Michael N. Levine scite author profile

The trimethyl lock is an o-hydroxydihydrocinnamic acid derivative in which unfavorable steric interactions between three pendant methyl groups encourage lactonization to form a hydrocoumarin. This reaction is extremely rapid, even when the electrophile is an amide and the leaving group is an amino group of a small-molecule drug, fluorophore, peptide, or nucleic acid. O-Acylation of the phenolic hydroxyl group prevents reaction, providing a trigger for the reaction. Thus, the release of an amino group from an amide can be coupled to the hydrolysis of a designated ester (or to another chemical reaction that regenerates the hydroxyl group). Trimethyl lock conjugates are easy to synthesize, making the trimethyl lock a highly versatile module for chemical biology and related fields.

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Fluorogenic Probe for Constitutive Cellular Endocytosis

Levine¹,

Hoang²,

Raines³

2013

Chemistry & Biology

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SUMMARY Endocytosis is a fundamental process of eukaryotic cells that is critical for nutrient uptake, signal transduction, and growth. We have developed a molecular probe to quantify endocytosis. The probe is a lipid conjugated to a fluorophore that is masked with an enzyme-activatable moiety known as the trimethyl lock. The probe is not fluorescent when incorporated into the plasma membrane of human cells but becomes fluorescent upon internalization into endosomes, where cellular esterases activate the trimethyl lock. Using this probe, we found that human breast cancer cells undergo constitutive endocytosis more rapidly than do matched noncancerous cells. These data reveal a possible phenotypic distinction of cancer cells that could be the basis for chemotherapeutic intervention.

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Trimethyl Lock: A Stable Chromogenic Substrate for Esterases

Levine

Lavis²,

Raines

2008

Molecules

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p-Nitrophenyl acetate is the most commonly used substrate for detecting the catalytic activity of esterases, including those that activate prodrugs in human cells. This substrate is unstable in aqueous solution, limiting its utility. Here, a stable chromogenic substrate for esterases is produced by the structural isolation of an acetyl ester and p-nitroaniline group using a trimethyl lock moiety. Upon ester hydrolysis, unfavorable steric interactions between the three methyl groups of this o-hydroxycinnamic acid derivative encourage rapid lactonization to form a hydrocoumarin and release p-nitroaniline. This “prochromophore” could find use in a variety of assays.

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Sensitive fluorogenic substrate for alkaline phosphatase

Levine

Raines

2011

Analytical Biochemistry

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Alkaline phosphatase serves as both a model enzyme for studies on the mechanism and kinetics of phosphomonoesterases and as a reporter in enzyme-linked immunosorbent assays (ELISAs) and other biochemical methods. The tight binding of the enzyme to its inorganic phosphate product leads to strong inhibition of catalysis and confounds measurements of alkaline phosphatase activity. We have developed an alkaline phosphatase substrate in which the fluorescence of rhodamine is triggered upon P–O bond cleavage in a process mediated by a “trimethyl lock”. Although this substrate requires a second, non-enzymatic step to manifest fluorescence, we demonstrated that the first, enzymatic step limits the rate of fluorogenesis. The substrate enables the catalytic activity of alkaline phosphatase to be measured with high sensitivity and accuracy. Its attributes are ideal for enzymatic assays of alkaline phosphatase for both basic research and biotechnological applications.

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ChemInform Abstract: Trimethyl Lock: A Trigger for Molecular Release in Chemistry, Biology, and Pharmacology

Levine

Raines

2012

ChemInform

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Michael N. Levine

Trimethyl lock: a trigger for molecular release in chemistry, biology, and pharmacology

Fluorogenic Probe for Constitutive Cellular Endocytosis

Trimethyl Lock: A Stable Chromogenic Substrate for Esterases

Sensitive fluorogenic substrate for alkaline phosphatase

ChemInform Abstract: Trimethyl Lock: A Trigger for Molecular Release in Chemistry, Biology, and Pharmacology

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