Calvin Carpenter scite author profile

BackgroundThere is an urgent need to measure phosphorylated cell signaling proteins in cancer tissue for the individualization of molecular targeted kinase inhibitor therapy. However, phosphoproteins fluctuate rapidly following tissue procurement. Snap-freezing preserves phosphoproteins, but is unavailable in most clinics and compromises diagnostic morphology. Formalin fixation preserves tissue histomorphology, but penetrates tissue slowly, and is unsuitable for stabilizing phosphoproteins. We originated and evaluated a novel one-step biomarker and histology preservative (BHP) chemistry that stabilizes signaling protein phosphorylation and retains formalin-like tissue histomorphology with equivalent immunohistochemistry in a single paraffin block.ResultsTotal protein yield extracted from BHP-fixed, routine paraffin-embedded mouse liver was 100% compared to snap-frozen tissue. The abundance of 14 phosphorylated proteins was found to be stable over extended fixation times in BHP fixed paraffin embedded human colon mucosa. Compared to matched snap-frozen tissue, 8 phosphoproteins were equally preserved in mouse liver, while AMPKβ1 Ser108 was slightly elevated after BHP fixation. More than 25 tissues from mouse, cat and human specimens were evaluated for preservation of histomorphology. Selected tissues were evaluated in a multi-site, independent pathology review. Tissue fixed with BHP showed equivalent preservation of cytoplasmic and membrane cytomorphology, with significantly better nuclear chromatin preservation by BHP compared to formalin. Immunohistochemical staining of 13 non-phosphorylated proteins, including estrogen receptor alpha, progesterone receptor, Ki-67 and Her2, was equal to or stronger in BHP compared to formalin. BHP demonstrated significantly improved immunohistochemical detection of phosphorylated proteins ERK Thr202/Tyr204, GSK3-α/β Ser21/Ser9, p38-MAPK Thr180/Tyr182, eIF4G Ser1108 and Acetyl-CoA Carboxylase Ser79.ConclusionIn a single paraffin block BHP preserved the phosphorylation state of several signaling proteins at a level comparable to snap-freezing, while maintaining the full diagnostic immunohistochemical and histomorphologic detail of formalin fixation. This new tissue fixative has the potential to greatly facilitate personalized medicine, biobanking, and phospho-proteomic research.

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The Role of IKKβ in Venezuelan Equine Encephalitis Virus Infection

Amaya

Voss

Sampey

et al. 2014

PLoS ONE

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Venezuelan equine encephalitis virus (VEEV) belongs to the genus Alphavirus, family Togaviridae. VEEV infection is characterized by extensive inflammation and studies from other laboratories implicated an involvement of the NF-κB cascade in the in vivo pathology. Initial studies indicated that at early time points of VEEV infection, the NF-κB complex was activated in cells infected with the TC-83 strain of VEEV. One upstream kinase that contributes to the phosphorylation of p65 is the IKKβ component of the IKK complex. Our previous studies with Rift valley fever virus, which exhibited early activation of the NF-κB cascade in infected cells, had indicated that the IKKβ component underwent macromolecular reorganization to form a novel low molecular weight form unique to infected cells. This prompted us to investigate if the IKK complex undergoes a comparable macromolecular reorganization in VEEV infection. Size-fractionated VEEV infected cell extracts indicated a macromolecular reorganization of IKKβ in VEEV infected cells that resulted in formation of lower molecular weight complexes. Well-documented inhibitors of IKKβ function, BAY-11-7082, BAY-11-7085 and IKK2 compound IV, were employed to determine whether IKKβ function was required for the production of infectious progeny virus. A decrease in infectious viral particles and viral RNA copies was observed with inhibitor treatment in the attenuated and virulent strains of VEEV infection. In order to further validate the requirement of IKKβ for VEEV replication, we over-expressed IKKβ in cells and observed an increase in viral titers. In contrast, studies carried out using IKKβ−/− cells demonstrated a decrease in VEEV replication. In vivo studies demonstrated that inhibitor treatment of TC-83 infected mice increased their survival. Finally, proteomics studies have revealed that IKKβ may interact with the viral protein nsP3. In conclusion, our studies have revealed that the host IKKβ protein may be critically involved in VEEV replication.

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In vivo murine and in vitro M-like cell models of gastrointestinal anthrax

Tonry

Попов

Narayanan

et al. 2013

Microbes and Infection

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Rat and Avian Myofibers Having Similar Innervation Share Antigenic Determinants

Carpenter

Cassens²,

Greaser³

1988

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The antigenic relationship between extrafusal myofiber types of avian and rat muscles was investigated. Antibodies specific for myosin heavy-chain isozymes of chicken fast-twitch myofibers (anti-twitch) or chicken slow-tonic myofibers (anti-tonic) were used in the immunohistochemical examination of embryonic and adult rat muscle. Anti-twitch antibodies reacted with chicken fast-twitch myofibers, with all extrafusal myofibers of adult rat and with embryonic rat myofibers. Anti-tonic antibodies reacted with chicken slow-tonic myofibers and with embryonic rat myofibers, but not with any extrafusal myofibers of adult rat. All intrafusal myofibers of adult rat reacted with both antibodies. However, individual intrafusal myofibers reacted most strongly with one or the other of the antibodies and weakly with the remaining antibody, thereby segregating the intrafusal myofibers into two classes. These results indicate shared antigenic determinants between the myosin heavy chains of avian and rat twitch myofibers and between the myosin heavy chains of avian tonic myofibers and embryonic rat myofibers. Therefore, antigenically related myosin heavy-chain isozymes are present in avian and rat myofibers having similar patterns of innervation (twitch or tonic). This tonic vs twitch comparison presents a unique perspective for the immunochemical analysis of myosin isozymes, compared with the traditional division based on speed of contraction, slow or fast.

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