β‐blocker (HR: 2.41, 95% CI: 1.14–5.09, P = 0.02) were independent predictors for mortality. Conclusion: β‐blocker use was associated with a decrease in overall mortality and cardiac death in post‐MI patients with preserved LV function. (PACE 2010; 33:675–680)     

New definitions of extended‐spectrum β‐lactamase conferring worldwide emerging antibiotic resistance

Although there is no consensus of the precise definition of ESBL, three kinds of ESBL definitions have been proposed. First, the classical definition includes variants derived from TEM‐1, TEM‐2, or SHV‐1; K1 (KOXY) of Klebsiella oxytoca. Second, the broadened definition has stretched the classical definition of ESBL to include: (1) β‐lactamases (CTX‐M‐ESBLs, GES‐ESBLs, and VEB‐ESBLs), with spectra similar to those of TEM and SHV variants (designated as TEM‐ and SHV‐ESBLs, respectively) but derived from other sources; (2) TEM and SHV variants with borderline ESBL activity; e.g., TEM‐12; and (3) various β‐lactamases conferring wider resistance than their parent types but not meeting the definition for group 2be; e.g., OXA‐types (OXA‐ESBLs) and mutant AmpC‐types (AmpC‐ESBLs), with increased activity against oxyimino‐cephalosporins and with resistance to clavulanic acid. Third, the all‐inclusive definition includes: (1) ESBL_A (named for class A ESBLs); (2) ESBL_M (miscellaneous ESBLs), which has been subdivided into ESBL_M‐C (class C; plasmid‐mediated AmpC) and ESBL_M‐D (class D); and (3) ESBL_CARBA (ESBLs with hydrolytic activity against carbapenems), which has been subdivided into ESBL_CARBA‐A (class A carbapenemases), ESBL_CARBA‐B (class B carbapenemases), and ESBL_CARBA‐D (class D carbapenemases). The consensus view about the ESBL definition is that the classical ESBL definition must be expanded to class A non‐TEM‐ and non‐SHV‐ESBLs (CTX‐M‐, GES‐, VEB‐ESBLs, etc.). However, these three definitions evoke rational debate on the question “Which would be included in the category of ESBLs among AmpC‐ESBLs, OXA‐ESBLs, and/or carbapenemases?” Therefore, there is a great need for consensus in the precise definition of ESBL. © 2010 Wiley Periodicals, Inc. Med Res Rev 32:216‐232, 2012     

Collagen‐mimetic peptides mediate flow‐dependent thrombus formation by high‐ or low‐affinity binding of integrin α2β1 and glycoprotein VI

Summary. Background: Collagen acts as a potent surface for platelet adhesion and thrombus formation under conditions of blood flow. Studies using collagen‐derived triple‐helical peptides have identified the GXX’GER motif as an adhesive ligand for platelet integrin α2β1, and (GPO)_n as a binding sequence for the signaling collagen receptor, glycoprotein VI (GPVI). Objective: The potency was investigated of triple‐helical peptides, consisting of GXX’GER sequences within (GPO)_n or (GPP)_n motifs, to support flow‐dependent thrombus formation. Results: At a high‐shear rate, immobilized peptides containing both the high‐affinity α2β1‐binding motif GFOGER and the (GPO)_n motif supported platelet aggregation and procoagulant activity, even in the absence of von Willebrand factor (VWF). With peptides containing only one of these motifs, co‐immobilized VWF was needed for thrombus formation. The (GPO)_n but not the (GPP)_n sequence induced GPVI‐dependent platelet aggregation and procoagulant activity. Peptides with intermediate affinity (GLSGER, GMOGER) or low‐affinity (GASGER, GAOGER) α2β1‐binding motifs formed procoagulant thrombi only if both (GPO)_n and VWF were present. At a low‐shear rate, immobilized peptides with high‐ or low‐affinity α2β1‐binding motifs mediated formation of thrombi with procoagulant platelets only in combination with (GPO)_n. Conclusions: Triple‐helical peptides with specific receptor‐binding motifs mimic the properties of native collagen I in thrombus formation by binding to both platelet collagen receptors. At a high‐shear rate, either GPIb or high‐affinity (but not low‐affinity) GXX’GER mediates GPVI‐dependent formation of procoagulant thrombi. By extension, high‐affinity binding for α2β1 can control the overall platelet‐adhesive activity of native collagens.     

CD40 ligand shedding is regulated by interaction between matrix metalloproteinase‐2 and platelet integrin αIIbβ3

Summary. Background: CD40 ligand (CD40L, CD154) in the circulatory system is mainly contained in platelets, and surface‐expressed CD40L on activated platelets is subsequently cleaved by proteolytic activity to generate soluble CD40L (sCD40L). However, the enzyme responsible for the shedding of CD40L in activated platelets has not been clearly identified yet. We have recently found that molecular interaction of matrix metalloproteinase‐2 (MMP‐2) with integrin α_IIbβ₃ is required for the enhancement of platelet activation. Objectives: To elucidate the biochemical mechanism of MMP‐2‐associated sCD40L release. Methods: Localization of MMP‐2 and CD40L in platelets was analyzed by flow cytometry and fluorescence microscopy. The release of sCD40L from activated platelets was measured by enzyme‐linked immunosorbent assay. MMP‐2 binding to α_IIbβ₃ was analyzed by immunoprecipitation and western blotting. Recombinant hemopexin‐like domain and MMP‐2‐specific inhibitor were used to characterize the nature of MMP‐2 binding and catalytic activity. Results: It was revealed that interaction of MMP‐2 with α_IIbβ₃ is required for effective production of sCD40L in activated human platelets. Platelet activation and release of sCD40L were significantly affected by inhibition of platelet‐derived MMP‐2 activity or by inhibition of binding between the enzyme and the integrin. It was also found in platelet‐rich plasma that MMP‐2 activity is responsible for generating sCD40L. Conclusions: The results presented here strongly suggest that MMP‐2 interacts with α_IIbβ₃ to regulate the shedding of CD40L exposed on the surfaces of activated human platelets.     

The calcification potential of human MSCs can be enhanced by interleukin‐1β in osteogenic medium

Inflammation is one of the key regulators of the repair process in bone tissues. Current data about the effect of interleukin‐1β (IL‐1β) on MSCs and osteoblasts are conflicting. We investigated the long‐term effect of IL‐1β on direct osteogenic differentiation of hMSCs in vitro. IL‐1β‐stimulated cells showed enhanced proliferation and entered maturation prior to non‐stimulated ones, as monitored by ALP activity. The process of calcification was accelerated during long‐term stimulation of hMSCs with IL‐1β. Since donor variability is a well‐known issue, we suggest a new method to illustrate global changes of a random chosen donor population through collative analysis. We further demonstrate an absorbance assay to evaluate the degree of calcification during in vitro culture of monolayer expanded hMSCs. Our findings support the importance of IL‐1β in osteogenic differentiation of hMSCs in an in vitro monolayer culture model. A new online absorbance assay is a useful method to evaluate the osteogenic differentiation of hMSCs at early stages. These findings will be helpful in optimizing predifferentiation of hMSCs in vitro for bone tissue engineering. Copyright © 2014 John Wiley & Sons, Ltd.