The discovery of BMS-457, a potent and selective CCR1 antagonist

A series of compounds which exhibited good human CCR1 binding and functional potency was modified resulting in the discovery of a novel series of high affinity, functionally potent antagonists of the CCR1 receptor. Issues of PXR activity, ion-channel potency, and poor metabolic stability were addressed by the addition of a hydroxyl group to an otherwise lipophilic area in the molecule resulting in the discovery of preclinical candidate BMS-457 for the treatment of rheumatoid arthritis.     

A Broad Range of Conformations Contribute to the Solution Ensemble of the Essential Splicing Factor U2AF(65)

U2AF(65) is essential for pre-mRNA splicing in most eukaryotes. Two consecutive RNA recognition motifs (RRM) of U2AF(65) recognize a polypyrimidine tract at the 3' splice site. Here, we use small-angle X-ray scattering to demonstrate that the tandem U2AF(65) RRMs exhibit a broad range of conformations in the solution ensemble. The majority of U2AF(65) conformations exhibit few contacts between the RRMs, such as observed in the crystal structure. A subpopulation adopts tight inter-RRM contacts, such as independently reported based on paramagnetic relaxation enhancements. These complementary structural methods demonstrate that diverse splice sites have the opportunity to select compact or extended inter-RRM proximities from the U2AF(65) conformational pool.     

Human CaaX protease ZMPSTE24 expressed in yeast: Structure and inhibition by HIV protease inhibitors

The function and localization of proteins and peptides containing C‐terminal “CaaX” (Cys‐aliphatic‐aliphatic‐anything) sequence motifs are modulated by post‐translational attachment of isoprenyl groups to the cysteine sulfhydryl, followed by proteolytic cleavage of the aaX amino acids. The zinc metalloprotease ZMPSTE24 is one of two enzymes known to catalyze this cleavage. The only identified target of mammalian ZMPSTE24 is prelamin A, the precursor to the nuclear scaffold protein lamin A. ZMPSTE24 also cleaves prelamin A at a second site 15 residues upstream from the CaaX site. Mutations in ZMPSTE24 result in premature‐aging diseases and inhibition of ZMPSTE24 activity has been reported to be an off‐target effect of HIV protease inhibitors. We report here the expression (in yeast), purification, and crystallization of human ZMPSTE24 allowing determination of the structure to 2.0 Å resolution. Compared to previous lower resolution structures, the enhanced resolution provides: (1) a detailed view of the active site of ZMPSTE24, including water coordinating the catalytic zinc; (2) enhanced visualization of fenestrations providing access from the exterior to the interior cavity of the protein; (3) a view of the C‐terminus extending away from the main body of the protein; (4) localization of ordered lipid and detergent molecules at internal and external surfaces and also projecting through fenestrations; (5) identification of water molecules associated with the surface of the internal cavity. We also used a fluorogenic assay of the activity of purified ZMPSTE24 to demonstrate that HIV protease inhibitors directly inhibit the human enzyme in a manner indicative of a competitive mechanism.     

Role of glutamine and interlinked asparagine metabolism in vessel formation

Endothelial cell (EC) metabolism is emerging as a regulator of angiogenesis, but the precise role of glutamine metabolism in ECs is unknown. Here, we show that depriving ECs of glutamine or inhibiting glutaminase 1 (GLS1) caused vessel sprouting defects due to impaired proliferation and migration, and reduced pathological ocular angiogenesis. Inhibition of glutamine metabolism in ECs did not cause energy distress, but impaired tricarboxylic acid (TCA) cycle anaplerosis, macromolecule production, and redox homeostasis. Only the combination of TCA cycle replenishment plus asparagine supplementation restored the metabolic aberrations and proliferation defect caused by glutamine deprivation. Mechanistically, glutamine provided nitrogen for asparagine synthesis to sustain cellular homeostasis. While ECs can take up asparagine, silencing asparagine synthetase (ASNS, which converts glutamine‐derived nitrogen and aspartate to asparagine) impaired EC sprouting even in the presence of glutamine and asparagine. Asparagine further proved crucial in glutamine‐deprived ECs to restore protein synthesis, suppress ER stress, and reactivate mTOR signaling. These findings reveal a novel link between endothelial glutamine and asparagine metabolism in vessel sprouting.     

The role of interleukin-6 in gynaecological malignancies

There are many parallels between gynaecological cancers in relation to cytokine networks within their respective tumour microenvironments and evidence to support interleukin-6 (IL-6) being an appropriate therapeutic target in these diseases. This article provides an overview on IL-6 biology including updates on novel discoveries in IL-6 signalling and then focuses on the role of IL-6 in processes such as cell proliferation, migration, angiogenesis, evasion of tumour immunity and chemoresistance and presents data relating to the abrogation of these processes with anti-IL-6 targeted therapy in preclinical and clinical studies. The overall aim will be to highlight the necessity for further translational studies concentrating on combinations of anti-IL-6/IL-6R therapies with other novel targets in an attempt to significantly improve overall survival in patients with gynaecological cancers.     

RNA induces conformational changes in the SF1/U2AF65 splicing factor complex

Spliceosomes assemble on pre-mRNA splice sites through a series of dynamic ribonucleoprotein complexes, yet the nature of the conformational changes remains unclear. Splicing factor 1 (SF1) and U2 auxiliary factor (U2AF⁶⁵) cooperatively recognize the 3′ splice site during the initial stages of pre-mRNA splicing. Here, we used small-angle X-ray scattering to compare the molecular dimensions and ab initio shape restorations of SF1 and U2AF⁶⁵ splicing factors, as well as the SF1/U2AF⁶⁵ complex in the absence and presence of AdML (adenovirus major late) splice site RNAs. The molecular dimensions of the SF1/U2AF⁶⁵/RNA complex substantially contracted by 15 Å in the maximum dimension, relative to the SF1/U2AF⁶⁵ complex in the absence of RNA ligand. In contrast, no detectable changes were observed for the isolated SF1 and U2AF⁶⁵ splicing factors or their individual complexes with RNA, although slight differences in the shapes of their molecular envelopes were apparent. We propose that the conformational changes that are induced by assembly of the SF1/U2AF⁶⁵/RNA complex serve to position the pre-mRNA splice site optimally for subsequent stages of splicing.