PCR detection methods are useful in studies of organisms not amenable to culture. Inhibitors in environmental samples can interfere with such assays. We describe a magnetic bead DNA capture protocol that removes inhibitors from outdoor air samples, maintaining the sensitivity of a 16S Pneumocystis carinii mitochondrial rRNA gene-based PCR.Pneumocystis carinii pneumonia (PCP) remains the most common opportunistic infection among individuals diagnosed with AIDS in the United States (5). However, basic knowledge of the ecology and epidemiology of the causative agent, P. carinii, is still lacking. The once widely accepted theory of PCP reactivation in severely immunosuppressed persons is currently being questioned in favor of the view that most episodes of PCP result from a de novo acquisition of the organism through inhalation of contaminated air (8, 11-13, 16, 18, 19, 21-24).There is anecdotal evidence supporting the hypothesis that patients with fulminant PCP are the source of infectious P. carinii, shedding large numbers of organisms into their immediate environment as is the case with tuberculosis (2,3,7,9,10,17). Alternatively, some studies suggest the existence of environmental reservoirs (20, 25), a transmission model which more closely resembles that of aspergillosis. Determining the source(s) of infectious P. carinii organisms is key to understanding when and how potential exposure control measures could be instituted.PCR-based detection methods used in conjunction with environmental sampling are key tools in understanding the ecology and epidemiology of pathogens, such as P. carinii, that are difficult or impossible to culture. However, PCR results may be compromised by the presence of inhibitors in environmental samples. Such inhibitors have been reported in air, soil, and water samples (1,4,15). These include humic acid, clays, various organics, and large amounts of nontarget DNA in the collected sample, although additional types of inhibitors are likely to exist (4). Here we describe a methodology that allows for successful amplification of a target P. carinii DNA sequence spiked onto on a membrane filter containing inhibitory materials collected from a suburban outdoor environment.Air samples were collected from an urban indoor environment and from a suburban outdoor environment during the autumn in the Southeastern United States. Air samples were collected over a 24-h period at approximately 0.4 liters per min using polyvinylidene difluoride filters (pore size, 0.45 m) for use with PCR analysis and at approximately 0.25 liters per min using polycarbonate filters (pore size, 0.45 m) for use with microscopic analysis. Indoor air sampling for viable fungi was accomplished using an Andersen impactor containing malt extract agar plates which were incubated at 25°C for approximately 1 week.Fungal concentrations (in CFU per cubic meter) in the indoor environment were performed to assess the potential for microbial contamination. The rationale for this was that a high indoor fungal concentration would be ind...
