Davide Tamburro scite author profile

Many low-abundance biomarkers for early detection of cancer and other diseases are invisible to mass spectrometry because they exist in body fluids in very low concentrations, are masked by high-abundance proteins such as albumin and immunoglobulins, and are very labile. To overcome these barriers, we created porous, buoyant, core–shell hydrogel nanoparticles containing novel high affinity reactive chemical baits for protein and peptide harvesting, concentration, and preservation in body fluids. Poly(N-isopropylacrylamide-co-acrylic acid) nanoparticles were functionalized with amino-containing dyes via zero-length cross-linking amidation reactions. Nanoparticles functionalized in the core with 17 different (12 chemically novel) molecular baits showed preferential high affinities (KD < 10–11 M) for specific low-abundance protein analytes. A poly(N-isopropylacrylamide-co-vinylsulfonic acid) shell was added to the core particles. This shell chemistry selectively prevented unwanted entry of all size peptides derived from albumin without hindering the penetration of non-albumin small proteins and peptides. Proteins and peptides entered the core to be captured with high affinity by baits immobilized in the core. Nanoparticles effectively protected interleukin-6 from enzymatic degradation in sweat and increased the effective detection sensitivity of human growth hormone in human urine using multiple reaction monitoring analysis. Used in whole blood as a one-step, in-solution preprocessing step, the nanoparticles greatly enriched the concentration of low-molecular weight proteins and peptides while excluding albumin and other proteins above 30 kDa; this achieved a 10,000-fold effective amplification of the analyte concentration, enabling mass spectrometry (MS) discovery of candidate biomarkers that were previously undetectable.

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In-depth human plasma proteome analysis captures tissue proteins and transfer of protein variants across the placenta

Pernemalm

Sandberg

Zhu

et al. 2019

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Here, we present a method for in-depth human plasma proteome analysis based on high-resolution isoelectric focusing HiRIEF LC-MS/MS, demonstrating high proteome coverage, reproducibility and the potential for liquid biopsy protein profiling. By integrating genomic sequence information to the MS-based plasma proteome analysis, we enable detection of single amino acid variants and for the first time demonstrate transfer of multiple protein variants between mother and fetus across the placenta. We further show that our method has the ability to detect both low abundance tissue-annotated proteins and phosphorylated proteins in plasma, as well as quantitate differences in plasma proteomes between the mother and the newborn as well as changes related to pregnancy.

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Metastatic Cutaneous Crohn’s Disease in Children: Case Report and Review of the Literature

Keiler¹,

Tyson²,

Tamburro³

2009

Pediatric Dermatology

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Metastatic cutaneous Crohn's disease is a rare complication of Crohn's disease, especially in the pediatric population, and can present a diagnostic dilemma. Most of the reported cases of metastatic cutaneous Crohn's disease in childhood have concurrent gastrointestinal symptoms and/or perianal disease to aid in the diagnosis. We present a case of a 13 1/2-year-old girl whose initial symptom of Crohn's disease was asymptomatic labial swelling. An overview of metastatic cutaneous Crohn's disease in childhood is also provided.

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Davide Tamburro

Multifunctional Core–Shell Nanoparticles: Discovery of Previously Invisible Biomarkers

In-depth human plasma proteome analysis captures tissue proteins and transfer of protein variants across the placenta

Metastatic Cutaneous Crohn’s Disease in Children: Case Report and Review of the Literature

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