Incidentally detected renal lesions have traditionally undergone imaging characterization by contrast-enhanced computer tomography (CECT) or magnetic resonance imaging. Contrast-enhanced ultrasound (CEUS) of renal lesions is a relatively novel, but increasingly utilized, diagnostic modality. CEUS has advantages over CECT and MRI including unmatched temporal resolution due to continuous real-time imaging, lack of nephrotoxicity, and potential cost savings. CEUS has been most thoroughly evaluated in workup of complex cystic renal lesions, where it has been proposed as a replacement for CECT. Using CEUS to differentiate benign from malignant solid renal lesions has also been studied, but has proven difficult due to overlapping imaging features. Monitoring minimally invasive treatments of renal masses is an emerging application of CEUS. An additional promising area is quantitative analysis of renal masses using CEUS. This review discusses the scientific literature on renal CEUS, with an emphasis on imaging features differentiating various cystic and solid renal lesions.
Transplanting metabolic reactions
from one species into another
has many uses as a research tool with applications ranging from optogenetics
to crop production. Ferredoxin (Fd), the enzyme that most often supplies
electrons to these reactions, is often overlooked when transplanting
enzymes from one species to another because most cells already contain
endogenous Fd. However, we have shown that the production of chromophores
used in Phytochrome B (PhyB) optogenetics is greatly enhanced in mammalian
cells by expressing bacterial and plant Fds with ferredoxin-NADP+
reductases (FNR). We delineated the rate limiting factors and found
that the main metabolic precursor, heme, was not the primary limiting
factor for producing either the cyanobacterial or plant chromophores,
phycocyanobilin or phytochromobilin, respectively. In fact, Fd is
limiting, followed by Fd+FNR and finally heme. Using these findings,
we optimized the PCB production system and combined it with a tissue
penetrating red/far-red sensing PhyB optogenetic gene switch in animal
cells. We further characterized this system in several mammalian cell
lines using red and far-red light. Importantly, we found that the
light-switchable gene system remains active for several hours upon
illumination, even with a short light pulse, and requires very small
amounts of light for maximal activation. Boosting chromophore production
by matching metabolic pathways with specific ferredoxin systems will
enable the unparalleled use of the many PhyB optogenetic tools and
has broader implications for optimizing synthetic metabolic pathways.
Apical extracellular matrices (aECMs) are associated with all epithelia and form a protective layer against biotic and abiotic threats in the environment. C. elegans molting offers a powerful entry point to understanding developmentally programmed aECM remodeling. Several protease inhibitors are implicated in molting, but their functions remain poorly understood. Here we characterize mlt-11, an unusual protease inhibitor with 10 conserved Kunitz domains. MLT-11 oscillates and is localized in the cuticle and in lysosomes in larvae and in the embryonic sheath starting at the 3-fold embryo stage. mlt-11 (RNAi) produced a developmental delay, motility defects, failed apolysis, and a defective cuticle barrier. mlt-11 null and C-terminal Kunitz domain deletion mutants are embryonic lethal while N-terminal deletions cause a rolling phenotype indicative of cuticle structure abnormalities. mlt-11 activity is primarily necessary in seam and hypodermal cells and accordingly mlt-11 (RNAi) causes defects in localization of the collagens ROL-6 and BLI-1 over the cuticle. mlt-11 (RNAi) molting phenotypes can be suppressed by genetically inhibiting endocytosis. Our model is that MLT-11 is acting in the aECM to coordinate remodeling and timely ecdysis.
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