Parent-progeny recognition as a function of MHC odortype identity

The several linked polymorphic genes of the MHC, which has been proposed as a prime determinant of sensed genetic individuality within species, is known to operate in mice by olfactory recognition in aspects of reproductive behavior that concern mate selection, thereby favoring outbreeding and heterozygosity, and also concern the maintenance of pregnancy. A single base-change can alter an individual MHC odortype, and the potential range of combinatorial MHC-determined odortypes is clearly vast. Following our findings that newborn mice already express their MHC odortype (which is detectable at 9 days of gestational age), we sought to determine whether MHC is involved in behavioral aspects of early development, such as rearing. In the studies presented herein, we report the ability and proclivity of mothers to recognize and preferentially retrieve syngeneic (genetically identical) pups from other pups differing only for MHC. Reciprocally, we report the ability of pups to recognize their familial environment, regardless of whether they had been nursed by their biological mothers or by foster mothers. Early learning experiences of the MHC environment are apparently a key element in survival, assuring maternal protection and promoting outbreeding.

Effect of B2m gene disruption on MHC-determined odortypes

Major histocompatibility complex (MHC) genes confer individual olfactory identity that can be detected with exquisite accuracy by mice. The fact that MHC genes themselves generate the characteristic odortype, rather than dedicated odor-determining genes, was supported in studies of point mutations in H2K and HLA transgenic mice, which evinced distinct odor profiles in olfactory assays. In this article we provide further evidence for a central role of MHC genes themselves in odortype specification by demonstrating that mice that are unable to express their genomic class I MHC genes because they lack beta2-microglobulin are distinguishable by scent from otherwise identical mice which possess an intact B2m gene. This odortype disparity appears at 9-12 days of gestational age, the period in which the MHC is first detectable in fetal cells of normal mice.

Odortypes: their origin and composition

Odors that distinguish one individual from another member of the species and are determined by polymorphic genes are called odortypes. Odortypes and their considerable societal significance have been studied intimately only in mice and mainly with respect to the genes of the major histocompatibility complex. Further understanding and the matter of human relevance have been hampered by the apparent restriction of odortype expression to urine. The present finding that odorants comprising prerenal odortypes are already present in blood, albeit in masked form, affords the basis of a comprehensive view of odortypes. Accordingly, major histocompatibility complex and other polymorphic genes of antiquity are seen inter alia as agents of normal variation, which entails quantitative variation in output of odorant metabolites. Relatively few such normal variations should suffice for a vast range of compound odors whose specificity is determined by combinative assortment of the same set of individual volatile compounds.

Evidence suggesting that the odortypes of pregnant women are a compound of maternal and fetal odortypes

Odortypes--namely, body odors that distinguish one individual from another on the basis of genetic polymorphism at the major histocompatibility complex and other loci--are a fundamental element in the social life and reproductive behavior of the mouse, including familial imprinting, mate choice, and control of early pregnancy. Odortypes are strongly represented in urine. During mouse pregnancy, an outcrossed mother's urine acquires fetal major histocompatibility complex odortypes of paternal origin, an observation that we took as the focus of a search for odortypes in humans, using a fully automated computer-programmed olfactometer in which trained rats are known to distinguish precisely the odortypes of another species. Five women provided urine samples before and after birth, which in each case appropriately trained rats were found to distinguish in the olfactometer. Whether this olfactory distinction of mothers' urine before and after birth reflects in part the odortype and hence genotype of the fetus, and not just the state of pregnancy per se, was tested in a second study in which each mother's postpartum urine was mixed either with urine from her own infant or with urine of a different, same-aged infant. Responses of trained rats were more positive with respect to the former (congruous) mixtures than to the latter (incongruous) mixtures, implying that, as in the mouse, human fetal odortypes of paternal genomic origin are represented in the odortype of the mother, doubtless by circulatory transfer of the pertinent odorants.

Immunoreactivity of umbilical cord blood and post-partum maternal peripheral blood with regard to HLA-haploidentical transplantation

Recent clinical reports have demonstrated that umbilical cord blood (CB) may be utilized as a source of transplantable hematopoietic stem cells when bone marrow is not available. However, it is not apparent that CB can be used to transplant partially HLA-matched siblings or matched, non-familial recipients. In this study the immunoreactivity of CB has been investigated within familial confines; 14 families were analyzed at the time of birth of their child and six of these families were reassessed at 6 months post-partum. In mixed lymphocyte reactions, CB was unable to significantly respond to stimulation with cells from either the mother or father. Furthermore, unlike adult peripheral blood, CB displayed depressed immune responses to alloantigen and T cell mitogen. At 6 months, the immune responses of the infant demonstrated normal development in terms of alloantigen and mitogen responses. However, at 6 months both the mother and the infant demonstrated a continued immune tolerance to one another. The data suggest that CB could be used in familial transplant situations when siblings are HLA-haploidentical if the donor/recipients are chosen based on the paternal haplotype. Furthermore, maternal bone marrow harvested during the 6 months immediately following delivery of a child also should be suitable as a stem cell graft in haploidentical situations.

Discrimination of odortypes determined by the major histocompatibility complex among outbred mice

Genetically determined body odors that distinguish one mouse from another are termed odortypes. The best known odortypes, highly expressed in urine, are those specified by H-2, the major histocompatibility complex of the mouse, but other odortypes originate from unidentified loci in the rest of the genome, including both sex chromosomes. The definition of H-2 odortypes and evidence that their perception affects reproductive behavior have so far depended on studies with inbred mouse strains whose genetic differences are confined to the H-2 complex of genes. To simulate feral conditions more closely, a freely segregating population was bred from crosses involving four unrelated inbred strains contributing four different H-2 haplotypes. After H-2 typing, this outbred population was divided into four groups of freely segregating mice, comprising the four distinct H-2 genotypes represented, to serve as conventional donors of urine for evaluation in the standard Y-maze system used in the training and testing of mice for H-2 odortype discrimination. With respect to utility in training mice for H-2 odortype discrimination, and to degrees of concordance attained in the Y-maze by trained mice, these urinary H-2 odortype sources from outbred mice were no less effective than urines customarily obtained for those purposes from nonsegregating inbred donors. We conclude that discrimination of H-2 odortypes is not appreciably affected or impaired by the usual concurrent segregation within the genome as a whole.

Collection, separation and cryopreservation of umbilical cord blood for use in transplantation

Bone marrow transplantation (BMT) is limited by the paucity of HLA-matched donors and the frequent occurrence of graft-versus-host disease (GVHD). Recent clinical reports have implied that the use of umbilical cord blood (UCB) may alleviate some of the problems associated with BMT. Banks of frozen UCB could make the problem of finding suitable stem cell donors easier and stem cell grafts would be more readily available. However, definitive experiments are needed to develop optimal methods for collection, separation and storage of cryopreserved UCB for extended periods of time. We have found that several simple techniques may be utilized to collect large volumes of UCB (up to 220 ml). Also, modification of a common density gradient separation method permits recovery of large quantities of UCB mononuclear cells. Finally, we have examined the effects of prolonged frozen storage on the ability to recover viable and functional UCB, particularly stem/progenitor cells. It was observed that storage of UCB in liquid nitrogen for as long as 7 years had minimal effects on cell viability, cellular composition of UCB and progenitor/stem cell capacity. Thus, the establishment of UCB banks for use in transplantation appears to be a feasible approach.

Fetal H-2 odortypes are evident in the urine of pregnant female mice

The major histocompatibility complex (MHC) imparts to each mouse an individual urinary odor, called "odortype", which reflects its MHC genotype. Perception of odortypes affects mate selection and embryonic implantation. Recent findings that odortypes are expressed as early as one day of age suggested that they might already be expressed in utero. We now report that at 9-12 days of gestation, odortypes specified by paternal (non-maternal) MHC haplotypes become apparent in maternal urine. Thus, odortypes are expressed in utero, can be sensed even before birth, and may serve in familial identification and communication.

Human bone marrow and umbilical cord blood cells generate CD4+ and CD8+ single-positive T cells in murine fetal thymus organ culture

Murine fetal thymus lobes isolated from both normal and scid/scid mice can be colonized by donor cells from either human bone marrow or human umbilical cord blood in vitro. Subsequent organ culture results in a transient production of a few CD4+ CD8+ (double-positive) cells and then the accumulation of CD4+ or CD8+ (single-positive) T cells. A significant number of immature T-cell intermediates (e.g., CD8low, CD3-/low cells) were present in early organ cultures, suggesting that these were progenitors of the mature CD3+/high single-positive T cells that dominated late cultures. Depletion of mature T cells from the donor-cell populations did not affect their ability to colonize thymus lobes. However, colonization depended on the presence of CD7+ progenitor T cells. Limiting dilution experiments using mature T-cell populations (human peripheral blood leukocytes, human bone marrow cells, and human umbilical cord blood cells) suggested that thymic organ culture supports the growth of progenitor T cells but does not support the growth of mature human T cells. Each of these donor populations produced single-positive populations with different CD4/CD8 ratios, suggesting that precursor cells from different sources differ qualitatively in their capacity to differentiate into T cells.

Analysis of the hairless mouse as a model for the effects of aging on the immune system

Studies into the effects of aging on the immune system are hampered by the lack of a suitable animal model that is readily available and cost efficient. The mutant mouse, hairless (hr/hr genotype), has been shown to undergo an accelerated thymic involution with accompanying immunodeficiency. Thus, this strain of mouse has been proposed as a model for studying the interactions of aging and immune function. We have investigated the effects of homozygous hr gene expression over time on the immune function of these mice. It was observed that homozygous hr gene expression had minimal effects on peripheral lymphocyte subset compositions but did appear to result in changes in thymic differentiation. Further, hr/hr mice displayed decreased proliferative responses to IL2 and mitogen stimulation, although cytotoxic responses (both NK and T cell mediated) appeared normal. These defects appear to be attributable to T helper cell dysfunction. Each of the changes found in hr/hr mice were distinct from those seen with age-matched control mice. Thus, the hr/hr inbred strain of mouse does not appear to be a suitable model for use in analyzing the effects of aging on the immune system.

Adoptive transfer of skin-selective autoimmunity induced by Skn alloantigenic disparities

Two unlinked genes of the mouse, Skn-1 and Skn-2, each with alterative alleles, specify alternative cell-surface Skn alloantigens expressed only by epidermal and neural cells. C57BL/6 (B6) and A/J (A) strain mice differ at both Skn loci. Thus lethally irradiated B6 mice restored with (B6 x A)F1 hybrid hematopoietic cells [(B6 x A)/B6 chimeras] reject A strain (Skn-incompatible) skin grafts. Our studies were designed primarily to test the inference that (B6 x A)F1 lymphoid cells, after differentiating in B6 recipients, which lack the Skn alloantigens of A strain mice, may make an Skn-related, skin-selective autoimmune response when returned to their native (B6 x A)F1 habitat. Severe cutaneous lesions did, indeed, ensue after spleen cells of (B6 x A)/B6 chimeras were transferred to (B6 x A)F1 recipients, provided that three conditions were met--namely, (i) priming of the (B6 x A)/B6 chimeric donor by grafting and rejection of Skn-incompatible A strain skin grafts, (ii) stimulation of the recipient's skin as from shaving, at which sites the lesions were mainly located, and (iii) pretreatment of the (B6 x A)F1 recipients with cyclophosphamide or sublethal irradiation. Spleen cells of control female chimeras primed by grafting and rejection of H-Y (Skn-compatible) B6 male skin failed to incite the Skn-typical cutaneous lesions in (B6 x A)F1 recipients, indicating that these lesions were Skn-specific and not a nonspecific consequence of incompatible skin grafting per se. Normally compatible A strain skin grafts, but not Skn-compatible B6 skin grafts, were rejected by cyclophosphamide-treated (B6 x A)F1 recipients of (B6 x A)/B6 spleen cells from Skn-primed chimera donors. Treatment of primed chimeras' spleen cells with antiserum to H-2a (A strain) specifically abolished their capacity to adoptively incite the Skn-related autoimmune syndrome, confirming that the immune cells responsible are of (B6 x A)F1 origin and are not residual B6 derivatives. These findings add weight to the status of Skn systems as agents of tissue-selective histoincompatibility and, perhaps, of clinical disorders with a known or suspected autoimmune basis affecting the skin.

Phenotypic and functional immaturity of human umbilical cord blood T lymphocytes

Successful implementation of bone marrow transplantation for hematopoietic reconstitution is limited by the lack of suitably HLA-matched donors and by the occurrence of graft-versus-host disease that frequently accompanies this procedure. Recent clinical reports have implied that the use of umbilical cord blood as a source of transplantable stem cells may solve these problems. To date, definitive experiments have not been performed to assess the immunological potential of T cells found in umbilical cord blood, which could mediate graft-versus-host disease. In the present study we have observed that umbilical cord blood contains T lymphocytes that appear to be phenotypically immature. In addition, umbilical cord blood lymphocytes appeared to be functionally immature as shown by minimal responses to stimulation with interleukin 2, phytohemagglutinin, or alloantigens. Thus, umbilical cord blood may be more suitable for allogeneic transplantation than bone marrow in that these cord blood cells may not be as capable of mediating graft-versus-host disease.

Expression of urinary H-2 odortypes by infant mice

The extended H-2 complex of genes in the mouse includes at least three loci that independently specify distinctive body odors, "odortypes," whose differential recognition influences mating choice and affects the maintenance of early pregnancy. A prime experimental method of identifying H-2 odortypes is the specially designed Y-maze in which mice are trained, by water deprivation and reward, to distinguish odors conducted to the arms of the maze from H-2-dissimilar mice or their urines. It is confirmed that H-2-dissimilar infant mice, unlike adult mice, are not distinguished by trained mice in the Y-maze. However, a previous conclusion that infant mice do not express H-2 odortypes is shown to be incorrect, because the urines of H-2-dissimilar infant mice, even at 1 day of age, were distinguished in the Y-maze. Thus urine, ingested by the mother, clearly could suffice for her to distinguish her own from other H-2-dissimilar pups. Further, urine would seem to be a unique source of H-2 odortypes. If, as we believe, H-2 odortypes represent mostly compound odors composed by H-2 genetic variation in the urinary output of odorous metabolites, as distinct from simple odors that depend on chemical differences of single odorants, then the kidney, which is not responsible for H-2 odortype specificity, may nevertheless impart a unique character to urinary odortypes by virtue of differential excretion/resorption processing of various constituent odorous metabolites. In that case, various organs and tissues, among which the hematopoietic/lymphoid system is known to contribute to H-2 odortype specificity, may exhibit tissue-specific varieties of H-2 odortypes, their products having not yet been subjected to renal processing.

Expression of type IV collagenase correlates with the invasion of human lymphoblastoid cell lines and pathogenesis in SCID mice

An in vitro model, called the Membrane Invasion Culture System (MICS), was used to study the invasive potential of an Epstein-Barr virus (EBV) positive lymphoblastoid cell line (LCL), an EBV-negative Burkitt lymphoma (BL) cell line of American origin and an EBV-positive BL of African origin. MICS measured the ability of these cell lines to invade reconstituted basement membrane-coated filters, which correlated with their tumorigenic and metastatic capabilities in a SCID mouse model. Furthermore, the significantly greater invasive behaviour of the EBV-positive LCL was directly correlated with the cells' ability to express and secrete human type IV collagenase (72 kDa), an important metalloproteinase responsible for the degradation of collagen IV in basement membranes. The data suggest that MICS and the SCID mouse are useful tests of tumorigenicity in lymphoid cells, with measurable effects in both systems related to human type IV collagenase activity. Both models allow further exploration of malignant phenotypes associated with EBV transformation of lymphoid tissues.

Odor types determined by the major histocompatibility complex in germfree mice

The major histocompatibility complex (MHC) is the prime but not exclusive determinant of genetically specific constitutive body odors, termed odor types, represented strongly in urine of the mouse. Perception of MHC-determined odor types influences reproductive behavior in the contexts of mate choice and maintenance of early pregnancy, tending to favor the propagation of one MHC type over another. How MHC genotype determines MHC odor type is unknown. One possible explanation is that differential odorants are generated by populations of commensal microorganisms whose composition is somehow geared to MHC diversity. This hypothesis was tested in the Y-maze system in which mice are trained to distinguish the urinary odors of MHC-congenic mice. First, it was shown that mice could readily be trained to distinguish the urines of germfree MHC-congenic mice. Second, it was shown that mice trained to distinguish the urines of conventionally maintained MHC-congenic mice could as readily distinguish the urines of germfree MHC-congenic mice. These results imply that MHC-determined odor types do not depend on odorants generated by microorganisms.

Regulation of alternative splicing in the generation of isoforms of the mouse Ly-5 (CD45) glycoprotein

Alternative splicing generates various Ly-5 glycoprotein isoforms of the cell surface that typify different cell lineages and stages of hematopoietic differentiation in the mouse; exons 4-6 are incorporated to generate a B-cell isoform (B220) and excluded from a T-cell isoform (T200), the other coding exons (3 and 7-33) being shared. As a first step to understanding the mechanisms regulating Ly-5 alternative splicing, and thus determining Ly-5 isoforms, a minigene representing exons 3-7 was transfected into Ly-5-expressor T cells and B cells and into nonexpressor L cells for comparison of splicing patterns. We conclude that all the information required for faithful splice-site selection according to cell type is contained within the resulting pre-mRNA. The splicing pattern manifested by nonexpressor L cells may represent a default and nonregulated type. We postulate trans-acting factor(s) to account for the selection of appropriate exons, and we provide support for this interpretation from analysis of fused hybrid T-B cells, which exhibited B-cell specific Ly-5 transcripts. Splicing patterns were well conserved despite substantial disruption of constructs. However, extensive deletion analyses suggested that cis sequences flanking and within exon 6 affect the exclusion of that exon in T cells.

Further data on the selective expression of Ly-5 isoforms

Ly-5 (CD45) glycoproteins of the mouse, expressed by all or most hematopoietic cell lineages and specified by a single Ly-5 gene, range in size from isoform T200 of T cells (the smallest), in which exons 4, 5, and 6 are not represented, to isoform B220 of B cells (the largest), in which all three of these optional exons are represented. The main purpose of the present study, utilizing the polymerase chain reaction (PCR), was to ascertain whether known isoforms of intermediate size are generated by single or dual usage of optional exons 4, 5, and 6. Transcripts representing all eight isoforms predictable from varied use of three exons were observed among a diverse panel of nine B-cell tumors in culture, but there was no evident concordance with known contrasting differential features that distinguish members of the B-cell tumor panel. No two B tumors exhibited the same variety of transcripts and the relative quantities of transcripts expressed varied greatly from tumor to tumor. Cloning of B-cell tumors did not alter their distinctive transcript patterns. Separation methods (sodium dodecyl sulfate polyacrylamide gel electrophoresis; SDS-PAGE) did not suffice to segregate all corresponding expressed isoforms but did establish that transcripts representing usage of a single optional exon and of two optional exons were actually translated, which supports a provisional inference that all eight isoforms exist. The considerable diversity of B-cell transcript phenotypes was not seen among seven T-cell leukemias, two cytolytic T-cell lines, and three Th 1 helper T-cell lines, all of which displayed a uniform phenotype comprising major expression of the T200 transcript (no optional exon) and minor expression of a transcript employing exon 5. However, a panel of five cloned Th2 T-cell lines, which represent a second and functionally different branch of the helper/inducer T-cell category, exhibited a characteristic transcript pattern which distinguished them from a panel of three Th1 T-cell lines. The major transcript in the Th2 lines was also T200, but the Th2 lines showed higher representation of transcripts containing optional exons. A single Th2 clone expressed an unusual transcript suggesting a potential isoform not compounded simply by varied inclusion of the three identified optional exons. After activation of the helper T-cell lines with concanavalin A (Con A), expression of transcripts containing optional exons appeared to decrease.

Chemosensory identity and the Y chromosome

Genes in the extended major histocompatibility complex (MHC) of the mouse (H-2: Qa:T1a) impart to each mouse an odor that reflects its genetic constitution at this region of chromosome 17. Sensory recognition of these differential odors influences reproductive behavior and evokes neuroendocrine responses critical to the maintenance of pregnancy. To determine whether other parts of the mouse genome contribute to individual odor, and so may similarly exert a selective force on loci other than the MHC, mice differing genetically only in their X and/or Y chromosomes were tested for individuality of scent in the Y-maze system previously employed to investigate MHC-related scent distinctions. It was found that the X and Y chromosomes each confer individuality of scent related to genotype, but differences at the H-2 locus are considerably more salient. Nevertheless, chemosensory cues controlled by differences on the Y chromosome could play a role in individual recognition, mate selection, aggressive interactions, and perhaps other aspects of mouse chemosensory behavior.

Human umbilical cord blood: a clinically useful source of transplantable hematopoietic stem/progenitor cells

This is a review and discussion of studies leading to the first use of human umbilical cord blood, material usually discarded, for the provision of stem/progenitor cells for clinical hematopoietic reconstitution. This prospect arose as a result of extensive studies of the harvesting and cryopreservation of cord blood and of its numerical content of progenitor cells demonstrable in vitro. A male patient with Fanconi anemia (FA) was conditioned with a modified regimen of cyclophosphamide and irradiation that accommodates the abnormally high sensitivity to these agents that is characteristic of FA. Cryopreserved cord blood had been retrieved at birth from a female sibling known from prenatal testing to be unaffected by FA and to be human leukocyte antigen (HLA)-compatible with the prospective sibling recipient. After conditioning and therapeutic infusion of thawed cord blood, successful hematopoietic reconstitution was indicated by the general health of the patient, who had previously required supportive transfusions, by satisfactory hematological criteria and by counts of hematopoietic progenitor cells of various types in the bone marrow. Complete engraftment of the myeloid system with donor cells was evident from cytogenetics, ABO typing, study of DNA polymorphisms, and normal cellular resistance to cytotoxic agents that reveal the fragility of FA cells; the blood contained a residuum of host lymphocytes exhibiting chromosomal damage, but the trend has been towards eliminating these damaged cells. This implies that cord blood from a single individual should provide sufficient reconstituting cells for effective hematopoietic repopulation of an autologous or an HLA-compatible allogeneic recipient.

Sex-chromosomal odor types influence the maintenance of early pregnancy in mice

Genetically specified body odors are termed odor types. We showed previously that both the X chromosome and the Y chromosome of the mouse determine differential odor types demonstrable by the behavior of trained mice in the conventional Y-maze test system extensively used in the definition of odor types specified by the major histocompatibility complex (MHC). In the present studies we aimed to ascertain whether perception of X chromosomal and Y chromosomal odor types, like the perception of MHC odor types, exerts a spontaneous influence on reproduction. By making use of reciprocal F1 hybrid males and males of the congenic B6.YAKR strain, males differing solely in their X chromosomes, their Y chromosomes, or both were tested in the conventional pregnancy-block system in which isolated females in early pregnancy are known to be subject to a heightened incidence of failed pregnancy when confronted with the scent of a male whose MHC type differs from that of the missing stud male. As previously established for MHC disparity, perception of X chromosomal disparity or of Y chromosomal disparity between stud and secondary males caused a highly significant rise in the incidence of terminated pregnancy. Thus perception of differential odor types other than those specified by the MHC may also be concerned in aspects of selective reproduction.

Expression of the Q8/9d gene by T cells of the mouse

The Q genes, specifying Qa antigens and situated in the extended part of the major histocompatibility complex (MHC) of the mouse, comprise a subgroup of MHC class I genes whose significance and function are still largely unknown. In screening a cDNA library made from the BALB/c inducer T-cell line Cl.Ly1-T1, we isolated 11 clones representing Q8/9, but none representing Q6 or Q7. Confirmatory evidence is given that the Q8/9 gene originated from fusion of the 5' region of the Q8 gene with the 3' region of the Q9 gene at a recombination site or hot spot in the vicinity of intron 4. Contrary to previous impressions that Q8/9 is an inert pseudogene, we find that the Q8/9 gene can be functional and encode a Qa-2, 3 antigen. One variety of the 11 Q8/9 clones isolated lacked exon 5, which encodes the transmembrane domain of class I glycoproteins, and thus may account for secretion of a soluble form of Qa-2, 3 antigen thought to be released by activated T cells.

Human umbilical cord blood as a potential source of transplantable hematopoietic stem/progenitor cells

The purpose of this study was to evaluate human umbilical cord blood as an alternative to bone marrow in the provision of transplantable stem/progenitor cells for hematopoietic reconstitution. Although no direct quantitative assay for human hematopoietic repopulating cells is at present available, the granulocyte-macrophage progenitor cell (CFU-GM) assay has been used with success as a valid indicator of engrafting capability. We examined greater than 100 collections of human umbilical cord blood for their content of nucleated cells and granulocyte-macrophage, erythroid (BFU-E), and multipotential (CFU-GEMM) progenitor cells, in many cases both before and after cryopreservation. First it was determined that granulocyte-macrophage, erythroid, and multipotential progenitor cells remained functionally viable in cord blood untreated except for addition of anticoagulant for at least 3 days at 4 degrees C or 25 degrees C (room temperature), though not at 37 degrees C, implying that these cells could be satisfactorily studied and used or cryopreserved for therapy after transport of cord blood by overnight air freight carriage from a remote obstetrical service. Granulocyte-macrophage progenitor cells from cord blood so received responded normally to stimulation by purified recombinant preparations of granulocyte-macrophage, granulocyte, and macrophage colony-stimulating factors and interleukin 3. The salient finding, based on analysis of 101 cord blood collections, is that the numbers of progenitor cells present in the low-density (less than 1.077 gm/ml) fraction after Ficoll/Hypaque separation typically fell within the range that has been reported for successful engraftment by bone marrow cells. Another observation of practical importance is that procedures to remove erythrocytes or granulocytes prior to freezing, and washing of thawed cells before plating, entailed large losses of progenitor cells, the yield of unwashed progenitor cells from unfractionated cord blood being many times greater. The provisional inference is that human umbilical cord blood from a single individual is typically a sufficient source of cells for autologous (syngeneic) and for major histocompatibility complex-matched allogeneic hematopoietic reconstitution.

Organization of the Ly-5 gene

A single Ly-5 gene is known to generate a variety of transmembrane glycoprotein isoforms that distinguish various cell lineages and stages of differentiation within the hematopoietic developmental compartment of the mouse. Systems homologous to Ly-5 are known in rats and in humans. The complete exon-intron organization of the Ly-5 gene is described in this report. The Ly-5 gene occupies about 120 kilobases of chromosome 1 and comprises 34 exons, of which 32 (Ex-3 to Ex-34) are protein coding. Ex-1, Ex-2, and parts of Ex-3 and Ex-34 are untranslated. In all cDNA clones examined, either Ex-1 or Ex-2 was represented, but not both, implying that Ex-1 and Ex-2 in Ly-5 mRNA may be mutually exclusive. Primer extension and S1 nuclease protection mapping were used to identify initiation (cap) sites for transcription. The finding of putative cap sites for Ex-1 and Ex-2, and of corresponding TATA-like sequences, suggests the presence of two promoters. In both Ex-1+ and Ex-2+ cDNA clones the next exon is Ex-3, which has a translation-initiating codon. The intron between Ex-3 and Ex-4 is unusually long, about 50 kilobases. Evidence is given that Ex-5, like Ex-6 and Ex-7 (studied previously), is another alternative exon that is selectively programmed, alone or together with Ex-6 or Ex-7 or both, to generate actual or potential Ly-5 isoforms by alternative splicing.

Structural features of Ly-5 glycoproteins of the mouse and counterparts in other mammals

The Ly-5 system of the mouse defines a set of transmembrane glycoprotein isoforms (T200, B220, etc) that hallmark various lineages and stages of hematopoietic differentiation. These isoforms are the products of a single Ly-5 gene comprising 34 exons, 32 of them (Exs-3-34) protein-coding and three (Exs-5-7) selectively represented in different isoforms (e.g., all three in isoform B220 but none in isoform T200). Probable structural features of Ly-5 glycoproteins, largely inferred from Ly-5 gene composition, are presented and compared with the rat L-CA and human LCA/T200 systems, which are phylogenetic counterparts of Ly-5 as an index of the extent and nature of structural conservation. The outer (N-terminal) region of the Ly-5 T200 isoform comprises three broadly similar domains (Exs-4, 8, 9) with salient features that jointly favor free interaction with the aqueous environment and are shared by the L-CA and human LCA/T200 systems despite an overall interspecies protein sequence similarity in this region of only about 50%. In the larger B220 isoform this region includes epitopes dictated by the selective exons Exs-5, 6, 7, these being more conserved than the shared exons Exs-4, 8, 9 and no doubt sustaining the differential functions of the respective isoforms. Comparison of the genomic sequences of Ex-5 in the Ly-5 and human systems suggests that a shift in splice donor site accounts for an extra 23 amino acids in the human Ex-5-coding domain, which is the only salient structural difference between the mouse Ly-5 and human systems. The inner extracellular region (Exs-10-16) includes subregions of high variability, but again there are shared salient interspecies similarities such as sites and numbers of Cys residues that imply a conserved, tightly-folded conformation, in contrast to the more open conformation predicted for the outer extracellular region. The transmembrane region (Ex-17) is highly conserved, as is the very large cytoplasmic region (Exs-17-34) which may interact with the plasma membrane but probably does not traverse it.

Familial imprinting determines H-2 selective mating preferences

Inbred male mice typically prefer to mate with females of a different, non-self H-2 haplotype. To determine whether this natural preference is irrevocable or results from familial imprinting, a test system was used which relied on previous observations that B6 males (H-2b) mate preferentially with congenic B6-H-2k rather than B6 females, and B6-H-2k males with B6 females. This preference was reversed in B6 males fostered by B6-H-2k parents and in B6-H-2k males fostered by B6 parents, preference in these cases favoring the same H-2 type. Thus, H-2 selective mating preference is acquired by imprinting on familial H-2 types.

Alternative use of 5' exons in the specification of Ly-5 isoforms distinguishing hematopoietic cell lineages

Previous inferences that Ly-5 glycoprotein isoforms of murine hematopoietic cells are generated by alternative splicing of primary transcripts of a single Ly-5 gene are supported by the present study. A cDNA library was prepared from B cells by extension from primer representing a known T-cell cDNA sequence. Three different Ly-5 clones from this library included sequences missing in T-cell cDNA clones. From the constitution of cDNA clones and of the Ly-5 gene, and from S1 nuclease mapping, it is concluded that at least two exons, provisionally numbered Ex-6(B) and Ex-7(B), in the 5'-proximal region are mainly represented in mRNA of the B-cell lines examined but not of the T-cell lines examined. Also, exons 1 and 2 appear to be used alternatively in different species of B-cell mRNA and probably also in different species of T-cell mRNA.

Sequences of Ly-5 cDNA: isoform-related diversity of Ly-5 mRNA

The Ly-5 system of the mouse is expressed exclusively by hematopoietic cells and comprises a series of glycoprotein isoforms that typify different hematopoietic cell lineages. The 200-kDa isoform of T cells and the 220-kDa isoform of B cells are known to differ in peptide composition. The complete 1152 amino acid sequence of the 200-kDa isoform protein deduced from cDNA sequence appears to comprise a leader sequence of some 30 residues, an external N-terminal domain of 370 residues, a probably single transmembrane domain of 22 residues, and an unusually large cytoplasmic domain of 730 residues. Both the external and cytoplasmic domains include regions of internal homology suggestive of evolution from a smaller ancestral gene. RNA transfer blotting has previously shown that B-cell mRNA for Ly-5 is larger than T-cell mRNA. S1 nuclease protection mapping with Ly-5 cDNA probes suggests that this difference can be ascribed to interpolation of an extra B-cell sequence located at the 5' end of B-cell mRNA, probably immediately following the leader sequence. From restriction mapping of overlapping Ly-5 genomic clones spanning 60 kilobases it is concluded that Ly-5 isoforms are generated by differential processing of transcripts of a single gene, rather than from a family of linked Ly-5 genes.

Biochemical genetics of TL antigens

TL antigens are class I glycoproteins which are expressed on thymocytes and which are coded by the Tla region of the major histocompatibility complex of the mouse. Biochemical analysis of TL molecules from different strains of mice revealed structural variation determined by the Tla region which is detectable by peptide mapping, isoelectric focusing, sodium dodecyl sulfate-polyacrylamide gel electrophoresis, two-dimensional gels, and by differential reactivity of allelic forms of TL molecules with a panel of anti-TL reagents. The quantity of TL expressed on thymocytes is also influenced by the Tla region; three quantitative phenotypes were identified: high (Tlaa, Tlad, Tlae), intermediate (Tlac, Tlaf), and low (Tlab). (Relative amounts: 1000: 100: 1.) Some thymic leukemias arising in (Tlab, Tlac) mice with genetically determined reduced levels of thymic TL were found to express TL molecules which were structurally indistinguishable from TL isolated from thymocytes but were present in larger amounts. This suggests that TL structural genes are intrinsically capable of full expression in all mice but that the Tla region of mice expressing an intermediate or low quantity of TL is marked by some feature which causes the thymocyte to express less than the full amount of TL possible.

Participation of the murine X and Y chromosomes in genetically determined chemosensory identity

The major histocompatibility complex of the mouse imparts to each mouse an odor that reflects its genetic constitution at this region of chromosome 17. Sensory recognition of these differential odors influences reproductive behavior and evokes neuroendocrine responses critical to the maintenance of pregnancy. To determine whether other parts of the mouse genome contribute to individual scent marking, and so may similarly exert a selective force on loci other than the major histocompatibility complex, mice differing genetically only in their X and/or Y chromosomes were tested for individuality of scent in the Y-maze system previously employed to investigate major histocompatibility complex-related scent distinctions. It is shown that the X and Y chromosomes each confer individually of scent related to genotype.

Influence of a genetic difference confined to mutation of H-2K on the incidence of pregnancy block in mice

In mice, pregnancy is often terminated when the stud male is removed and the pregnant female is exposed to the presence or scent of an unfamiliar male. It is reported here that the incidence of such blocking of pregnancy was higher when the stud and unfamiliar male differed by mutation of the H-2K class I gene of the major histocompatibility complex than when the stud and unfamiliar males were genetically identical. Thus, the olfactory distinction of mice differing by mutation of the H-2K gene, previously demonstrated after training of mice in a Y maze, can spontaneously influence neuroendocrine communications affecting reproduction.

Unusual association of beta 2-microglobulin with certain class I heavy chains of the murine major histocompatibility complex

Class I products of the major histocompatibility complex (MHC) comprise a heavy chain of about 45 kDa noncovalently linked to a 12-kDa beta 2-microglobulin (beta 2m) light chain encoded on a different chromosome. We find that class I products of some mouse strains include an additional 62-kDa molecule which on the following evidence consists of a heavy chain linked covalently with beta 2m. Production of the 62-kDa protein invariably accorded with the occurrence of cysteine at position 121 of the heavy chain (Kb,Kbm1,Kbm3,Dd, and Ld). Substitution of arginine at position 121 invariably accorded with absence of the 62-kDa protein (Kbm6,Kbm7,Kbm9,Kd, and Db). On the basis of observed production versus nonproduction of the 62-kDa molecule, predictions are made regarding residue 121 in class I products for which this is not yet known; namely, Kk, Ks, and Dk, which produce the 62-kDa molecule, as compared with Kj, Qa-2, and TL, which do not. Reported differences in immunologic reactivity between Kb mutant strains with Arg-121 in place of Cys-121 imply that the occurrence of 62-kDa class I products in mice of Cys-121 genotype has functional consequences.

Cloning of Ly-5 cDNA

A notable feature of Ly-5, among immunogenetic systems that identify glycoproteins of the cell surface and define the surface phenotype of cells according to their lineage, is that the Ly-5 locus specifies a range of molecular isoforms that distinguish cells of different stages and branches of hematopoietic development. The composition of the Ly-5 locus is of much interest in regard to how these isoforms are constructed and differentially regulated according to cell lineage. We describe here a cDNA clone, pLy-5-68, that identifies Ly-5. The Ly-5 specificity of the pLy-5-68 clone was first indicated by a restriction fragment length polymorphism (RFLP), which in Southern blotting distinguishes genomic DNA of C57BL/6 (B6) mice (Ly-5a) from that of B6-Ly-5b congeneic mice whose genome is the same as B6 except for the segment of chromosome 1 that bears Ly-5b. For the following reasons it is unlikely that pLy-5-68 represents a gene linked to Ly-5 that was carried over with Ly-5b during serial backcrossing to make the B6-Ly-5b congeneic strain. In all mouse strains tested, the serological Ly-5 allotype (Ly-5.1 vs. Ly-5.2) accorded with the RFLP pattern. Cells of the ST/bJ mouse strain have unique Ly-5 serological reactions and ST/bJ DNA gives a unique (third) RFLP pattern (Ly-5c) with pLy-5-68. All Ly-5+ cell types reacted positively with pLy-5-68 in RNA transfer blotting, and all Ly-5- cell types tested did not. The difference in size of mRNA reactive with pLy-5-68 in cells expressing the 200-kDa Ly-5 isoform as compared with cells expressing the 220-kDa Ly-5 isoform corresponded with the difference in size of the protein components of those isoforms.

Regulatory influence of thymopentin on splenic T cell sets of thymectomized and aged mice

Thymectomy of mice aged 6-8 weeks causes a disproportion of splenic T cell sets, the Ly123 set being relatively decreased and the Ly23 set relatively increased (Ly123 decrease: Ly23 increase). A similar disproportion of splenic T cell sets was found to occur spontaneously with advancing age (12-18 months). By PA-SRBC assay, the total number of splenic Lyt+ cells is not appreciably reduced by thymectomy or by aging, but the Thy-1+ cell count falls by about 40% according to both PA-SRBC and cytotoxicity assays. Thus there is an increase in the number of Lyt+ cells expressing sub-threshold amounts of Thy-1. The following observations show that thymopentin (TP-5), a synthetic pentapeptide analogue of thymopoietin, counteracts these changes in thymectomized and aged mice. As reported previously, the capacity of C3H/HeJ female mice to reject C3H/HeJ male skin was raised by thymectomy, or with age, and treatment with TP-5 substantially normalized the rejection response. Here we correlate these findings with changes in the profile of splenic T cell sets. The splenic T cell set profile of thymectomized B6-Tlaa male and female mice was essentially restored by TP-5. The Ly123 decrease: Ly123 increase change caused by thymectomy was not associated with obviously altered proportions of Qa-1+ and Qa-1- subsets. Treatment of aged mice with TP-5 also prevented the onset of changes in splenic T cell sets that occur spontaneously with age. Thus thymectomy and aging give rise to disproportions of splenic T cell sets, and in C3H female mice to a heightened capacity for male skin rejection, both effects being largely abrogated by the TP-5 derivative of thymopoietin.

Additional products of the Tla locus of the mouse

Thymocytes and leukemia cells of some mouse strains yield TL proteins, precipitable by anti-TL antiserum and by anti-TL monoclonal antibodies, that include not only the familiar heavy (H) chain of 45-50 kDa but also products of higher molecular mass. Production of a 53-kDa TL form by Tlad thymocytes was studied in detail. A cross was made between B10.M (Tlad) mice, which produce the 53-kDa TL, and mice of the A strain (Tlaa), which make only the usual H chain. Hemi-expression of apparently unaltered 53-kDa TL was observed in thymocytes of the Tlad/Tlaa heterozygous F1 progeny. Thus, there was no indication of positive or negative trans interaction with respect to production of the 53-kDa TL form associated with Tlad. We conclude that production of 53-kDa TL is governed intrachromosomally. Two-dimensional chymotryptic peptide maps of the TL H chain and the 53-kDa TL of Tlad thymocytes differed only by added features found in the map of the 53-kDa TL. With the exception of Tlaa, all Tla alleles (Tlab-f) yielded TL products of higher molecular weight than the accompanying H chain, although in the case of Tlab this was evident only in TL+ leukemia cells because Tlab thymocytes are TL-. For H-2, representing other class I genes, no products other than the familiar H chain were demonstrable under similar conditions.

The hematopoietic system is a source of odorants that distinguish major histocompatibility types

Radiation chimeras were made by restoring lethally irradiated inbred mice with bone marrow cells of F1 hybrid mice of crosses between that inbred strain and an H-2-congenic strain. The urine of these chimeras was tested by the Y maze method, and shown to have acquired a scent indicative of the reconstituting donors' H-2 type. Thus, cells of the hematopoietic system contribute to the H-2-related odorant properties that enable mice to distinguish one another according to their H-2 types.

Chemosensory recognition of mouse major histocompatibility types by another species

Mice can recognize one another by individually characteristic body scents that reflect their genetic constitution at the extremely polymorphic major histocompatibility complex (MHC) of genes on chromosome 17. Reproductive behavioral manifestations of this sensory communication system include MHC-related mating preferences and neuroendocrine responses that affect preimplantation pregnancy and arise from the MHC-related scent of alien males. We have shown previously that mice can be trained in a Y maze to distinguish the scents of urine of congeneic mice that differ genetically only at the MHC. By means of an automated olfactometer, we now show that rats also can similarly distinguish the urinary scents of MHC congeneic mice. Thus, the mode of individual recognition that depends on scents determined by MHC genes can operate across species barriers.

Genomic constitution of an H-2:Tla variant leukemia

A TL+ leukemia of a (B6 X A)F1 hybrid mouse (H-2b/H-2a) was previously subjected to immunoselection against H-2a by passage in (B6 X A.SW)F1 mice (H-2b/H-2s). A variant leukemia line was obtained that serologically lacked not only the H-2a phenotype but also the TL phenotype determined by the linked cis Tlaa allele of strain A. The H-2b phenotype and the TL phenotype of the Tlab allele of the B6 strain, which is expressed only by leukemia cells, were retained by the variant. Southern blotting with an H-2 cDNA probe that identifies restriction fragment polymorphisms distinguishing alleles of the H-2 and Tla regions of the B6 and A strains indicates that both the H-2a and Tlaa alleles are missing from the genome of this H-2a:Tlaa negative variant. Since the variant has two apparently unaltered chromosomes 17, where the H-2:Tla complex is situated, and since the intensity of bands in Southern blotting is suggestive of H-2b homozygosity, it is considered that loss of the H-2a:Tlaa haplotype by the variant was accompanied by duplication of the H-2b:Tlab haplotype. The implied change from heterozygosity to homozygosity that the variant has undergone with respect to H-2:Tla was not paralleled by a similar change at the three other loci tested, since the variant retained heterozygosity for Pep-3 (chromosome 1), Gpi-1 (chromosome 7), and Es-1 (chromosome 8).