We evaluated cross-reactivity of immunoglobulin A (IgA) secreted on the nasal mucosa in mice that were nasally inoculated 4 times with a mixture of inactivated H1N1 influenza A viruses and poly(N-vinylacetamide-co-acrylic acid) (PNVA-co-AA) bearing d-octaarginine at 7-day intervals. Three viral strains (A/Puerto Rico/8/34, A/New Caledonia/20/99 IVR116, and A/Solomon Islands/03/2006) and D-octaarginine-linked polymers with different molecular weights were used as antigens and their carriers, respectively. Secretion of intranasal IgA was barely observed when the inactivated virus alone was administered. The polymer induced the production of intranasal IgA specific to the inoculated viruses, irrespective of the viral strain and molecular weight of the polymer. The respective antibodies cross-reacted to recombinant hemagglutinin proteins of not only the viral strain used for immunization but also other H1N1 strains, including A/Puerto Rico/8/34 strain whose hemagglutinin proteins are diverse from those of other strains. Mice with high reactivity of IgA to the inoculated viruses tended to acquire clear cross-reactivity to other viral strains. Notably, IgA induced by inactivated H1N1 A/New Caledonia/20/99 IVR116 strain with the strongest immunogenicity between 3 antigens in the presence of the polymer cross-reacted to recombinant hemagglutinin proteins of the A/Brisbane/10/2007 and A/Viet Nam/1194/2004 strains, which are categorized into H3N2 and H5N1, respectively. Our polymer is a potential candidate for an efficient antigen carrier that induces mucosal IgA having cross-reactivity to antigenically drifted variants, irrespective of the subtype of viral strains.
Myelofibrosis occurs in various hematologic neoplasias, including myelodysplastic syndrome (MDS), with a relatively low incidence. To gain insight into the clinical and cytogenetic implications of MDS patients in whom myelofibrosis develops, statistical analysis was done on 82 primary MDS patients with successful cytogenetic results. Seven patients had myelofibrosis during the course of the disease (8.5%, Group I), 34 had abnormal karyotypes without myelofibrosis (41.5%, Group II), and the other 41 had abnormal karyotypes without myelofibrosis (50%, Group III). All of the MDS patients except one with myelofibrosis had cytogenetic abnormalities, and four of them had multiple chromosome abnormalities. In univariant analysis, MDS patients with myelofibrosis showed no significant differences in age, sex, or peripheral blood data. In contrast, patients with chromosome abnormalities evolved into myelofibrosis with a high incidence compared with those with normal karyotypes (14.6% versus 2.4%, P = 0.054). The occurrence of myelofibrosis was higher during the first 6 months after the diagnosis of MDS than in the next 6 months (6.1% versus 0%, P = 0.045). Most of the MDS patients survived for less than 10 months after myelofibrosis was evident. Furthermore, survival was significantly shorter in Group I compared with Groups II (P less than 0.05) and III (P less than 0.01). Among the MDS patients in whom myelofibrosis developed, some were associated with acute megakaryoblastic leukemia, indicating a heterogeneity of clinical features in MDS with myelofibrosis.
Background. Clinical and cytogenetic analyses were performed in 97 patients with myelodysplastic syndromes (MDS) to evaluate risk factors for poor prognosis.
Methods/Results. Among them, 22 patients survived for less than 1 year: 10 of these had complex chromosomal abnormalities (complex aberrations), but only 5 of the remaining 75 patients who survived longer than 12 months did. Leukemia did not develop in approximately half of the patients who died within 1 year. The occurrence rate of leukemic transformation appears to depend on MDS subtypes rather than cytogenetic changes. In contrast, the percentage of patients who survived for less than 1 year is related to chromosomal changes, especially to complex aberrations. Of particular interest in this study is that 7 of 11 patients with MDS who had myelofibrosis survived for less than 1 year, and 5 of 7 patients with secondary MDS were included in this group showing a poor prognosis. By hematologic analysis, significant differences were found in the hemoglobin values and platelet counts of patients who survived for less than 1 year.
Conclusions. From this analysis, three major risk factors for a poor prognosis were identified: complex aberrations, a history of chemotherapy or radiation therapy (secondary MDS), and development of myelofibrosis. The survival probability in the patients with MDS having at least one of these three factors was significantly low when compared with that in patients without these factors, indicating that cytogenetic analysis in combination with observance of certain clinical manifestations is important in therapeutic management of patients with MIDS. Cancer 1992; 70:94‐99.
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