生产的灭鼠疟疾寄生虫的遗传交叉议定书“

SUPPLEMENTARY MATERIALS:

• Maintenance of laboratory mice
• Maintenance of laboratory mosquitoes
• Microscopic examination of thin blood smears stained with Giemsa stain
• Measurement of red blood cell density

Maintenance of laboratory mice

Females of inbred laboratory mouse strain BALB/c, aged 5 to 8 weeks old, are used in the study. Mice are housed in a standard solid-bottom polycarbonate cage with wire-bar lid, equipped with feeder and a water bottle. Mice are maintained at a constant temperature (25 ± 1°C) on 12:12 hour light:dark cycle. Mice are allowed to feed on 2018S Harlan Teklad Global 19% protein extruded rodent diet (sterilizable; from Harlan-Teklad) and supplied with acidified drinking water ad libitum. Experiments on animals are performed in accordance with the guidelines and regulations set forth by the Animal Care and Use Committee at the National Institute of Allergy and Infectious Disease under protocol LMVR11E (National Institutes of Health, Bethesda, Maryland).

Maintenance of laboratory mosquitoes

Mosquitoes are from a laboratory-bred colony of Anopheles stephensi. The adults are maintained in nylon cages kept in a temperature- and humidity-controlled room (23 to 25°C for Plasmodium yoelii and Plasmodium chabaudi, and 19 to 21°C for Plasmodium berghei; 80 to 95% humidity; on 12:12 hours light:dark cycle). Adult mosquitoes are fed with 10% glucose and 2.00% para-aminobenzoic acid (PABA) supplemented water solution. To obtain high-quality adults, 500 larvae are grown in a low-density condition in 1 L of distilled water in a 1,000-cm³ open dish supplied with approximately 1 mg of sodium bicarbonate. After hatching, the larvae are given tetramin powder (PETCO) until they develop into the pupa stage and are transferred to the adult mosquito cages for emerging.

Microscopic examination of thin blood smears stained with Giemsa stain

Using clean scissors snip off the tip (1.0 mm) of the infected mouse’s tail. Place one drop (0.5-1.0 μL) of tail blood onto a clean specimen slide. Mouse will stop bleeding in 1-2 min. Place a clean spreader slide on top of the blood drop, maintaining it at a 45° angle relative to the specimen slide, and allow the blood to adsorb to the entire width of the spreader. Hold the specimen slide and push forward the spreader slide rapidly and smoothly to produce a thin smear. Let the blood film dry, and then immerse the slides in absolute methanol. Allow the slide to air dry once more before covering it with Giemsa stain (10% Giemsa dye in distilled water). After incubating the thin blood films for 10-15 min at room temperature, carefully rinse the slides with tap water and let it air dry. Examine the number of infected red blood cells (iRBC; see Figure 3 for morphology of infected RBC) under a light microscope with immersion oil at 1000x magnification (with 100x objective lens) and calculate parasitemia (the number of iRBC per 100 RBC counted). Different strains of malaria parasites vary in growth rate and pathogenicity. Monitoring of blood stage parasitaemias can be performed 24hrs after injections, depending on the dose of the blood stage malaria parasites. For example, mice will be microscopically positive 24 hrs when injected with 10⁷ infected RBC intraperitoneally or 10⁶ infected RBC intravenously.

Measurement of red blood cell density

Like the levels of parasitaemias, red blood cell (RBC) density in infected mice varies throughout the course of infection. RBC density should be measured within 1-2 hrs before the start of the single- and mixed-clone infection and the cloning experiments. There are two methods for measurement of RBC density: a manual counting using Neubauer hemocytometer and an automatic counting using a Cellometer (Nexcelom Bioscience). In both methods, withdraw 1 μL of mouse tail blood using a glass capillary (VWR) and dilute in 10 mL of PBS and mix well. To use a Neubauer hemocytometer, load 20 μL of the suspension onto the hemacytometer. Place the hemacytometer on a light microscope with 10x objective lens. The hemacytometer contains a grid divided into 9 large squares, and 4 large squares at the corner are further divided into 16 small squares. Count the total number of cells in each of the 16 small squares in the four corner squares. To avoid counting bias or counting cells that overlap a grid line, count a cell as “in” if it overlaps the top or right lines and “out” if it overlaps the bottom or left lines. Estimate the number of cells per one small square and divide by 0.00625 (the volume of one small square is 6.25 nL). This yields the number of cells per microliter (μL). From this data, calculate the final red blood cell density by multiplying with 10,000 (a dilution factor). Rinse the cover slip and counting chamber with distilled water and 70% ethanol; air dry. Alternatively, load 20 μL of the suspension onto a Cellometer counting chamber slide. Insert the slide into a Cellometer slide chamber (the reader). Start the Cellometer software, select the “red blood cell” option, and enter a dilution factor of 10,000. Record the RBC density.