Antigen-dependent intrathecal antibody synthesis in the normal rat brain: tissue entry and local retention of antigen-specific B cells.

The intrathecal Ab response to Ag introduced into the normal brain has not been fully explored. Involvement of Ag-specific, peripheral B cells in an intrathecal response was studied using a normal rat model of Ag infusion through an indwelling cannula into defined brain sites, while maintaining a functionally intact blood-brain barrier. Specific Ab was detected in serum and cerebrospinal fluid.

Growth of P511 mastocytoma cells in BALB/c mouse brain elicits CTL response without tumor elimination: a new tumor model for regional central nervous system immunity.

We have developed a murine model to explore the tumor-specific CTL response in the immune-privileged central nervous system using P511 mastocytoma cells. Three strains with varying degrees of histocompatibility to P511 cells (CD-1, allogeneic; BALB/c, minor histoincompatible; DBA/2, syngeneic) received tumor cells (10(4)) into the putamen 7 days after cannula implantation, when the blood-brain barrier was functionally intact. Without exception, tumor formed reproducibly by day 7 in all strains.

Ontogeny of blood-brain barrier function in ovine fetuses, lambs, and adults.

The ontogeny of regional blood-brain barrier function was quantified with the rate constant for influx (Ki) across the blood-brain barrier with the small molecular weight synthetic, inert hydrophilic amino acid alpha-aminoisobutyric acid (AIB) in chronically instrumented early (87 days of gestation, 60% of gestation) and late (137 days of gestation, 90% of gestation) gestation fetal, newborn (3 days of age), older (24 days of age), and adult (3 years of age) sheep. The Ki was significantly (P < 0.05) lower in the brain regions of the adult sheep and in most brain regions of newborn and older lambs compared with fetuses at 60 and 90% of gestation.

Elevated cerebrospinal fluid IgA in humans and rats is not associated with secretory component.

Immunoglobulin A (IgA) is transported across mucosal tissue membranes covalently bound to secretory component (SC). To determine if this receptor-mediated process also occurs at central nervous system (CNS) boundaries, cerebrospinal fluid (CSF) and serum from patients with CNS neuroinflammatory disease were analyzed for IgA and SC. Excess CSF IgA was detected in six of 24 patients, but no significant CSF SC was detected.

Effects of arginine vasopressin and atriopeptin on glial cell volume measured as 3-MG space.

This study evaluates the hypothesis that arginine vasopressin (AVP) and atriopeptin, peptide hormones synthesized and released within the brain, are regulators of brain cell volume using cultured astroglial cells derived from newborn rats. Cell water content, regarded as volume, was measured in defined, serum-free medium as the 3-O-methylglucose (3-MG) space. Initial experiments established conditions such that glucose, which competes with 3-MG for the glucose carrier, would not interfere with the measurement of the 3-MG space.

Afferent and efferent arms of the humoral immune response to CSF-administered albumins in a rat model with normal blood-brain barrier permeability.

Cerebrospinal fluid (CSF) and serum antibody responses to albumin administered into CSF or muscle have been compared with respect to titer, isotype profile and complement-fixing activity in a rat model with normal brain barrier function. CSF/serum titer ratios and the ratio of IgG subclasses, IgG1/IgG2, were both elevated following CSF immunization. In contrast, there was no difference in complement-fixing activity between antibodies elicited by the two routes of immunization.

Cervical lymphatics, the blood-brain barrier and the immunoreactivity of the brain: a new view.

This new view of the immunoreactivity of the normal brain is based on three key components. First, there is an active and highly-regulated communication between the brain and the central immune organs. Secondly, the connection from the brain to the draining nodes is much larger than previously appreciated.

Drainage of brain extracellular fluid into blood and deep cervical lymph and its immunological significance.

Cerebral extracellular fluids drain from brain to blood across the arachnoid villi and to lymph along certain cranial nerves (primarily olfactory) and spinal nerve root ganglia. Quantification of the connection to lymph in rabbit, cat and sheep, using radiolabelled albumin as a marker of flow, indicates that a minimum of 14 to 47% of protein injected into different regions of brain or cerebrospinal fluid passes through lymph. The magnitude of the outflow to lymph is at variance with the general assumption that the absence of conventional lymphatics from the brain interrupts the afferent arm of the immune response to brain antigens.

Blood-brain barrier integrity and brain water and electrolytes during hypoxia/hypercapnia and hypotension in newborn piglets.

This study examines the effects of hypoxia/hypercapnia and hypoxia/hypercapnia with hypotension (hypotensive-hypoxia/hypercapnia) on blood-to-brain transfer constants (K1) for sodium and mannitol and brain water and electrolyte contents in newborn piglets. Hypoxia/hypercapnia was induced for 60 min with the piglets breathing a gas mixture of 15% carbon dioxide, 10-12% oxygen, and 73-75% nitrogen adjusted to achieve an arterial pH less than 7.15, pO2 less than 40, and pCo2 greater than 60 mmHg and hypotension for 20 min by rapid phlebotomy to achieve a mean arterial blood pressure less than 40 mmHg.

Ovalbumin is more immunogenic when introduced into brain or cerebrospinal fluid than into extracerebral sites.

The magnitudes of serum antibody responses to ovalbumin have been compared following immunization via cerebral or extracerebral sites in Sprague-Dawley rats. In central nervous system (CNS)-immunized rats, conditions were designed to ensure normal brain barrier permeability. Extracerebral immunization was via the footpad or along pathways of antigen outflow from the CNS.

Myelin basic protein infused into cerebrospinal fluid suppresses experimental autoimmune encephalomyelitis.

We have evaluated the antibody and the effector T-cell responses to a single cerebrospinal fluid (CSF) infusion of myelin basic protein (MBP) in Lewis rats by measuring serum anti-MBP antibodies and clinical signs of experimental autoimmune encephalomyelitis (EAE), respectively. Some rats developed anti-MBP antibodies, but none manifested EAE in response to the primary infusion. Antibody responses to an EAE challenge 3 weeks after CSF infusion were normal, but clinical symptoms of EAE were markedly suppressed.

Albumin outflow into deep cervical lymph from different regions of rabbit brain.

Dynamics and pathways of 125I-labeled albumin (RISA) outflow from brain to deep cervical lymph have been studied in anesthetized rabbits between 4 and 25 h after microinjection of 1 microliter RISA into the internal capsule or midbrain. Lymph from the jugular lymph trunks was collected for periods of 2-11 h. RISA was cleared from brain with half-times of disappearance from internal capsule and midbrain of 18.

Extracellular volume decreases while cell volume is maintained by ion uptake in rat brain during acute hypernatremia.

1. Regulation of brain extracellular and intracellular water content, regarded as volume, and electrolytes in response to 90 min of hypernatremia has been studied in the cerebral cortex of rats under urethane anaesthetic. 2.

Barrier membranes at the outer surface of the brain of an elasmobranch, Raja erinacea.

This report gives the results of the first electron-microscopic examination of the cell layers covering the outer brain surface and the inner surface of the cartilaginous skull in the skate, Raja erinacea. The perivascular glial blood-brain barrier--a characteristic of elasmobranchs--extends to the outer surface of the brain. This outer barrier layer is surrounded, in turn, by a subarachnoid compartment (depth: 30-40 microns), containing loose connective tissue and blood vessels; by an arachnoid-like epithelium (10-15 cell layers), impermeable to horseradish peroxidase; and, by perimeningeal fluid, a fluid with a slow turnover rate and a protein composition different from plasma.

Distribution of extracellular tracers in perivascular spaces of the rat brain.

Large molecular weight tracers (india ink or albumin labeled with colloidal gold, Evans blue or rhodamine) were micro-injected into the perivascular space of an artery or vein on the brain surface, or within the cerebral cortex or the subarachnoid space of anesthetized rats. The subsequent distribution was followed both under intravital microscopy, in order to outline the pathways and direction of tracer movement, and in histological section, in order to describe the pathways of flow at the light and electron microscopic level. The tracers remained largely in the perivascular spaces and in the interconnecting network of extracellular channels, including the subpial space and the core of subarachnoid trabeculae.

Role of cervical lymph nodes in the systemic humoral immune response to human serum albumin microinfused into rat cerebrospinal fluid.

The humoral immune response to human serum albumin (HSA) microinfused into cerebrospinal fluid (CSF) has been measured in serum, cervical lymph nodes, and spleen of Sprague-Dawley rats. Conditions were designed to promote normal brain barrier function. Serum titers of anti-HSA antibodies, primarily IgG, increased over 10 days and then persisted for at least 10 weeks.

Brain ion and volume regulation during acute hypernatremia in Brattleboro rats.

Regulation of brain ions and volume in response to 30 min of hypernatremia has been studied in two strains of anesthetized rats, the vasopressin-deficient Brattleboro and its vasopressin-competent parent strain, the Long-Evans. Plasma [Na] was increased by intraperitoneal injection of hyperosmolal NaCl. Brain volume was regulated during hypernatremia associated with tissue uptake of Na and Cl in both strains, but osmotically stimulated uptake of Na was 61% less in the Brattleboro.

Brain and cerebrospinal fluid ion composition after long-term anoxia in diving turtles.

Prolonged anoxia in turtles is associated with marked disturbances in plasma composition. This study examines brain and cerebrospinal fluid (CSF) ion homeostasis in the freshwater turtle, Chrysemys picta bellii, in response to 8-10 days of submergence anoxia at 10 degrees C. For comparison, it also examines the response to experimental elevation of plasma [K], [Ca], and [Mg] in normoxic turtles.

Bulk flow of cerebrospinal fluid into brain in response to acute hyperosmolality.

Brain volume is regulated during acute hyperosmolality based, in part, on the tissue gain of Na, Cl, and K. This study evaluates the contribution of bulk flow of cerebrospinal fluid (CSF) into brain to the volume regulatory gain of electrolytes. Artificial CSF containing radiolabeled albumin and diethylenetriamine penta-acetic acid (DTPA) was perfused for 60 min through the ventricles and/or subarachnoid space of anesthetized rats, and tracer clearances from CSF to brain were measured as a function of plasma osmolality.

Volume regulatory influx of electrolytes from plasma to brain during acute hyperosmolality.

Brain volume is regulated during acute hyperosmolal states based, in part, on the tissue gain of Na, Cl, and K [H. F. Cserr, M.

Regulation of brain water and electrolytes during acute hyperosmolality in rats.

Regulation of brain water and electrolytes during acute hyperosmolal states has been studied in anesthetized rats. Rats were injected intravenously or intraperitoneally with hypertonic NaCl, mannitol, or sucrose (hyperosmolal series) or with isotonic NaCl (isosmolal controls). Terminal plasma osmolality varied from 290 to 385 mosmol/kg and the experimental duration from 15 to 120 min.