OBJECTIVE: High-dose chemotherapy followed by autologous haematopoietic stem cell transplantation (AHSCT) can be a salvage therapy for patients with severe, refractory systemic autoimmune diseases. The function of the newly rebuilt immune system is important, but little is known about immune reconstitution after AHSCT in autoimmune disorders. Our aim was to investigate the repopulation of different lymphocyte subsets in patients with systemic autoimmune diseases after AHSCT. METHODS: Twelve patients with severe refractory, autoimmune diseases were enrolled in the study: four with rheumatoid arthritis (RA), four with systemic sclerosis (SSc), three with systemic lupus erythematosus (SLE), and one with autoimmune overlap syndrome (myositis and RA). After stem-cell mobilization, CD34+ apheresis was carried out, followed by conditioning and AHSCT. After transplantation, peripheral lymphocyte subsets were regularly assessed by flow cytometry. RESULTS: The follow-up time was 24 months. The overall transplantation-related mortality (TRM) was 16.7% and the transplant-related toxicity was 33% 2 years after AHSCT. Regarding the immune reconstitution, CD56+ natural killer (NK) cells appeared in the earliest phase after transplantation, followed by CD8+ T cells. B cells and CD4+ T cells became normal within 150 days. The ratio of naive cells was low 30 days after AHSCT; however, naive B cells regenerated within 2 months whereas the repopulation of naive T cells took longer. After a short increase, the ratio of memory cells decreased 2 months after transplantation. Regulatory T (Treg) cells did not change significantly in the peritransplant period. Altogether approximately 5-6 months were required for the reconstitution of the peripheral immune network. CONCLUSIONS: AHSCT can be a salvage therapeutic modality in autoimmune patients who are refractory to other conventional therapies.
OBJECTIVE: High-dose chemotherapy followed by autologous haematopoietic stem cell transplantation (AHSCT) can be a salvage therapy for patients with severe, refractory systemic autoimmune diseases. The function of the newly rebuilt immune system is important, but little is known about immune reconstitution after AHSCT in autoimmune disorders. Our aim was to investigate the repopulation of different lymphocyte subsets in patients with systemic autoimmune diseases after AHSCT. METHODS: Twelve patients with severe refractory, autoimmune diseases were enrolled in the study: four with rheumatoid arthritis (RA), four with systemic sclerosis (SSc), three with systemic lupus erythematosus (SLE), and one with autoimmune overlap syndrome (myositis and RA). After stem-cell mobilization, CD34+ apheresis was carried out, followed by conditioning and AHSCT. After transplantation, peripheral lymphocyte subsets were regularly assessed by flow cytometry. RESULTS: The follow-up time was 24 months. The overall transplantation-related mortality (TRM) was 16.7% and the transplant-related toxicity was 33% 2 years after AHSCT. Regarding the immune reconstitution, CD56+ natural killer (NK) cells appeared in the earliest phase after transplantation, followed by CD8+ T cells. B cells and CD4+ T cells became normal within 150 days. The ratio of naive cells was low 30 days after AHSCT; however, naive B cells regenerated within 2 months whereas the repopulation of naive T cells took longer. After a short increase, the ratio of memory cells decreased 2 months after transplantation. Regulatory T (Treg) cells did not change significantly in the peritransplant period. Altogether approximately 5-6 months were required for the reconstitution of the peripheral immune network. CONCLUSIONS: AHSCT can be a salvage therapeutic modality in autoimmunepatients who are refractory to other conventional therapies.
Authors: Joost F Swart; Eveline M Delemarre; Femke van Wijk; Jaap-Jan Boelens; Jürgen Kuball; Jacob M van Laar; Nico M Wulffraat Journal: Nat Rev Rheumatol Date: 2017-02-23 Impact factor: 20.543
Authors: T Alexander; A Bondanza; P A Muraro; R Greco; R Saccardi; T Daikeler; M Kazmi; C Hawkey; B P Simoes; K Leblanc; W E Fibbe; J Moore; E Snarski; T Martin; F Hiepe; A Velardi; A Toubert; J A Snowden; D Farge Journal: Bone Marrow Transplant Date: 2014-11-10 Impact factor: 5.483
Authors: Alan Graham Pockley; James O Lindsay; Gemma A Foulds; Sergio Rutella; John G Gribben; Tobias Alexander; John A Snowden Journal: Front Immunol Date: 2018-04-04 Impact factor: 7.561
Authors: Eric M Pietras; Ranjani Lakshminarasimhan; Jose-Marc Techner; Sarah Fong; Johanna Flach; Mikhail Binnewies; Emmanuelle Passegué Journal: J Exp Med Date: 2014-02-03 Impact factor: 14.307