Dual A2A/A2B Adenosine Receptor Antagonist M1069 Counteracts Immunosuppressive Mechanisms of Adenosine and Reduces Tumor Growth In Vivo.

While A2A adenosine receptor (AR) was considered as a major contributor to adenosine-mediated immunosuppression, A2B, having the lowest affinity to adenosine, has also emerged as a potential contributor to tumor promotion. Therefore, in adenosine-rich tumor microenvironment (TME), where A2B could be complementary and/or compensatory to A2A, simultaneous targeting of A2A and A2B ARs can provide higher potential for cancer immunotherapy. We developed M1069-a highly selective dual antagonist of the A2A and A2B AR.

Selective Wee1 Inhibitors Led to Antitumor Activity and Correlated with Myelosuppression.

Wee1 is a tyrosine kinase that is highly expressed in several cancer types. Wee1 inhibition can lead to suppression of tumor cell proliferation and sensitization of cells to the effects of DNA-damaging agents. AZD1775 is a nonselective Wee1 inhibitor for which myelosuppression has been observed as a dose-limiting toxicity.

[The clinical importance of the critical view of safety in laparoscopic cholecystectomy].

Background: Injury of the bile duct during cholecystectomy (CHE) is a severe complication. The critical view of safety (CVS) can help to reduce the frequency of this complication during laparoscopic CHE. So far, no scoring of CVS images with a grading system is available.

Intracellular Dynamics of Extracellular Vesicles by Segmented Trajectory Analysis.

The analysis of nanoparticle (NP) dynamics in live cell studies by video tracking provides detailed information on their interactions and trafficking in the cells. Although the video analysis is not yet routinely used in NP studies, the equipment suitable for the experiments is already available in most laboratories. Here, we compare trajectory patterns, diffusion coefficients, and particle velocities of NPs in A549 cells with a rather simple experimental setup consisting of a fluorescence microscope and openly available trajectory analysis software.

[The COVID-19 pandemic had significant impact on duration of surgery and hospitalization time for patients after cholecystectomy].

Background: The COVID-19 pandemic made substantial changes in medical care necessary. The aims of this study were to find out what influence the pandemic had on the perioperative course in patients with cholecystectomy (CHE) and to highlight possible residual consequences.

Method: From 1 July 2018 to 31 December 2021 a total of 735 patients with CHE were analyzed.

[After inconspicuous elective laparoscopic cholecystectomy patients can be discharged without control of laboratory parameters].

Background: The importance of postoperative control of laboratory parameters after elective laparoscopic cholecystectomy (lap-CHE) is controversial. The aim of this prospective study was to find out whether patients can be safely discharged following an inconspicuous perioperative course after lap-CHE without control of the laboratory parameters.

Method: All patients with a lap-CHE from September 2020 to March 2022 were screened and included in the study after providing informed consent.

The expanding role for small molecules in immuno-oncology.

The advent of immune checkpoint inhibition (ICI) using antibodies against PD1 and its ligand PDL1 has prompted substantial efforts to develop complementary drugs. Although many of these are antibodies directed against additional checkpoint proteins, there is an increasing interest in small-molecule immuno-oncology drugs that address intracellular pathways, some of which have recently entered clinical trials. In parallel, small molecules that target pro-tumorigenic pathways in cancer cells and the tumour microenvironment have been found to have immunostimulatory effects that synergize with the action of ICI antibodies, leading to the approval of an increasing number of regimens that combine such drugs.

[Developing a competence center for obesity and metabolic surgery-Experiences from two different clinics].

Background: Due to the high incidence of obesity and the effectiveness of obesity (metabolic) surgery, the number of metabolic operations and the formation of certified obesity centers continue to increase. The aim of this study was to compare the experiences of two hospitals during establishing a certified obesity center in Heidelberg/Salem (HD/Salem) and in Baden-Baden (Bad).

Material And Methods: The operation numbers, surgical procedures, the need for revision and the length of hospital stay were analyzed from August 2012 to June 2015 in HD/Salem and from May 2017 to December 2021 in Bad.

Models using native tracheobronchial mucus in the context of pulmonary drug delivery research: Composition, structure and barrier properties.

Mucus covers all wet epithelia and acts as a protective barrier. In the airways of the lungs, the viscoelastic mucus meshwork entraps and clears inhaled materials and efficiently removes them by mucociliary escalation. In addition to physical and chemical interaction mechanisms, the role of macromolecular glycoproteins (mucins) and antimicrobial constituents in innate immune defense are receiving increasing attention.

Nano-in-Microparticles for Aerosol Delivery of Antibiotic-Loaded, Fucose-Derivatized, and Macrophage-Targeted Liposomes to Combat Mycobacterial Infections: In Vitro Deposition, Pulmonary Barrier Interactions, and Targeted Delivery.

Nontuberculous mycobacterial infections rapidly emerge and demand potent medications to cope with resistance. In this context, targeted loco-regional delivery of aerosol medicines to the lungs is an advantage. However, sufficient antibiotic delivery requires engineered aerosols for optimized deposition.

Targeting extracellular lectins of with glycomimetic liposomes.

The antimicrobial resistance crisis requires novel approaches for the therapy of infections especially with Gram-negative pathogens. is defined as priority 1 pathogen by the WHO and thus of particular interest. Its drug resistance is primarily associated with biofilm formation and essential constituents of its extracellular biofilm matrix are the two lectins, LecA and LecB.

Identification of Clinical Candidate M2698, a Dual p70S6K and Akt Inhibitor, for Treatment of PAM Pathway-Altered Cancers.

Herein, we report the discovery of a novel class of quinazoline carboxamides as dual p70S6k/Akt inhibitors for the treatment of tumors driven by alterations to the PI3K/Akt/mTOR (PAM) pathway. Through the screening of in-house proprietary kinase library, 4-benzylamino-quinazoline-8-carboxylic acid amide stood out, with sub-micromolar p70S6k biochemical activity, as the starting point for a structurally enabled p70S6K/Akt dual inhibitor program that led to the discovery of M2698, a dual p70S6k/Akt inhibitor. M2698 is kinase selective, possesses favorable physical, chemical, and DMPK profiles, is orally available and well tolerated, and displayed tumor control in multiple studies of PAM pathway-driven tumors.

Discovery of 4-aminopyrimidine analogs as highly potent dual P70S6K/Akt inhibitors.

Activation of the PI3K/Akt/mTOR kinase pathway is associated with human cancers. A dual p70S6K/Akt inhibitor is sufficient to inhibit strong tumor growth and to block negative impact of the compensatory Akt feedback loop activation. A scaffold docking strategy based on an existing quinazoline carboxamide series identified 4-aminopyrimidine analog 6, which showed a single-digit nanomolar and a micromolar potencies in p70S6K and Akt enzymatic assays.

Spray-dried lactose-leucine microparticles for pulmonary delivery of antimycobacterial nanopharmaceuticals.

Pulmonary delivery of nanocarriers for novel antimycobacterial compounds is challenging because the aerodynamic properties of nanomaterials are sub-optimal for such purposes. Here, we report the development of dry powder formulations for nanocarriers containing benzothiazinone 043 (BTZ) or levofloxacin (LVX), respectively. The intricacy is to generate dry powder aerosols with adequate aerodynamic properties while maintaining both nanostructural integrity and compound activity until reaching the deeper lung compartments.

A pulmonary mucus surrogate for investigating antibiotic permeation and activity against Pseudomonas aeruginosa biofilms.

Background: Pulmonary infections associated with Pseudomonas aeruginosa can be life-threatening for patients suffering from chronic lung diseases such as cystic fibrosis. In this scenario, the formation of biofilms embedded in a mucus layer can limit the permeation and the activity of anti-infectives.

Objectives: Native human pulmonary mucus can be isolated from endotracheal tubes, but this source is limited for large-scale testing.

[Which patient needs controls of laboratory values after elective laparoscopic cholecystectomy?-Can a score help?].

Background: Laparoscopic cholecystectomy is nearly exclusively carried out as an inpatient operation in Germany. The aim of the study was to evaluate for which patients postoperative laboratory control values are necessary.

Methods: This retrospective analysis included 100 patients who underwent elective laparoscopic cholecystectomy.

Small molecules-Giant leaps for immuno-oncology.

Immuno-oncology therapies are revolutionizing the oncology landscape with checkpoint blockade becoming the treatment backbone for many indications. While inspiring, much work remains to increase the number of cancer patients that can benefit from these treatments. Thus, a new era of immuno-oncology research has begun which is focused on identifying novel combination regimes that lead to improved response rates.

Macro- and Microrheological Properties of Mucus Surrogates in Comparison to Native Intestinal and Pulmonary Mucus.

Mucus is a complex hydrogel that acts as a protective barrier in various parts of the human body. Both composition and structural properties play a crucial role in maintaining barrier properties while dictating diffusion of molecules and (nano)materials. In this study, we compare previously described mucus surrogates with the native human airway and pig intestinal mucus.

Discovery of Evobrutinib: An Oral, Potent, and Highly Selective, Covalent Bruton's Tyrosine Kinase (BTK) Inhibitor for the Treatment of Immunological Diseases.

Bruton's tyrosine kinase (BTK) inhibitors such as ibrutinib hold a prominent role in the treatment of B cell malignancies. However, further refinement is needed to this class of agents, particularly in terms of adverse events (potentially driven by kinase promiscuity), which preclude their evaluation in nononcology indications. Here, we report the discovery and preclinical characterization of evobrutinib, a potent, obligate covalent inhibitor with high kinase selectivity.

Small Molecules Drive Big Improvements in Immuno-Oncology Therapies.

Immuno-oncology therapies have the potential to revolutionize the armamentarium of available cancer treatments. To further improve clinical response rates, researchers are looking for novel combination regimens, with checkpoint blockade being used as a backbone of the treatment. This Review highlights the significance of small molecules in this approach, which holds promise to provide increased benefit to cancer patients.

Recent progress towards clinically relevant ATP-competitive Akt inhibitors.

The frequency of PI3K/Akt/mTOR (PAM) Pathway mutations in human cancers sparked interest to determine if the pathway is druggable. The modest clinical benefit observed with mTOR rapalogs (temsirolimus and everolimus) provided further motivation to identify additional nodes of pathway inhibition that lead to improved clinical benefit. Akt is a central signaling node of the PAM pathway and could be an ideal target for improved pathway inhibition.

M2698 is a potent dual-inhibitor of p70S6K and Akt that affects tumor growth in mouse models of cancer and crosses the blood-brain barrier.

Dysregulated PI3K/Akt/mTOR (PAM) pathway signaling occurs in ~30% of human cancers, making it a rational target for new therapies; however, the effectiveness of some PAM pathway inhibitors, such as mTORC rapalogs, may be compromised by a compensatory feedback loop leading to Akt activation. In this study, the p70S6K/Akt dual inhibitor, M2698 (previously MSC2363318A), was characterized as a potential anti-cancer agent through examination of its pharmacokinetic, pharmacodynamic and metabolic properties, and anti-tumor activity. M2698 was highly potent in vitro (IC50 1 nM for p70S6K, Akt1 and Akt3 inhibition; IC50 17 nM for pGSK3β indirect inhibition) and in vivo (IC50 15 nM for pS6 indirect inhibition), and relatively selective (only 6/264 kinases had an IC50 within 10-fold of p70S6K).