ABSTRACT During postembryonic development of the cricket, the total number of filiform hair sensilla in the cereal sensory system increases approximately 40-fold. In addition, individual receptor hairs grow in size, changing the transducer properties of the sensilla and, thereby, the information transmitted to the central nervous system (CNS) by the sensory neurons. Interneurons MGI and 10-3 receive monosynaptic inputs from these sensory neurons and send outputs to anterior ganglia. We show that, in spite of the changes in the periphery, the response properties of these interneurons are relatively constant during development. The two interneurons differ in their frequency response, intensity response and rate of response decrement. Their respective response properties are conserved during the postembryonic period. The results suggest that systematic rearrangement of the sensory neuron-to-interneuron synapses plays an important role in maintaining a constant output of this sensory system to higher centers of the CNS during maturation of the cricket.
Metazoan development requires complex mechanisms to generate cells with diverse function. Alternative splicing of pre-mRNA not only expands proteomic diversity but also provides a means to regulate tissue-specific molecular expression. The N-Cadherin gene in Drosophila contains three pairs of mutually-exclusive alternatively-spliced exons (MEs). However, no significant differences among the resulting protein isoforms have been successfully demonstrated in vivo. Furthermore, while the N-Cadherin gene products exhibit a complex spatiotemporal expression pattern within embryos, its underlying mechanisms and significance remain unknown. Here, we present results that suggest a critical role for alternative splicing in producing a crucial and reproducible complexity in the expression pattern of arthropod N-Cadherin. We demonstrate that the arthropod N-Cadherin gene has maintained the three sets of MEs for over 400 million years using in silico and in vivo approaches. Expression of isoforms derived from these MEs receives precise spatiotemporal control critical during development. Both Drosophila and Tribolium use ME-13a and ME-13b in "neural" and "mesodermal" splice variants, respectively. As proteins, either ME-13a- or ME-13b-containing isoform can cell-autonomously rescue the embryonic lethality caused by genetic loss of N-Cadherin. Ectopic muscle expression of either isoform beyond the time it normally ceases leads to paralysis and lethality. Together, our results offer an example of well-conserved alternative splicing increasing cellular diversity in metazoans.
The Drosophila embryonic and larval body wall consists of a simple array of segmental muscle fibers, innervated in a precise manner by identified neurons. During development motoneurons were forced to find alternate targets following the selective deletion of a single muscle fiber, the pleural internal oblique #5. We used backfills, intracellular dyefills, and immunocytochemistry in embryos and larvae to characterize the normal motoneurons to the fiber. Deleting the fiber using either a genetic or laser lesioning method yielded essentially the same result. In nearly half the cases examined, an ectopically placed neuromuscular projection was found on either of two neighboring muscle fibers, with one favored eight times more than the other. The ectopic projection derived from the nerve branch that normally supplied the deleted muscle fiber 5. Motoneuronal endings on undeleted muscle fibers elsewhere in the body wall had normal morphology. The ectopically placed motor terminals accumulated glutamate in normally sized synaptic boutons, beneath which transmitter sensitivity was localized. The number of boutons and branches at the ectopic endings did not differ significantly from those on intact muscle fiber 5s. Also, the native motoneurons did not alter their arborization sizes in response to a supernumerary ectopically placed contact. While the orientation of the individual ectopically placed branches was variable, the ectopic endings occupied a predictable site on the surrogate muscle fibers. The results suggest that Drosophila motoneurons can project to body wall destinations in the absence of their muscle fiber targets, and that alternate muscle fibers are selected by their proximity. The muscle fibers will support apparently stable and functional supernumerary motor endings on ectopic sites, and these inputs do not significantly influence the behavior of the native motoneurons. The data suggest that Drosophila motoneurons may behave autonomously when making synapses, and that competition does not play a major role in the matching of motoneuron to muscle fiber.
Bing-Neel syndrome (BNS) is a rare central nervous system manifestation of lymphoplasmacytic lymphoma/Waldenström macroglobulinemia (LPL/WM). We herein report a 62-year-old man with LPL/WM after multiple chemotherapies. He had weakness of lower extremities and elevated serum IgM levels. A bone marrow examination showed lymphoplasmacytic cells infiltration. Contrast-enhanced magnetic resonance imaging suggested enhancing lesions in the cauda equina roots. He was diagnosed with BNS and started on treatment with tirabrutinib 480 mg daily. Within three months, he showed clinical and radiologic improvement. Tirabrutinib may have utility as an effective treatment for BNS.
Performing stem cell collection after mobilization chemotherapy was a well-balanced strategy between anti-tumor effect and efficient collection of CD34+ cells, but deep and prolonged nadir exposed patients to risk of febrile neutropenia. Febrile neutropenia was known to be associated with lower yields of CD34+ cells, but quantitative data referring to association between yields of CD34+ cells and severity of neutropenia was lacking. We hypothesized that D-index, which was developed for quantitative evaluation of severity of neutropenia especially in the field of hematologic malignancies, could predict yields of CD34+ cells.We performed a single center, retrospective analysis of patients with relapsed or refractory aggressive lymphoma who were mobilized with ESHAP or modified ESHAP. We evaluated the association between yields of CD34+ cells at first apheresis and D-index.Thirty-six patients were included, and we demonstrated that yields of CD34+ cells from patients with higher D-index were significantly lower than those from patients with lower D-index. Multivariate linear regression analysis and logistic regression analysis also demonstrated the significant predictive power of D-index. Further, D-index was significantly correlated to platelet count before starting mobilization chemotherapy. Platelet count was known to predict yields of CD34+ cells, and combination of platelet count and D-index could identify patients with lowest CD34+ yields.D-index could predict yields of CD34+ cells and it seemed that its predictive power was not less than that of platelet count. Prospective studies including more heterogeneous patients were needed to validate our study.
The purpose of this study was to compare the effectiveness of two types of mazes, multiple maze and 8-arm radial maze, in relation to age and sex difference, onthe acquisition of spatial learning and memory in mice, in addition to estimating memory retention.Three groups of male and female ddY mice were used: 4 weeks old (Young group), 7 weeks old (Adult group), and 82 weeks old (Aged group).Spatial learning and memory were measured by performance in both mazes.Differences between search times and the error rate study in all groups could not be detected in the multiple maze acquisition. Furthermore, a study using a simplified multiple maze showed that there was no significant difference between groups during memory retention tasks.As for search times using an 8-arm radial maze, the aged group showed significantly slower time compared to other groups, and the aged female group showed significantly slower time compared to the aged malegroup, but these results were not in accordance with the error rate. However, studies using the 8-arm radial maze could show data that aged groups and female mice experienced decreased memory retention compared to other groups.The present study confirmed that an 8-arm radial maze could be helpful in the retention of spatial learning and memory.
ABSTRACT Toll, a transmembrane molecule with extracellular leucine-rich repeats, is dynamically expressed by the Drosophila embryonic musculature. Growth cones of RP3 and other motoneurons normally grow past Toll-positive muscle cells and innervate more distal muscle cells, which have down- regulated their Toll expression. In this study, we show that reciprocal genetic manipulations of Toll proteins can produce reciprocal RP3 phenotypes. In Toll null mutants, the RP3 growth cone sometimes innervates incorrect muscle cells, including those that are normally Toll- positive. In contrast, heterochronic misexpression of Toll in the musculature leads to the same growth cone reaching its correct target region but delaying synaptic initiation. We propose that Toll acts locally to inhibit synaptogenesis of specific motoneuron growth cones and that both temporal and spatial control of Toll expression is crucial for its role in development.
