Basic fibroblast growth factor (bFGF) is a potent trophic factor for neurons and astrocytes and recently has been implicated in the pathology of Alzheimer's disease. In order to better understand the role of bFGF in normal brain function and during pathology, we have analyzed its anatomical distribution and its response to injury in the CNS. Double-staining immunohistochemistry showed that bFGF immunoreactivity was localized in astrocytes, in select neuronal populations, and occasionally in microglial cells throughout the normal rat brain. Neuronal populations that showed bFGF immunoreactivity included septohippocampal nucleus, cingulate cortex, subfield CA2 of the hippocampus, cerebellar Purkinje cells, cerebellar deep nuclei, facial nerve nucleus, and the motor and spinal subdivisions of the trigeminal nucleus and facial nerve nucleus. The pattern of bFGF immunoreactivity in the hippocampus was examined following entorhinal cortex lesion, or fimbria-fornix transection. After entorhinal cortex lesion, bFGF immunoreactivity increased in the outer molecular layer of the dentate gyrus ipsilateral to the lesion. The lesion effect on bFGF immunoreactivity was expressed as an increase in the number of bFGF astrocytes, as an increase in the intensity of bFGF immunoreactivity within astrocytes, and as an increase of bFGF immunoreactivity in the surrounding extracellular matrix, relative to the contralateral side. The time course and pattern of reorganization paralleled the sprouting of septal cholinergic terminals in response to the same type of lesion, suggesting that bFGF may play an important role in lesion-induced plasticity. After transection of the fimbria-fornix, chronic infusion of bFGF appeared to preserve NGF receptors on neurons within the medial septal complex and, as previously reported, prevent the death of medial septal neurons. Therefore, it appears that bFGF infusion, which has been shown to increase the synthesis of NGF by astrocytes (Yoshida and Gage, 1991), also helps enable neurons to respond to NGF. This suggests that after injury bFGF may participate in a cascade of neurotrophic events, directly and indirectly facilitating neuronal repair and/or promoting neuronal survival.
To assess the applicability of the National Institutes of Health (NIH) consensus criteria (NCC) for chronic graft-versus-host disease (cGVHD), 211 patients who developed GVHD more than 100 days after allogeneic transplantation were reclassified using NCC. Classifications were: late acute GVHD (44 patients, 21%), overlap syndrome (64 patients, 30%) and classic cGVHD (103 patients, 49%). Classic cGVHD and overlap syndrome patients (n ¼ 167) were graded using both the revised Seattle criteria (RSC) and NIH global scoring (NGS). Twenty-three patients (14%) had mild, 81 (48%) had moderate and 63 (38%) had severe cGVHD. After a median follow-up of 46 months (range 5-71 months), the 4-year GVHD-specific survival was not significantly different among the different subtypes of NCC. Among patients with late acute GVHD, however, the pattern of acute GVHD onset (late, persistent or recurrent) was significantly different with respect to GVHD-specific survival. Among patients with overlap syndrome and classic cGVHD, multivariate analysis showed that NGS as well as RSC were useful in predicting survival and discontinuation of immunosuppressive therapy despite of more detailed grouping. Our study indicates that NCC is applicable. The clinical impact of NIH types and NGS should be verified through prospective studies.
We conducted a systemic evaluation to describe the effect of minimal residual disease (MRD) kinetics on long-term allogeneic transplantation outcome by analyzing 95 adult transplants with Philadelphia chromosome-positive acute lymphoblastic leukemia (Ph-positive ALL) who received first-line two courses of imatinib-based chemotherapy (median follow-up 5 years). MRD monitoring was centrally evaluated by real-time quantitative PCR (4.5 log sensitivity). After the first course of imatinib-based chemotherapy, 33 patients (34.7%) achieved at least major molecular response. On the basis of MRD kinetics by the end of two courses of imatinibbased chemotherapy, we stratified entire patients into four subgroups: early-stable molecular responders (EMRs, n ¼ 33), late molecular responders (LMRs, n ¼ 35), intermediate molecular responders (IMRs, n ¼ 9) and poor molecular responders (PMRs, n ¼ 18). Multivariate analysis showed that the most powerful factor affecting long-term transplantation outcome was MRD kinetics. Compared with EMRs, IMRs or PMRs had significantly higher risk of treatment failure in terms of relapse and disease-free survival (DFS). LMRs had a tendency toward a lower DFS. Quantitative monitoring of MRD kinetics during the first-line imatinib-based chemotherapy course is useful in identifying subgroups of Ph-positive ALL transplants at a high risk of relapse.
Phosphorylated AKT (pAKT) is a major contributor to radioresistance in human cancers. The aim of this study was to investigate the association of pAKT expression and radiation resistance in cervical cancer. A retrospective review was made of the records of 27 women who received primary radiation therapy due to locally advanced cervical cancer (LACC) with FIGO stage IIB -IVA. Nine patients regarded as radiation resistant developed local recurrences with a median progression free interval of 9 months. Eighteen patients did not show local recurrences, and were regarded as a radiation-sensitive group. Using pretreatment paraffin-embedded tissues, we evaluated pAKT expression by immunohistochemistry. A significant association was found between the level of pAKT expression and local recurrence. Immunohistochemical staining for pAKT was significantly more frequent in the radiation-resistant than in the radiation-sensitive group (P ¼ 0.004). The mean progression-free survival was 86 months for patients with pAKT-negative staining (19 cases) and 44 months for patients with pAKT-positive expression (eight cases) (P ¼ 0.008). These results suggest that signalling from phosphatidylinositide 3-kinase/pAKT can lead to radiation resistance, and that evaluation of pAKT may be a prognostic marker for response to radiotherapy in LACC.
The aim of this prospective study was to investigate the feasibility of reduced-intensity conditioning (RIC) allogeneic stem cell transplantation (SCT) in 37 adults with high-risk acute lymphoblastic leukemia (ALL) in first (n ¼ 30) or second (n ¼ 7) complete remission (CR). All patients were treated with fludarabine (150 mg/m 2 ) and melphalan (140 mg/m 2 ) followed by transplantation from matched sibling (n ¼ 27) or unrelated (n ¼ 10) donors. The indications for reduced-intensity conditioning allogeneic SCT (RIC-SCT) were as follows: (1) X50 years, 16 (43.2%) and (2) decreased organ function or active infections, 21 (56.8%). Graft-versus-host disease (GVHD) prophylaxis consisted of calcineurin inhibitor (cyclosporine for sibling and tacrolimus for unrelated transplants) and methotrexate. The cumulative incidence of acute (grades II-IV) and chronic GVHD was 43.2 and 65.6%, respectively. After a median follow-up of 36 months for surviving transplants, the 3-year relapse, non-relapse mortality, disease-free survival and overall survival rates were 19.7, 17.7, 62.6 and 64.1%, respectively. Transplants in first CR showed better transplantation outcomes than those in second CR. The potential of antileukemic activity of chronic GVHD was also found. This study suggests that RIC-SCT is a potential therapeutic approach for adults with high-risk ALL in remission who are ineligible for myeloablative transplantation.
Deferoxamine is widely used therapeutically as a chelator of ferric ion in disorders of iron overload. This study demonstrates that this drug is a potent inhibitor of DNA synthesis by human B and T lymphocytes in vitro, but has relatively little effect on the synthesis of RNA and protein. The inhibitory effects of deferoxamine are completely reversible by washing or by adding stoichiometric amounts of Fe3+. Micromolar concentrations of deferoxamine decrease intracellular levels of deoxyribonucleoside triphosphates, which is similar to the effects of hydroxyurea. The binding of iron by deferoxamine likely causes an inhibition of ribonucleotide reductase activity, thereby preventing cells from completing the S phase of the cell proliferation cycle. As a reversible and nontoxic S-phase inhibitor, it may have important experimental and therapeutic applications.
Summary:We reviewed 242 allogeneic hematopoietic stem cell transplantation (HSCT) recipients retrospectively over a 2-year period (January 1998-December 1999 in order to analyze the characteristics and assess the outcomes of infectious complications in patients after HSCT in Korea. Bacteria were the major pathogens before engraftment, and viral and fungal infections predominated during the post-engraftment period. Varicella zoster virus was the most common viral pathogen after engraftment. Cytomegalovirus disease occurred mainly in the late-recovery phase. The frequency of mold infection was higher than that of yeast. There was a relatively high incidence of tuberculosis (3.0%) and Pneumocystis carinii pneumonia (6.5%). One case of death by measles confirmed by autopsy was also noted. Overall, cumulative mortality was 43% (104/242), and 59.6% of these deaths (62/104) were infection-related. Allogeneic HSCT recipents from unrelated donors were prone to infectious complication and higher mortality than those from matched sibling (17/39 (43.6%) vs 45/203 (22.2%), respectively; Po0.01; odd ratio 2.5; 95% confidence interval 1.2-5.1). As infection was the main post-HSCT complication in our data, more attention should be given to the management of infections in HSCT recipients.
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