OBJECTIVE: Infantile malignant osteopetrosis (IMO) is a rare autosomal recessive disorder affecting osteoclast function. Fifty percent of the patients have a mutation in the TCIRG1 gene coding for one subunit of an osteoclast proton pump. The only curative treatment is hematopoietic stem cell transplantation (SCT). The oc/oc mouse has a mutation in the gene homologous to TCIRG1 and its expected lifespan is only 3 to 4 weeks. Previous attempts to cure these mice with SCT have been unsuccessful. We wanted to determine if early hematopoietic SCT using enriched and MHC-matched stem cells can cure oc/oc mice from osteopetrosis. METHODS: One- and 8-day-old oc/oc and control mice were radiated with 200, 400, or 600 cGy and transplanted intraperitoneally with 1 or 5 x 10(6) normal lineage-depleted bone marrow cells. Blood, x-ray, and pathology analyses were performed on transplanted mice. RESULTS: All 1-day-old mice irradiated with 400 cGy and transplanted with 5 x 10(6) cells survived long term. An engraftment level of 20% is sufficient to correct most features of the disease. X-ray and histopathology examination of transplanted animals showed normalization of bone structure. However, although a correction of bone structure occurred, the transplanted oc/oc mice were smaller in size than their littermates. In contrast to untreated animals, oc/oc mice developed teeth after transplantation, but with abnormal structure and shape making them unusable. CONCLUSION: We have shown that this murine form of IMO is curable with neonatal SCT using enriched stem cells.
OBJECTIVE: Infantile malignant osteopetrosis (IMO) is a rare autosomal recessive disorder affecting osteoclast function. Fifty percent of the patients have a mutation in the TCIRG1 gene coding for one subunit of an osteoclast proton pump. The only curative treatment is hematopoietic stem cell transplantation (SCT). The oc/oc mouse has a mutation in the gene homologous to TCIRG1 and its expected lifespan is only 3 to 4 weeks. Previous attempts to cure these mice with SCT have been unsuccessful. We wanted to determine if early hematopoietic SCT using enriched and MHC-matched stem cells can cure oc/oc mice from osteopetrosis. METHODS: One- and 8-day-old oc/oc and control mice were radiated with 200, 400, or 600 cGy and transplanted intraperitoneally with 1 or 5 x 10(6) normal lineage-depleted bone marrow cells. Blood, x-ray, and pathology analyses were performed on transplanted mice. RESULTS:All 1-day-old mice irradiated with 400 cGy and transplanted with 5 x 10(6) cells survived long term. An engraftment level of 20% is sufficient to correct most features of the disease. X-ray and histopathology examination of transplanted animals showed normalization of bone structure. However, although a correction of bone structure occurred, the transplanted oc/oc mice were smaller in size than their littermates. In contrast to untreated animals, oc/oc mice developed teeth after transplantation, but with abnormal structure and shape making them unusable. CONCLUSION: We have shown that this murine form of IMO is curable with neonatal SCT using enriched stem cells.
Authors: Carmen Flores; Ilana Moscatelli; Christian S Thudium; Natasja Stæhr Gudmann; Jesper S Thomsen; Annemarie Brüel; Morten A Karsdal; Kim Henriksen; Johan Richter Journal: Haematologica Date: 2013-10-04 Impact factor: 9.941
Authors: Barbara Tondelli; Harry C Blair; Matteo Guerrini; Kenneth D Patrene; Barbara Cassani; Paolo Vezzoni; Franco Lucchini Journal: Am J Pathol Date: 2009-02-13 Impact factor: 4.307
Authors: Eleonora Palagano; Sharon Muggeo; Laura Crisafulli; Irina L Tourkova; Dario Strina; Stefano Mantero; Elena Fontana; Silvia L Locatelli; Marta Monari; Emanuela Morenghi; Carmelo Carlo-Stella; John B Barnett; Harry C Blair; Paolo Vezzoni; Anna Villa; Cristina Sobacchi; Francesca Ficara Journal: Bone Rep Date: 2020-01-07