Demonstration of a macrophage migration enhancement factor in the sera of young rabbits

Migration stimulation factor (MStF), from murine B cells, constitutively produced by a T-B hybridoma

Hybridomas were established between murine spleen B cells and the thymoma cell line BW5147, to purify the migration stimulation factor (MStF), a molecule likely involved in immunosuppression. The parental B cells were from Lo/PHA mice previously shown to produce high levels of MStF after immunization by appropriate (tolerogenic) doses of ovalbumin. Among the positive clones, B9 was selected, since it produced high levels of MStF constitutively, and no immunoglobulin. This clone was shown to contain the genome of the B-cell fusion partner, since one of its L chain genes had undergone a VK-JK rearrangement. Isolation of MStF by size-exclusion chromatography showed 2 major peaks of activity, one of which eluted in a 20-kDa, almost protein-free fraction. This elution is unlikely to correspond to the true molecular mass, since MStF was found not to be a protein. Indeed, MStF was TCA-soluble, thermoresistant, highly hydrophobic and protease-resistant, but activity was abolished by neuraminidase digestion. The possibility of its being a small molecule transported by a protein carrier was also ruled out. These results suggest that MStF is a complex molecule containing both sialic residues and a lipid moiety. Experiments are planned to further investigate the chemical structure of this unusual B-cell factor.

Congenital syphilis in newborn rabbits: immune functions and susceptibility to challenge infection at 2 and 5 weeks of age

Experiments were performed to further elaborate on our congenital syphilis rabbit model. Attempts were made to determine whether in utero exposure to Treponema pallidum would stimulate immune reactivity and whether this activity would, in turn, affect lesion development upon challenge infection. Newborn rabbits aged 2 or 5 weeks were obtained from control does or from does infected intravenously with T. pallidum during pregnancy. Congenitally infected newborns exhibited increased immunologic functions. Concanavalin A-induced T-lymphocyte proliferation was elevated at both 2 and 5 weeks. In addition, macrophage Ia expression and RPR antibody titers were increased at 5 weeks. In separate experiments, newborn rabbits from control does or from does infected during pregnancy were challenged intradermally with viable organisms at either 2 or 5 weeks of age. Subsequent lesion severity was markedly increased in those newborns previously exposed to treponemes in utero. These observations further strengthen our model for congenital transmission of T. pallidum during pregnancy. We propose that at least some of the tissue pathology in syphilitic infection is associated with activated host defenses.

L-fucose blocks MIF/MAF priming of rabbit alveolar macrophages for a PMA-induced oxidative response

The effect of L-fucose on the priming of AM from normal adult rabbits and their subsequent chemiluminescent (CL) responses to phorbol myristate acetate (PMA) was investigated. It was observed that 12.5 mM L-fucose, but not D-fucose, blocked the "spontaneous" priming of normal AM during an 18-hr incubation period in serum-free RPMI 1640 medium by about 40% (P less than 0.01) as detected by their CL responses to a PMA challenge. In addition, the optimal concentration of L-fucose (12.5 mM) blocked MIF/MAF priming during the 3- or 18-hr incubation period by 71 or 93% (P less than 0.05), respectively, as determined by their CL responses following PMA challenge. It is of particular significance that D-fucose was inactive. These results, together with previously published data, indicate that L-fucose (a) blocks priming of AM for an oxidative response, (b) stimulates random migration of AM, and (c) reverses migration inhibition produced by migration inhibition factor.

Chemiluminescent responses of alveolar macrophages from normal and Mycobacterium bovis BCG-vaccinated rabbits as a function of age

Luminol-dependent chemiluminescence (CL) responses of alveolar macrophages (AM) from normal and Mycobacterium bovis BCG-vaccinated infant and adult rabbits were compared. AM from 1-, 7-, and 14-day-old normal rabbits exhibited much lower peak CL responses than did AM from 28- and 42-day-old normal animals as well as rabbits 2 to 3 or 5 to 6 months and 1 to 2 years of age. The most striking differences among AM from infant and adult rabbits were noted when AM were obtained from 28-day-old and 5- to 6-month old rabbits 21 days after the rabbits were immunized with 200 micrograms of BCG intravenously. In this case, AM from 5- to 6-month-old animals gave peak counts per minute of 400,000 to 500,000 whereas AM from 28-day-old rabbits vaccinated with BCG (harvested at 49 days of age) gave peak counts per minute of only 40,715 +/- 2,688. These data reveal that AM from neonatal animals are grossly deficient as responders to phorbol myristate acetate-induced CL. This deficiency, which improved with age, is still apparent in AM from 28-day-old animals. The data also reveal that BCG vaccination of 28-day-old animals yields AM that are poor responders to phorbol myristate acetate compared with AM from BCG-vaccinated animals 2 to 3 and 5 to 6 months of age. AM from animals vaccinated with BCG at 28 days of age contained fewer and smaller electron-dense lysosomelike structures than did AM from adult rabbits similarly vaccinated. These findings provide an explanation for the difficulties infants have in developing effective cell-mediated immune responses against intracellular parasites.

The cellular basis for differential lymphokine responses to mitogen stimulation

Human mononuclear cells from some individuals produce macrophage migration inhibition factor (MIF) when stimulated with Con A while those of others produce migration stimulation factor (MStF). T cells were responsible for these different responses but T4 cells produced MIF and T8 cells produced MStF regardless of the global response which was not explained by the individual T4:T8 ratios. Admixing the T-cell subpopulations in vitro revealed that MIF responses switched to MStF responses between T4:T8 ratios of 75:25 and 50:50 with MStF responders switching at higher ratios than MIF responders. Pulse exposure to supernatants from Con A-stimulated T4-enriched cells significantly reduced migration indices resulting from stimulation of fresh cells, promoting MIF responses regardless of the responder status of the supernatant donor. In contrast, supernatants from T8-enriched cells, when obtained from MStF responders, significantly increased migration indices while there was no effect when the supernatants were obtained from MIF responders. These results suggest that soluble factors from T8 cells are primarily responsible for determining whether an individual mounts a MIF or MStF response to Con A stimulation.

Induction of a macrophage migration enhancement factor after desensitization of tuberculin-positive rabbits with purified protein derivative

The production of a macrophage migration enhancement factor (MEF) has been achieved as a consequence of administering a desensitizing dose of purified protein derivative (PPD) to Mycobacterium bovis BCG-sensitized rabbits. The migration-enhancing effect was first demonstrated when alveolar macrophages (AM) harvested from desensitized rabbits exhibited marked migration stimulation; whereas maximum migration enhancement was observed 8 days after the administration of PPD, migration enhancement of the AM from these rabbits persisted for up to 12 days. Sera from BCG-sensitized, PPD-desensitized animals exhibited a peak of MEF activity 4 days after desensitization. Maximal MEF activity was demonstrated in culture supernatants of nonadherent spleen cells harvested 8 days after the intravenous desensitizing dose of PPD was given. Control spleen cell culture supernatants did not produce detectable MEF. The route of desensitization with PPD was critical. When PPD was administrated intratracheally, MEF activity was not induced. The intravenous administration of BCG after PPD desensitization reversed migration enhancement to strong migration inhibition. Ammonium sulfate fractionation indicated that two fractions contained MEF activity. MEF activity was retained by dialysis membranes with a 15,000-molecular-weight cutoff but passed through dialysis membranes with a 25,000-molecular-weight cutoff. The mixture of migration inhibition factor with MEF-containing supernatants resulted in the mutual cancellation of both activities. These observations suggest that MEF may be a modulator of macrophage effector responses mediated by migration inhibition factor.