Anaplastic lymphoma kinase (ALK) is a receptor tyrosine kinase involved in various cancers. In its basal state, the structure of ALK is in an autoinhibitory form stabilized by its A-loop, which runs from the N-lobe to the C-lobe of the kinase. Specifically, the A-loop adopts an inhibitory pose with its proximal A-loop helix (αAL-helix) to anchor the αC-helix orientation in an inactive form in the N-lobe; the distal portion of the A-loop is packed against the C-lobe to block the peptide substrate from binding. Upon phosphorylation of the first A-loop tyrosine (Y1278), the αAL-helix unfolds; the distal A-loop detaches from the C-lobe and reveals the P+1 pocket that accommodates the residues immediately after their phosphorylation, and ALK is activated accordingly. Recently, two neuroblastoma mutants, F1174L and R1275Q, have been determined to cause ALK activation without phosphorylation on Y1278. Notably, F1174 is located on the C-terminus of the αC-helix and away from the A-loop, whereas R1275 sits on the αAL-helix. In this molecular modeling study, we investigated the structural impacts of F1174L and R1275Q that lead to the gain-of-function event. Wild-type ALK and ALK with phosphorylated Y1278 were also modeled for comparison. Our modeling suggests that the replacement of F1174 with a smaller residue, namely leucine, moves the αC-helix and αAL-helix into closer contact and further distorts the distal portion of the A-loop. In wild-type ALK, R1275 assumes the dual role of maintaining the αAL-helix–αC-helix interaction in an inactive form and securing αAL-helix conformation through the D1276–R1275 interaction. Accordingly, mutating R1275 to a glutamine reorients the αC-helix to an active form and deforms the entire A-loop. In both F1174L and R1275Q mutants, the A-loop rearranges itself to expose the P+1 pocket, and kinase activity resumes.
Successful
synthesis of glyconanoparticles has attracted much attention
due to their various biointeractive capabilities, but it is still
a challenge to understand different single-cell responses to exogenous
particles among cell populations. Herein, we designed polyaniline-containing
galactosylated gold nanoparticles (Au@PGlyco NPs) via in situ polymerization
of ortho-nitrophenyl-β-galactoside assisted by Au nucleation.
The nanogold-carrying polyaniline block produced electromagnetic enhancement
in surface-enhanced Raman scattering (SERS). The underlying polymerization
mechanism of ortho-nitrophenyl compounds via the formation of Au nanoparticles
was investigated. Depending on how the galactoside moiety reacted
with β-galactosidase derived from bacteria, the Au@PGlyco NPs-mediated
SERS biosensor could detect low amounts of bacteria (∼1 ×
102 CFU/mL). In addition, a high accumulation of Au@PGlyco
NPs mediated the immune response of tumor-associated M2 macrophages
to the immunogenic M1 macrophage transition, which was elicited by
reactive oxygen levels biostimulation using single-cell SERS-combined
fluorescence imaging. Our study suggested that Au@PGlyco NPs may serve
as a biosensing platform with the labeling capacity on galactose-binding
receptors expressed cell and immune regulation.
BackgroundFactor V (FV) deficiency is a rare disease, with a low incidence rate in Asia. Therefore, the F5 mutation in the Taiwanese population is poorly understood.MethodsA Chinese family with FV deficiency was included, and the patient and his family members underwent mutation analysis. Then, patients from Keelung City (Taiwan) were screened for F5 polymorphism; the Chang Gung Human Database was used to determine single-nucleotide variants in the non-FV-deficient patient population.ResultsEight mutation sites on the F5 gene locus, including exon 16 homozygote Met1736Val and seven heterozygous mutations, including Asp68His, were found. Moreover, Met1736Val was found to be the dominant mutation in people living in the Taiwan community, and this result was compared with the records of the Chang Gung Human Database. The above-mentioned polymorphisms may result in a variable incidence of FV deficiency in Keelung City, thereby facilitating carrier diagnosis and prenatal diagnosis in most FV-deficient families.ConclusionThe homozygote Met1736Val and the co-inheritance of the Asp68His F5 gene are unique and worthy of screening in FV-deficient patients.
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