Apoptotic cells activate NKT cells through T cell Ig-like mucin-like-1 resulting in airway hyperreactivity

T cell Ig-like mucin-like-1 (TIM-1) is an important asthma susceptibility gene, but the immunological mechanisms by which TIM-1 functions remain uncertain. TIM-1 is also a receptor for phosphatidylserine (PtdSer), an important marker of cells undergoing programmed cell death, or apoptosis. We now demonstrate that NKT cells constitutively express TIM-1 and become activated by apoptotic cells expressing PtdSer. TIM-1 recognition of PtdSer induced NKT cell activation, proliferation, and cytokine production. Moreover, the induction of apoptosis in airway epithelial cells activated pulmonary NKT cells and unexpectedly resulted in airway hyperreactivity, a cardinal feature of asthma, in an NKT cell-dependent and TIM-1-dependent fashion. These results suggest that TIM-1 serves as a pattern recognition receptor on NKT cells that senses PtdSer on apoptotic cells as a damage-associated molecular pattern. Furthermore, these results provide evidence for a novel innate pathway that results in airway hyperreactivity and may help to explain how TIM-1 and NKT cells regulate asthma.     

Roles of CcrA and CcrB in Excision and Integration of Staphylococcal Cassette Chromosome mec,a Staphylococcus aureus Genomic Island

The gene encoding resistance to methicillin and other β-lactam antibiotics in staphylococci, mecA, is carried on a genomic island, SCCmec (for staphylococcal cassette chromosome mec). The chromosomal excision and integration of types I to IV SCCmec are catalyzed by the site-specific recombinases CcrA and CcrB, the genes for which are encoded on each element. We sought to identify the relative contributions of CcrA and CcrB in the excision and integration of SCCmec. Purified CcrB but not CcrA was shown to mediate the gel shift of chromosomal target integration sequences (attB) in electrophoretic mobility shift assays. However, preincubation of CcrB-DNA complexes with increasing concentrations of CcrA blocked gel shift. The interaction of CcrB and CcrA was confirmed by Escherichia coli two-hybrid analysis. SCCmec excision mediated by plasmid-encoded and inducible ccrA, ccrB, or both genes was assessed by PCR in Staphylococcus aureus. CcrB alone could mediate excision but excision was at an alternate att site (attR2) within the right extremity of SCCmec. In contrast, both CcrB and CcrA were required to mediate excision at the chromosomal attB site (called attR when SCCmec is integrated). Insertion of a plasmid containing the SCCmec att site (attS) into the chromosome required both CcrA and CcrB, but CcrA overexpression lowered integration frequency. Thus, while CcrB binds DNA, interaction between CcrA and CcrB, in a precise ratio, is required for attB site-specific excision and SCCmec chromosomal insertion.Staphylococcus aureus is one of the most common causes of serious human bacterial infections, both in the hospital and the community (33). Therapy of these infections is made more difficult by the development of resistance to drugs with antistaphylococcal activity such as the beta-lactam antibiotics. Resistance to beta-lactam antibiotics in staphylococci is mediated by a beta-lactamase and by a beta-lactam-resistant target transpeptidase, penicillin-binding protein 2a (PBP2a) (4, 5, 8). However, while the beta-lactamase has a narrow substrate specificity, limited to penicillins, PBP2a resists inactivation by all beta-lactam antibiotics and can cross-link peptidoglycan when all other target PBPs are rendered nonfunctional by beta-lactams. The latter is called methicillin resistance and is the most important clinical resistance phenotype among staphylococci (8) The gene for PBP2a, mecA, is located on a genomic island called SCCmec (for staphylococcal cassette chromosome mec) that is integrated into the staphylococcal chromosome at a specific site. In addition to mecA, all SCCmec elements carry intact or mutant mecA regulators (mecR1/mecI) and genes that mediate the site-specific integration and excision of SCCmec (ccr genes) (14). SCCmec elements have been typed according to the sequences of the ccr and mec complexes with five cores (types I to V) being prevalent but with considerable variation in the genetic organization within each element (14-17, 22).SCCmec is presumed to be a mobile genetic element, which can integrate into and excise from the chromosome by site-specific recombination between a site on SCCmec (attS) and one on the chromosome (attB). attB comprises the last 15 bp of a highly conserved gene called orfX that is located near the S. aureus origin of replication (15, 19). When SCCmec is inserted, the attB sequence is duplicated at the other end of the element with the site in orfX now called attR and the one abutting the non-orfX end of SCCmec designated attL. When SCCmec excises, the attB site is reconstituted in the chromosome and the two ends of the element come together to form attS within a nonreplicating circular version of SCCmec.The site-specific recombination of SCCmec is catalyzed by its encoded ccr recombinases, CcrA and CcrB for types I to IV and CcrC for type V. CcrA and CcrB belong to a family of large serine invertase and resolvases which consist of resolvases, invertases, phage integrases, and transposases (6, 10, 29, 31). All of them contain a conserved catalytic motif and some contain DNA-binding domains at either the N or the C terminus. The catalytic domains can either function as both integrases and excisases or as only integrases that require additional proteins to mediate excision (6, 29, 30, 31).The ccrA and ccrB genes are part of two-gene operons of 1,350 and 1646 bp in S. aureus strain N315 encoding proteins of 52.6 and 62.7 kDa, respectively. Although there is considerable variation at the amino acid level among the CcrA and CcrB proteins found in types I to IV SCCmec, plasmid-encoded CcrA and CcrB recombinases from each type can excise SCCmec from any of the others (23). However, CcrC can only excise type V SCCmec (16). There has been little examination of the role of each of these proteins in recombination or in DNA binding. In the present study we sought to define the precise roles of CcrA and CcrB in DNA binding and in the excision and integration of SCCmec in S. aureus. This is the first step in understanding the host range of SCCmec and how it may move among staphylococcal isolates in nature.     

The cross-generation transmission of oxytocin in humans

Animal studies demonstrated that the neuropeptide oxytocin (OT), implicated in bond formation across mammalian species, is transmitted from mother to young through mechanisms of early social experiences; however, no research has addressed the cross-generation transmission of OT in humans. Fifty-five parents (36 mothers and 19 fathers) engaged in a 15-min interaction with their infants. Baseline plasma OT was sampled from parents and salivary OT was sampled from parents and infants before and after play and analyzed with ELISA methods. Interactions were micro-coded for parent and child's socio-affective behavior. Parent and infant's salivary OT was individually stable across assessments and showed an increase from pre- to post-interaction. Significant correlations emerged between parental and infant OT at both assessments and higher OT levels in parent and child were related to greater affect synchrony and infant social engagement. Parent-infant affect synchrony moderated the relations between parental and infant OT and the associations between OT in parent and child were stronger under conditions of high affect synchrony. Results demonstrate consistency in the neuroendocrine system supporting bond formation in humans and other mammals and underscore the role of early experience in shaping the cross-generation transmission of social affiliation in humans.     

Evidence for an early role for BMP4 signaling in thymus and parathyroid morphogenesis

The thymus and parathyroids are pharyngeal endoderm-derived organs that develop from common organ primordia, which undergo a series of morphological events resulting in separate organs in distinct locations in the embryo. Previous gene expression and functional analyses have suggested a role for BMP4 signaling in early thymus organogenesis. We have used conditional deletion of Bmp4 or Alk3 from the pharyngeal endoderm and/or the surrounding mesenchyme using Foxg1-Cre, Wnt1-Cre or Foxn1-Cre. Deleting Bmp4 from both neural crest cells (NCC) and early endoderm-derived epithelial cells in Foxg1-Cre;Bmp4 conditional mutants resulted in defects in thymus-parathyroid morphogenesis. Defects included reduced condensation of mesenchymal cells around the epithelium, partial absence of the thymic capsule, a delay in thymus and parathyroid separation, and failed or dramatically reduced organ migration. Patterning of the primordia and initial organ differentiation were not affected in any of the mutants. Deleting Bmp4 from NCC-derived mesenchyme or differentiating thymic epithelial cells (TECs) had no effects on thymus-parathyroid development, while loss of Alk3 from either neural crest cells or TECs resulted in only a mild thymic hypoplasia. these results show that the processes of cell specification and morphogenesis during thymus-parathyroid development are independently controlled, and suggest a specific temporal and spatial role for BMP4-mediated epithelial-mesenchymal interactions during early thymus and parathyroid morphogenesis.     

Central Region of Talin Has a Unique Fold That Binds Vinculin and Actin

Talin is an adaptor protein that couples integrins to F-actin. Structural studies show that the N-terminal talin head contains an atypical FERM domain, whereas the N- and C-terminal parts of the talin rod include a series of α-helical bundles. However, determining the structure of the central part of the rod has proved problematic. Residues 1359–1659 are homologous to the MESDc1 gene product, and we therefore expressed this region of talin in Escherichia coli. The crystal structure shows a unique fold comprised of a 5- and 4-helix bundle. The 5-helix bundle is composed of nonsequential helices due to insertion of the 4-helix bundle into the loop at the C terminus of helix α3. The linker connecting the bundles forms a two-stranded anti-parallel β-sheet likely limiting the relative movement of the two bundles. Because the 5-helix bundle contains the N and C termini of this module, we propose that it is linked by short loops to adjacent bundles, whereas the 4-helix bundle protrudes from the rod. This suggests the 4-helix bundle has a unique role, and its pI (7.8) is higher than other rod domains. Both helical bundles contain vinculin-binding sites but that in the isolated 5-helix bundle is cryptic, whereas that in the isolated 4-helix bundle is constitutively active. In contrast, both bundles are required for actin binding. Finally, we show that the MESDc1 protein, which is predicted to have a similar fold, is a novel actin-binding protein.     

Innate immune response to human bone marrow fibroblastic cell implantation in CB17 scid/beige mice

Immunocompromised mouse models have been extensively used to assess human cell implantation for evaluation of cytotherapy, gene therapy and tissue engineering strategies, as these mice are deficient in T and B lymphoid cells. However, the innate immune response and its effect on human cell xenotransplantation in these mouse models are mainly unknown. The aim of this study is to characterise the myeloid populations in the spleen and blood of CB17 scid beige (CB17 sb) mice, and to study the inflammatory cell responses to xenogeneic implantation of enhanced green fluorescent protein (GFP)-labelled human bone marrow fibroblastic (HBMF) cells into CB17 sb mice. The results indicate that even though CB17 sb mice are deficient in B- and T-cells, they exhibit some increases in their monocyte (Mo), macrophage (Mphi) and neutrophil (Neu) populations. NK cell and eosinophil populations show no differences compared with wild-type Balb/C mice. An innate immune response, identified by CR3 (CD11b/CD18)-positive myeloid inflammatory cells and F4/80-positive macrophages, was evident in the tissues where HBMF cells were implanted. As a consequence, the majority of implanted HBMF cells were eliminated by 4 weeks after implantation. Interestingly, the mineralised matrix formed by osteogenic HBMF cells was also eroded by multinuclear Mphi-like giant cells. We conclude that CB17 sb mice retain active innate immune cells, which respond to HBMF cell xenotransplantation. This study highlights the importance of the innate immune cells in the anti-xenograft response and suggests that strategies to block the activities of these cells may ameliorate the progressive long-term elimination of xenotransplants.     

Malignant fibrous histiocytoma of the glans penis: a case report

BACKGROUND: Malignant fibrous histiocytoma has been regarded as the most common sarcoma of older adults. However, recent opinion regards pleomorphic malignant fibrous histiocytoma as an undifferentiated high grade pleomorphic sarcoma not otherwise classifiable utilizing current techniques available in surgical pathology. Notwithstanding controversy regarding its nomenclature, malignant fibrous histiocytoma involving the penis is exceedingly rare, with only 4 cases previously described, to our knowledge. CASE: An uncircumcised 73-year-old male presented with a painless, granular, partially necrotic lesion beneath the penile foreskin. There was no history of sexually transmitted disease, constitutional symptoms or dysuria. Examination of penile shaft, testicles, spermatic cord and inguinal lymph nodes were unremarkable. Biopsy revealed a markedly pleomorphic sarcoma. Subsequent, partial penectomy revealed the same lesion with an adjacent area of squamous cell carcinoma in situ. CONCLUSION: Malignant fibrous histiocytoma remains a diagnosis of exclusion. The investigation requires extensive tumor sampling in search of areas of differentiation and a complete battery of immunohistochemical markers. Therapeutically important entities in the differential diagnosis that must be ruled out include other poorly differentiated sarcomas, sarcomatoid squamous cell carcinoma and desmoplastic melanoma.