Synaptotagmins 1 and 7 in vesicle release from rods of mouse retina

Synaptotagmins are the primary Ca2+ sensors for synaptic exocytosis. Previous work suggested synaptotagmin-1 (Syt1) mediates evoked vesicle release from cone photoreceptor cells in the vertebrate retina whereas release from rods may involve another sensor in addition to Syt1. We found immunohistochemical evidence for syntaptotagmin-7 (Syt7) in mouse rod terminals and so performed electroretinograms (ERG) and single-cell recordings using mice in which Syt1 and/or Syt7 were conditionally removed from rods and/or cones. Synaptic release was measured in mouse rods by recording presynaptic anion currents activated during glutamate re-uptake and from exocytotic membrane capacitance changes. Deleting Syt1 from rods reduced glutamate release evoked by short depolarizing steps but not long steps whereas deleting Syt7 from rods reduced release evoked by long but not short steps. Deleting both sensors completely abolished depolarization-evoked release from rods. Effects of various intracellular Ca2+ buffers showed that Syt1-mediated release from rods involves vesicles close to ribbon-associated Ca2+ channels whereas Syt7-mediated release evoked by longer steps involves more distant release sites. Spontaneous release from rods was unaffected by eliminating Syt7. While whole animal knockout of Syt7 slightly reduced ERG b-waves and oscillatory potentials, selective elimination of Syt7 from rods had no effect on ERGs. Furthermore, eliminating Syt1 from rods and cones abolished ERG b-waves and additional elimination of Syt7 had no further effect. These results show that while Syt7 contributes to slow non-ribbon release from rods, Syt1 is the principal sensor shaping rod and cone inputs to bipolar cells in response to light flashes.

Neuron-Type Specific Loss of CDKL5 Leads to Alterations in mTOR Signaling and Synaptic Markers

CDKL5 disorder is a devastating neurodevelopmental disorder associated with epilepsy, developmental retardation, autism, and related phenotypes. Mutations in the CDKL5 gene, encoding CDKL5, have been identified in this disorder. CDKL5 is a protein with homology to the serine-threonine kinases and incompletely characterized function. We generated and validated a murine model bearing a floxed allele of CDKL5 and polyclonal antibodies to CDKL5. CDKL5 is well expressed in the cortex, hippocampus, and striatum, localized to synaptosomes and nuclei and developmentally regulated in the hippocampus. Using Cre-mediated mechanisms, we deleted CDKL5 from excitatory CaMKIIα-positive neurons or inhibitory GABAergic neurons. Our data indicate that loss of CDKL5 in excitatory neurons of the cortex or inhibitory neurons of the striatum differentially alters expression of some components of the mechanistic target of rapamycin (mTOR) signaling pathway. Further loss of CDKL5 in excitatory neurons of the cortex or inhibitory neurons of the striatum leads to alterations in levels of synaptic markers in a neuron-type specific manner. Taken together, these data support a model in which loss of CDKL5 alters mTOR signaling and synaptic compositions in a neuron-type specific manner and suggest that CDKL5 may have distinct functional roles related to cellular signaling in excitatory and inhibitory neurons. Thus, these studies provide new insights into the biology of CDKL5 and suggest that the molecular pathology in CDKL5 disorder may have distinct neuron-type specific origins and effects.

Mice deficient in Muc4 are resistant to experimental colitis and colitis-associated colorectal cancer

MUC4, a large transmembrane mucin normally expressed in the small and large intestine, is differentially expressed during inflammatory and malignant conditions of the colon. However, the expression pattern and the role of MUC4 in colitis and colorectal cancer (CRC) are inconclusive. Therefore, the aim of this study was to understand the role of Muc4 during inflammatory and malignant conditions of the colon. Here, we generated Muc4(-/-) mice and addressed its role in colitis and colitis-associated CRC using dextran sodium sulfate (DSS) and azoxymethane (AOM)-DSS experimental models, respectively. Muc4(-/-) mice were viable, fertile with no apparent defects. Muc4(-/-) mice displayed increased resistance to DSS-induced colitis compared with wild-type (WT) littermates that was evaluated by survival rate, body weight loss, diarrhea and fecal blood score, and histological score. Reduced infiltration of inflammatory cells, that is, CD3(+) lymphocytes and F4/80(+) macrophages was observed in the inflamed mucosa along with reduction in the mRNA levels of inflammatory cytokines interleukin (IL)-1β and tumor necrosis factor (TNF)-α and anti-microbial genes Lysozyme M and SLPI in the colon of Muc4(-/-) mice compared with WT littermates. Compensatory upregulation of Muc2 and Muc3 mucins under basal and DSS treatment conditions partly explains the resistance observed in Muc4(-/-) mice. Accordingly, Muc4(-/-) mice exhibited significantly reduced tumor burden compared with WT mice assessed in a colitis-induced tumor model using AOM/DSS. An increased percentage of Ki67(+) nuclei was observed in the tumors from WT compared with Muc4(-/-) mice suggesting Muc4 to be critical in intestinal cell proliferation during tumorigenesis. Taken together, we conclusively demonstrate for the first time the role of Muc4 in driving intestinal inflammation and inflammation-associated tumorigenesis using a novel Muc4(-/-) mouse model.

Antigenic characterization of foot-and-mouth disease virus serotype Asia1 field isolates using polyclonal and monoclonal antibodies

Foot-and-mouth disease virus (FMDV) serotype Asia1 field isolates (n = 100) were compared using a panel of 11 monoclonal antibodies (Mab) in sandwich ELISA. The majority (over 89%) of the isolates showed either homologous (76% and above reactivity) or reduced affinity (20-75% reactivity) for the Mabs 2A, 13, 40, 34 and 81, suggesting that these Mab binding epitopes are conserved, whereas a more variable reactivity was observed for the Mabs B3, 1A, 24, 72, 82 and 89. Polyclonal relationship ('r' value) of the field isolates in liquid phase blocking (LPB) ELISA was examined, and the mean 'r' value was 0.62 relative to vaccine virus IND 63/72. Some of the field isolates (n = 34) were tested in virus neutralization test (VNT) and showed an 'r' value of >0.40. Although a minor antigenic difference was observed in the Mab profiling study, there has not been large antigenic divergence between reference virus and field viruses, thereby providing evidence of wide antigenic coverage of the vaccine strain.

Genetic diversity in the VP1 gene of foot-and-mouth disease virus serotype Asia 1

Complete nucleotide sequence of the 1D (VP1-encoding) gene of 61 foot-and-mouth disease (FMD) serotype Asia I virus isolates recovered from different outbreaks in India between 1985 and 1999 including two vaccine strains currently used were determined. The sequences were compared with each other and those from other Asian countries. On the basis of phylogenetic analysis the viruses could be grouped into four genotypes (genotypes I-IV). All the 61 isolates from India belong to a single genotype (genotype-II) which is further subdivided into three lineages (B1, B2 and B3) under the same genotype. The viruses of the lineage B1 and B3 were found to be more prevalent before 1996 while the viruses of lineage B2 appeared to be new variants responsible for most of the recent outbreaks. Most of the isolates of lineage B1 lack one amino acid in the VP1 protein (position 44) whereas most of the isolates of lineage B2 and B3 contain it which indicates the possibility of these lineages having evolved independently. The rate of evolution of FMDV Asia 1 virus was also estimated and found to be 2.7 x 10(-2) synonymous substitutions per nucleotide per year.

The non-structural leader protein gene of foot-and-mouth disease virus is highly variable between serotypes

Aphthoviruses are unique among picornaviruses in that they alone encode a functional L proteinase as the first component of the viral polyprotein. The L genes of a few Indian foot-and-mouth disease viruses were sequenced and compared with those available to study the extent of variation in this gene. Besides the two in-frame start codons present in all FMDV L genes, the Asia-I vaccine virus had an additional in-frame AUG (start) codon, at codon position 3. Amino acid sequence comparison revealed that 39.8% of positions were capable of accepting replacements, yet the residues of the catalytic dyad were totally conserved. Sequence comparison at the C-terminus of the protein indicated that K/R decreasing GAGQS is sufficient for L/P1 cleavage. Phylogenetic analysis based on the L gene sequences did not reveal any serotype-specific clustering. The probable implications of the observed high variability in this non-structural gene is briefly discussed.

Sequence analysis of the RNA polymerase gene of foot-and-mouth disease virus serotype Asia1

The complete nucleotide (nt.) sequence of the RNA polymerase (3D) gene and 81 nt. in the 3'-untranslated region of foot-and-mouth disease virus (FMDV) serotype Asial (IND63/72) was determined and compared with the sequence of other FMDV serotypes. The 3D genomic region was 1410 nt. long encoding 470 amino acids with an inframe stop codon (TAA) at nt. position 1411-1413. The deduced amino acid sequence of the protein showed 8 conserved motifs as reported in other picornaviruses, 2 of which are 100% identical across the serotypes. Antigenic regions in the polymerase protein were predicted and found to be located at the N-terminus of the protein. The phylogenetic analysis showed that the FMD viruses were segregated into different clusters based on geographical origin; the Asia1 virus did not cluster tightly with any of the geographical groups.

Comparison of amino acid sequences at the amino acid 130-160 region of VP1 polypeptide of Indian field isolates of foot-and-mouth disease virus serotype Asia 1

The nucleotide and deduced amino acid sequences in the amino acid (aa) 130-160 region of VP1 polypeptide of 65 field isolates of foot- and mouth disease virus (FMDV) serotype Asia 1 were determined and the consensus sequences were deduced. Comparison of amino acid sequences revealed conservation of NGK (130-132), TYG (134-136), RGD (142-144), and LPTSF (156-160) motifs and aa 148 (L) while variation was observed at the rest of the region (variability index (VI) of 2.06 to 16.85). Synonymous and non-synonymous mutations at the nucleotide level were well correlated with those of the corresponding amino acids. Comparison of the aa 130-160 sequence of Asia 1 serotype with those of other serotypes of FMDV revealed conservation of aa 135, 148-149, 157 and 160. Amino acids 133-138 and 148-154 were unique for Asia 1 serotype and are presumably responsible for its distinct antigenic nature. The present study revealed that the FMDV isolates of serotype Asia 1 causing outbreaks in India are very much heterogeneous in the aa 130-160 region of VP1.