Patricia L. Caffes scite author profile

Patricia L. Caffes

5Publications

32Citation Statements Received

98Citation Statements Given

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Affiliations

Mayo Clinic, Mayo Clinic

Publications

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Major Basic Protein Homolog (MBP2): A Specific Human Eosinophil Marker

Plager

Loegering

Checkel

et al. 2006

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Human eosinophil granule major basic protein (MBP1) is an exceedingly basic (isoelectric point >11) 14-kDa protein, comprising the core of the secondary eosinophil granule. Recently, a less cationic homolog of MBP, termed MBPH or simply, MBP2, has been discovered. We prepared a panel of mAbs to MBP2 and used these Abs to localize and quantitate this molecule in leukocytes and biological fluids. Specific mAbs for MBP2 were selected using slot-blot analyses and used in a two-site immunoassay, Western blotting, and immunofluorescence microscopy. The sensitivity of the immunoassay was markedly improved by reduction and alkylation of MBP2. MBP1 is more abundant than MBP2 in lysates of eosinophils and their granules, as judged by immunoassay and Western blotting. By immunofluorescence, MBP1 is present in eosinophils, basophils, and a human mast cell line (HMC1), whereas MBP2 is only detected in eosinophils. Neither MBP1 nor MBP2 could be detected in any other peripheral blood leukocyte. MBP2 levels measured in plasma and serum were essentially identical. In contrast to past measurements for MBP1, MBP2 was not detected above normal levels in sera from pregnant donors. However, measurement of serum MBP2 discriminated patients with elevated eosinophils from normal subjects, and MBP2 was also detectable in other biological specimens, such as bronchoalveolar lavage, sputum, and stool. These results indicate that MBP2 is present only in eosinophils and that it may be a useful biomarker for eosinophil-associated diseases.

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Major Basic Protein Homolog (MBP2): A Specific Human Eosinophil Marker

Plager

Loegering

Checkel

et al. 2006

Journal of Allergy and Clinical Immunology

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Expanding the phenotypic spectrum of lipomatosis of the sciatic nerve: Early‐onset colonic diverticular disease

Marek

Mahan

Amrami

et al. 2020

Neurogastroenterology Motil

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Background Lipomatosis of nerve (LN) is a complex peripheral nerve disorder characterized by fibrofatty nerve enlargement. MRI of this pathology is pathognomonic and obviates a diagnostic biopsy. Mutation in PIK3CA has been associated with LN cases with nerve‐territory overgrowth which may occur in some cases. We evaluate an association of LN of the sciatic nerve and early‐onset colonic diverticular disease and discuss the potential pathogenesis. Methods Our institutional database was searched for LN cases. Available information of identified cases was reviewed, and cases with a confirmed diagnosis of LN affecting the lumbosacral plexus and/or sciatic nerve; available MRI of the affected nerve(s); and diverticular disease occurring in the area supplied by the nerve(s) affected by LN were further analyzed. PIK3CA mutation testing was performed on available tissue samples. Results We identified 10 LN cases of lumbosacral plexus and/or sciatic nerve. Of these, three fulfilled our inclusion criteria. All three patients had concomitant colonic diverticular disease, diagnosed at a relatively young age. MRI studies of these cases showed LN involvement of the sacral nerves innervating the sigmoid colon. All three also had abnormal diagnostic workup including various GI tests and evidence of associated nerve‐territory overgrowth. Colonic tissue samples for PIK3CA mutation were negative. Conclusion While the pathogenesis of the colonic diverticular disease is increasingly recognized as being multifactorial, our observations are consistent with the potential role of autonomic nervous system dysfunction affecting either the pelvic floor musculature, or the colon itself (or both) in a subset of patients with early‐onset diverticular disease.

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Clinical Utility Validation of an Automated Ultrarapid Gene Fusion Assay for NSCLC

Buglioni¹,

Caffes²,

Hessler³

et al. 2022

JTO Clinical and Research Reports

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Lidocaine may inhibit interleukin-5-induced signal transduction by blocking protein kinase C activity

Bankers-Fulbright¹,

Kephart²,

Abdel³

et al. 2002

Journal of Allergy and Clinical Immunology

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