Polychlorinated biphenyls (PCBs)
are persistent toxic chemicals
with both legacy sources (e.g., Aroclors) and new sources (e.g., unintentional
contaminants in some pigments and varnishes). PCB sulfates are derived
from further metabolism of hydroxylated PCBs (OH-PCBs), which are
oxidative metabolites of PCBs. While OH-PCBs and PCB sulfates are
implicated in multiple toxicological effects, studies of PCB sulfates
in human serum have been limited by available analytical procedures.
We have now developed a method for extraction of PCB sulfates from
serum followed by differential analysis with, and without, sulfatase-catalyzed
hydrolysis to OH-PCBs. A sulfatase from Helix pomatia was purified by affinity chromatography, and it displayed broad
specificity for PCB sulfates without contaminant glucuronidase activity.
Following sulfatase-catalyzed hydrolysis of the PCB sulfates extracted
from serum, the corresponding OH-PCBs were derivatized to methoxy-PCBs
and quantitated by GC-MS/MS. In a pooled sample of human serum, we
identified 10 PCB sulfates, with three PCB sulfate congeners exhibiting
the highest concentrations from 1200 to 3970 pg/g of serum. In conclusion,
we have developed a sensitive and specific method for the determination
of PCB sulfates in human serum.
Multiple organ dysfunction syndrome (MODS) caused by the systemic inflammatory response during sepsis is responsible for millions of deaths worldwide each year, and despite broad consensus concerning its pathophysiology, no specific or effective therapies exist. Recent efforts to treat and/or prevent MODS have included a variety of biologics, recombinant proteins targeting various components of the host response to the infection (e.g., inflammation, coagulation, etc.) Improvements in molecular biology and pharmaceutical engineering have enabled a wide range of utility for biologics to target various aspects of the systemic inflammatory response. The majority of clinical trials to date have failed to show clinical benefit, but some have demonstrated promising results in certain patient populations. In this review we summarize the underlying rationale and outcome of major clinical trials where biologics have been tested as a pharmacotherapy for MODS in sepsis. A brief description of the study design and overall outcome for each of the major trials are presented. Emphasis is placed on discussing targets and/or trials where promising results were observed. Post hoc analyses of trials where therapy demonstrated harm or additional risk to certain patient subgroups are highlighted, and details are provided about specific trials where more stringent inclusion/exclusion criteria are warranted.
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