![Fig. 3. Protective and therapeutic antitumor immunity requires allogeneic cell transplantation, and CD4+ and CD8+ T cells in DLI and autologous tumor cell vaccination. / (A) Scheme of experiment in panel B. (B) Protective antitumor immunity requires NST and posttransplantation vaccine. BALB/c mice underwent NST from B10.D2 donors. Beginning 2 weeks after transplantation, chimeras then received nothing (▾), 20 million B10.D2 splenocytes intravenously (▿), or 20 million B10.D2 splenocytes and 4T1 tumor vaccine (▪; N = 5 per group), as shown in panel A. Four months later, all mice that received transplants, and groups of 5 untreated (●) or vaccinated BALB/c controls (○), were challenged with 104 4T1 cells intravenously. Tumor-free survival is plotted as a function of time after intravenous tumor challenge. (C) Scheme of experiment in panel D. (D) Therapeutic antitumor immunity requires CD4+ and CD8+ T cells in the DLI. BALB/c mice bearing 13-day-old 4T1 tumors received surgery and NST from B10.D2 donors as illustrated in Figure 2A. On day 28, mice received 2 × 107 B10.D2 splenocytes, either unmodified (●, ○) or depleted of CD4+ (▾) or CD8+ (▿) T cells. Three days later, mice received 4T1 vaccine (●, ▾, ▿) or nothing (○). Tumor-free survival was then monitored. (E) Therapeutic antitumor immunity requires autologous cells in the vaccine. Tumor-bearing BALB/c mice received surgery, NST, DLI, and vaccine consisting of the bystander line mixed with nothing (▾), irradiated 4T1 cells (●), irradiated DA-3 cells (○; a BALB/c breast cancer), or irradiated NT-2 cells (▿; a mammary cancer of FVB/N [H-2q] mice). Tumor-free survival is plotted as a function of time after tumor injection.](https://ash.silverchair-cdn.com/ash/content_public/journal/blood/101/4/10.1182_blood-2002-07-2233/3/h80433832003.jpeg?Expires=1724239087&Signature=fc10~iAOk-wam5L6PCS9dhka2rCmzgG6bA7do4jubo7l2W5-tXUzmlkb3YrodtTg--~0GHajsBIT4B8wMnU~OZ9TFCYWGoPEVfZU50Y3jgfZnCmAyszwyLe73LTiw2Q6jgNqgScA6T3cAhsLmtIoHZ-Q5dvqfkF4isybWTWyNHUcyTxtSZLHtJxPQCIbH~TsiZMxo2~f2Ugkm3PAVF7eo1kzCzrgDvx4d9J5qTA9SY0l0H6NKnSlBAmZGxvfeh93bpZbs~TMbyiKqoaAApNwVlyradhleI2nZJai3I9tohcdl53hT0BxGQJhCPYvQZMTKH5YFH~Zy1LqhJY0beULnQ__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
Protective and therapeutic antitumor immunity requires allogeneic cell transplantation, and CD4+ and CD8+ T cells in DLI and autologous tumor cell vaccination.
(A) Scheme of experiment in panel B. (B) Protective antitumor immunity requires NST and posttransplantation vaccine. BALB/c mice underwent NST from B10.D2 donors. Beginning 2 weeks after transplantation, chimeras then received nothing (▾), 20 million B10.D2 splenocytes intravenously (▿), or 20 million B10.D2 splenocytes and 4T1 tumor vaccine (▪; N = 5 per group), as shown in panel A. Four months later, all mice that received transplants, and groups of 5 untreated (●) or vaccinated BALB/c controls (○), were challenged with 104 4T1 cells intravenously. Tumor-free survival is plotted as a function of time after intravenous tumor challenge. (C) Scheme of experiment in panel D. (D) Therapeutic antitumor immunity requires CD4+ and CD8+ T cells in the DLI. BALB/c mice bearing 13-day-old 4T1 tumors received surgery and NST from B10.D2 donors as illustrated in Figure 2A. On day 28, mice received 2 × 107 B10.D2 splenocytes, either unmodified (●, ○) or depleted of CD4+ (▾) or CD8+ (▿) T cells. Three days later, mice received 4T1 vaccine (●, ▾, ▿) or nothing (○). Tumor-free survival was then monitored. (E) Therapeutic antitumor immunity requires autologous cells in the vaccine. Tumor-bearing BALB/c mice received surgery, NST, DLI, and vaccine consisting of the bystander line mixed with nothing (▾), irradiated 4T1 cells (●), irradiated DA-3 cells (○; a BALB/c breast cancer), or irradiated NT-2 cells (▿; a mammary cancer of FVB/N [H-2q] mice). Tumor-free survival is plotted as a function of time after tumor injection.
