Loren H. Hoffman scite author profile

Genetic and embryological experiments have established the Caenorhabditis elegans adult hermaphrodite gonad as a paradigm for studying the control of germline development and the role of soma-germline interactions. We describe ultrastructural features relating to essential germline events and the soma-germline interactions upon which they depend, as revealed by electron and fluorescence microscopy. Gap junctions were observed between oocytes and proximal gonadal sheath cells that contract to ovulate the oocyte. These gap junctions must be evanescent since individual oocytes lose contact with sheath cells when they are ovulated. In addition, proximal sheath cells are coupled to each other by gap junctions. Within proximal sheath cells, actin/myosin bundles are anchored to the plasma membrane at plaque-like structures we have termed hemi-adherens junctions, which in turn are closely associated with the gonadal basal lamina. Gap junctions and hemi-adherens junctions are likely to function in the coordinated series of contractions required to ovulate the mature oocyte. Proximal sheath cells are fenestrated with multiple small pores forming conduits from the gonadal basal lamina to the surface of the oocyte, passing through the sheath cell. In most instances where pores occur, extracellular yolk particles penetrate the gonadal basal lamina to directly touch the underlying oocytes. Membrane-bounded yolk granules were generally not found in the sheath cytoplasm by either electron microscopy or fluorescence microscopy. Electron microscopic immunocytochemistry was used to confirm and characterize the appearance of yolk protein in cytoplasmic organelles within the oocyte and in free particles in the pseudocoelom. The primary route of yolk transport apparently proceeds from the intestine into the pseudocoelom, then through sheath pores to the surface of the oocyte, where endocytosis occurs. Scanning electron microscopy was used to directly visualize the distal tip cell which extends tentacle-like processes that directly contact distal germ cells. These distal tip cell processes are likely to play a critical role in promoting germline mitosis. Scanning electron microscopy also revealed thin filopodia extending from the distal sheath cells. Distal sheath filopodia were also visualized using a green fluorescent protein reporter gene fusion and confocal microscopy. Distal sheath filopodia may function to stretch the sheath over the distal arm.

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Placentation in the garter snake, Thamnophis sirtalis

Hoffman

1970

Journal of Morphology

109

162

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The placental memebranes and uterus of the garter snake, Thamnophis sirtalis, were studied using histological, histochemical, electron microscopic, dye transfer, and radioisotopic techniques. The conceptuses are completely enclosed throughout gestation by a transparent shell membrane which is produced by glandular epithelia in the uterine segment of the oviduct.Both chorio-allantoic and omphalo ( yolk-sac ) placentation are observed in this snake. The growth of the extra-embryonic mesoderm takes place i n a manner peculiar to placental reptiles, and results in the isolation of the omphaloplacenta from the yolk-sac wall. On the basis of morphology, enzyme histochemistry, and phagocytosis of Trypan blue particles, this structure is interpreted as a site of histiotrophic absorption.The chorio-allantoic region of placentation is simple in structure. Fetal and maternal capillaries are closely apposed, but always separated by layers of uterine and chorionic epithelium and the thin shell membrane. The placental membranes of the garter snake are similar in many respects to those of other live-bearing snakes, but less specialized than most lizard placentate.Isotopically labelled sodium and glycine are passed to the fetus following maternal injection, the latter at least apparently via the omphaloplacenta. The permeability to iron and phospate is extremely low. On the basis of these results and the selective transfer df certain dyestuffs, -it appears dialyzing membrane.

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Interaction of Neisseria meningitidis with Human Nasopharyngeal Mucosa: Attachment and Entry into Columnar Epithelial Cells

Stephens¹,

Hoffman²,

McGee³

1983

Journal of Infectious Diseases

157

112

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The mechanisms by which Neisseria meningitidis establishes a carrier state or invades mucosal surfaces of the host to cause septicemia and meningitis are unknown. An experimental model of human columnar nasopharyngeal tissue in organ culture was developed, and the interaction of encapsulated, piliated N meningitidis with this mucosal surface was studied. Electron microscopic studies showed that meningococci attached selectively to nonciliated columnar cells of the nasopharynx. After attachment, the microvilli of these nonciliated cells elongated and surrounded the organisms. Six to twelve hours after infection, endocytic vacuoles containing meningococci were seen in the apical portion of some nonciliated columnar cells. Later, diplococci were seen in the subepithelial tissues adjacent to lymphoid tissue; this observation suggested that meningococci had penetrated the epithelial layer. The interaction of meningococci with the nasopharyngeal epithelium may be an important means whereby these bacteria establish a carrier state or invade the host.

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Inhibition of NF-κB activity results in disruption of the apical ectodermal ridge and aberrant limb morphogenesis

Bushdid¹,

Brantley

Yull³

et al. 1998

Nature

157

107

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In Drosophila, the Dorsal protein establishes the embryonic dorso-ventral axis during development. Here we show that the vertebrate homologue of Dorsal, nuclear factor-kappa B (NF-kappaB), is vital for the formation of the proximo-distal organizer of the developing limb bud, the apical ectodermal ridge (AER). Transcription of the NF-kappaB proto-oncogene c-rel is regulated, in part, during morphogenesis of the limb bud by AER-derived signals such as fibroblast growth factors. Interruption of NF-kappaB activity using viral-mediated delivery of an inhibitor results in a highly dysmorphic AER, reduction in overall limb size, loss of distal elements and reversal in the direction of limb outgrowth. Furthermore, inhibition of NF-kappaB activity in limb mesenchyme leads to a reduction in expression of Sonic hedgehog and Twist but derepresses expression of the bone morphogenetic protein-4 gene. These results are the first evidence that vertebrate NF-kappaB proteins act to transmit growth factor signals between the ectoderm and the underlying mesenchyme during embryonic limb formation.

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SP-A enhances uptake of bacillus Calmette-Guerin by macrophages through a specific SP-A receptor

Weikert

Edwards

Chroneos

et al. 1997

American Journal of Physiology-Lung Cellular and Molecular Phys

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Surfactant-associated protein A (SP-A) is a C-type lectin that is involved in surfactant metabolism as well as host defense functions in the lung. We have recently identified a receptor on macrophages [specific 210-kDa SP-A receptor (SPR210)] that binds SP-A. In the current study we have investigated the role of SP-A in mediating uptake of bacillus Calmette-Guérin (BCG) by rat macrophages and human monocytes and have examined the role of the macrophage SPR210 in this process. 125I-labeled SP-A bound BCG in a Ca(2+)-, carbohydrate-, and dose-dependent manner. To examine association of SP-A-BCG complexes with macrophages, BCG were opsonized with SP-A and were incubated with rat bone marrow-derived macrophages (RBMM), rat alveolar macrophages (RAM), or human monocytes at a 1-to-1 ratio for 4 h. The cells were washed, fixed in formalin, and stained with auramine-rhodamine. Cell-associated organisms were enumerated by fluorescent microscopy. The percentage of cells with one or more associated BCG was increased by SP-A from 27% of RBMM with BCG alone to 54% with SP-A-BCG complexes; 1-16% in RAM; and 39-67% in human monocytes. This enhanced uptake was dependent on the dose of SP-A, with maximal increases seen with 10 micrograms/ml. Electron microscopic analysis supported the conclusion that organisms were ingested by and not simply bound to the macrophages. Inclusion of SPR210 antibodies blocked association of SP-A-BCG complexes, suggesting a role for SPR210 in mediating the interaction of SP-A-BCG with the macrophages. This was further supported by the finding that modulation of SPR210 activity resulted in altered SP-A-BCG uptake. These results demonstrate that SP-A binds to BCG and that uptake of these SP-A-BCG complexes is mediated in part by the SPR210 on rat macrophages and human monocytes.

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Loren H. Hoffman

Ultrastructural Features of the Adult Hermaphrodite Gonad of Caenorhabditis elegans: Relations between the Germ Line and Soma

Placentation in the garter snake, Thamnophis sirtalis

Interaction of Neisseria meningitidis with Human Nasopharyngeal Mucosa: Attachment and Entry into Columnar Epithelial Cells

Inhibition of NF-κB activity results in disruption of the apical ectodermal ridge and aberrant limb morphogenesis

SP-A enhances uptake of bacillus Calmette-Guerin by macrophages through a specific SP-A receptor

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