Jürgen Löhler

Interleukin-10-deficient mice develop chronic enterocolitis

Interleukin-10 (IL-10) affects the growth and differentiation of many hemopoietic cells in vitro; in particular, it is a potent suppressor of macrophage and T cell functions. In IL-10-deficient mice, generated by gene targeting, lymphocyte development and antibody responses are normal, but most animals are growth retarded and anemic and suffer from chronic enterocolitis. Alterations in intestine include extensive mucosal hyperplasia, inflammatory reactions, and aberrant expression of major histocompatibility complex class II molecules on epithelia. In contrast, mutants kept under specific pathogen-free conditions develop only a local inflammation limited to the proximal colon. These results indicate that the bowel inflammation in the mutants originates from uncontrolled immune responses stimulated by enteric antigens and that IL-10 is an essential immunoregulator in the intestinal tract.

Immunodeficiency and Chronic Myelogenous Leukemia-like Syndrome in Mice with a Targeted Mutation of the ICSBP Gene

Interferon consensus sequence binding protein (ICSBP) is a transcription factor of the interferon (IFN) regulatory factor (IRF) family. Mice with a null mutation of ICSBP exhibit two prominent phenotypes related to previously described activities of the IRF family. The first is enhanced susceptibility to virus infections associated with impaired production of IFN(gamma). The second is deregulated hematopoiesis in both ICSBP-/- and ICSBP+/- mice that manifests as a syndrome similar to human chronic myelogenous leukemia. The chronic period of the disease progresses to a fatal blast crisis characterized by a clonal expansion of undifferentiated cells. Normal mice injected with cells from mice in blast crisis developed acute leukemia within 6 weeks of transfer. These results suggest a novel role for ICSBP in regulating the proliferation and differentiation of hematopoietic progenitor cells.

Chromosomal position and activation of retroviral genomes inserted into the germ line of mice

The exogenous Moloney leukemia virus (M-MuLV) was inserted into the germ line of mice by exposing embryos to virus at different stages of embryogenesis. Mice derived from exposed embryos were mosaics with respect to integrated virus. Nine new substrains, designated Mov-5 to Mov-13, were derived, each of which carries a single M-MuLV genome at a different chromosomal position in its germ line. Four substrains, Mov-1 to Mov-4, were derived previously. Restriction enzyme analyses demonstrated that, with the exception of Mov-4 and Mov-6 mice, no major rearrangements or deletions have occurred in the integrated proviral genomes. Infectious virus is not activated in the majority of substrains (Mov-4 to Mov-8 and Mov-10 to Mov-12), whereas the other mice develop viremia. A detailed comparison between Mov-1 and Mov-13 mice demonstrated that the time of virus activation is different. Mov-13 mice activate infectious virus during embryogenesis, leading to a distinct pattern of virus expression in all tissues of the adult, but the viral genome in Mov-1 mice is activated only during the first two weeks after birth, leading to virus expression predominantly in lymphatic organs. Together with previous observations, at least four different phenotypes of virus expression-that is, early virus activation during embryogenesis, virus activation after birth, virus activation late in life and no expression of infectious virus at all-can be distinguished among the 13 substrains. Our results suggest that the chromosomal region at which a viral genome is integrated influences its expression during development and differentiation.

Embryonic lethal mutation in mouse collagen I gene causes rupture of blood vessels and is associated with erythropoietic and mesenchymal cell death

The role of collagen I for midgestation development was studied in homozygous Mov 13 embryos, which cannot synthesize alpha 1(1) mRNA as a result of insertional mutagenesis and most of which die between day 12 and 14 of gestation. No type I collagen was detected in mutant embryos, while the distribution of other collagens, laminin, and fibronectin was not affected. Mutant embryos develop normally up to day 12 of gestation, suggesting that collagen I has no essential role in the early phase of morphogenesis. The first pathological events were detected in hemopoietic cells of the liver, followed by necroses of mesenchymal cells in other parts of the embryo. The sudden death is caused by the rupture of a major blood vessel, indicating an important role for collagen I in establishing the mechanical stability of the circulatory system. Our results furthermore suggest that complex cell interactions in embryonic development such as those in early hemopoiesis may depend on the presence of collagen type I.

Germline integration of Moloney murine leukemia virus at the Mov13 locus leads to recessive lethal mutation and early embryonic death

Thirteen mouse substrains genetically transmitting the exogenous Moloney murine leukemia virus (M-MuLV) at a single locus (Mov locus) have been derived previously. Experiments were performed to investigate whether homozygosity at the Mov loci would be compatible with normal development. Animals heterozygous at an Mov locus were mated, and the genotype of the offspring was analyzed. From parents heterozygous at the loci Mov1 to Mov12, respectively, homozygous offspring were obtained with the expected Mendelian frequency. In contrast, no homozygous offspring or embryos older than day 15 of gestation were obtained from parents heterozygous at the Mov13 locus. When pregnant Mov13 females at day 13 and day 14 of gestation were analyzed, approximately 25% of the embryos were degenerated. Genotyping revealed that these degenerated embryos were invariably homozygous and the normal appearing embryos were either heterozygous or negative for M-MuLV. These results suggest that integration of M-MuLV at the Mov13 locus leads to insertion mutagenesis, resulting in embryonic arrest between day 12 and day 13 of gestation. It is possible that the Mov13 locus represents a gene or gene complex involved in the early embryonic development of the mouse.

AML1-ETO Inhibits Maturation of Multiple Lymphohematopoietic Lineages and Induces Myeloblast Transformation in Synergy with ICSBP Deficiency

The translocation (8;21), generating the AML1-ETO fusion protein, is one of the most frequent chromosomal abnormalities associated with acute myelogenous leukemia (AML). To elucidate its role in oncogenesis, bone marrow (BM) cells were infected with a retroviral vector carrying AML1-ETO and transplanted into mice. In contrast to previous transgenic mouse models, we show that AML1-ETO directly stimulates granulopoiesis, suppresses erythropoiesis, and impairs the maturation of myeloid, B, and T lymphoid cells in vivo. To determine the significance of earlier findings that expression of the tumor suppressor ICSBP is often downregulated in AML myeloblasts, AML1-ETO was introduced into BM cells derived from mice lacking the interferon regulatory factor ICSBP. Our findings demonstrate that AML1-ETO synergizes with an ICSBP deficiency to induce myeloblastic transformation in the BM, reminiscent of AML.

Interleukin‐2 Deficient Mice: A New Model to Study Autoimmunity and Self‐Tolerance

Previous work revealed IL-2 as a key cytokine regulating the growth, differentiation and function of lymphocytes (for review see Smith 1988. Paul 1989). It is a glycoprotein of about 15 kD (Gillis et al. 1978) which mediates cell communications via a complex receptor system composed of three subunits. apy (for review see Taniguchi & Minami 1993. Kishimoto et al. 1994). Only the a-chain is specific for IL-2. the p-subunit is used also by IL-15 (Giri et al. 1994. Burton et al. 1994) and the y-subunit is used by IL-2, IL-4. IL-7. lL-9 and IL-15 (Noguchi et al. 1993, Russell et al. 1993. Kondo et al. 1993). Since IL-2 is considered as an indispensable factor for cytotoxic responses, it is used as an immunotherapeutic agent for the treatment of patients with disseminated cancers and with infectious diseases (Rosenberg 1988, Kaplan et al. 1991, Fauci 1993). However, the exact role of IL-2 in vivo is far from being understood. Its elucidation was hampered by a lack of suitable experimental systems that would allow to evaluate the pleiotropic activities of this interleukin in the context of the whole immune system. The technology of targeted mutagenesis in mouse germline developed in the laboratories of Capecchi and Smithies (Thomas & Capecchi 1989,

Essential Role of Ubiquitin-Specific Protease 8 for Receptor Tyrosine Kinase Stability and Endocytic Trafficking In Vivo

ABSTRACT Posttranslational modification by ubiquitin controls multiple cellular functions and is counteracted by the activities of deubiquitinating enzymes. UBPy (USP8) is a growth-regulated ubiquitin isopeptidase that interacts with the HRS-STAM complex. Using Cre-loxP-mediated gene targeting in mice, we show that lack of UBPy results in embryonic lethality, whereas its conditional inactivation in adults causes fatal liver failure. The defect is accompanied by a strong reduction or absence of several growth factor receptor tyrosine kinases (RTKs), like epidermal growth factor receptor, hepatocyte growth factor receptor (c-met), and ERBB3. UBPy-deficient cells exhibit aberrantly enlarged early endosomes colocalizing with enhanced ubiquitination and have reduced levels of HRS and STAM2. Congruently immortalized cells gradually stop proliferation upon induced deletion of UBPy. These results unveil a central and nonredundant role of UBPy in growth regulation, endosomal sorting, and the control of RTKs in vivo.

Targeted Inactivation of the Tetraspanin CD37 Impairs T-Cell-Dependent B-Cell Response under Suboptimal Costimulatory Conditions

ABSTRACT CD37 is a membrane protein of the tetraspanin superfamily, which includes CD9, CD53, CD63, CD81, and CD82. Many of these molecules are expressed on leukocytes and have been implicated in signal transduction, cell-cell interactions, and cellular activation and development. We generated and analyzed mice deficient for CD37. Despite the high expression of CD37 on cells of the immune system, no changes in development and cellular composition of lymphoid organs were observed in mice lacking CD37. Analyses of humoral immune responses revealed a reduced level of immunoglobulin G1 (IgG1) in the sera of nonimmunized mice and an alteration of responses to T-cell-dependent antigens. Antibody responses to model antigen administered in the absence of adjuvant and to viral infections were generally poor in CD37-deficient mice. These poor antibody responses could be overcome by the immunization of antigen together with adjuvant. These results suggest a role for CD37 in T-cell–B-cell interactions which manifests itself under suboptimal costimulatory conditions.

A transgenic mouse model for the ductal carcinoma in situ (DCIS) of the mammary gland.

The ductal carcinoma in situ (DCIS) of the mammary gland represents an early, pre-invasive stage in the development of invasive breast carcinoma and is increasingly diagnosed since the introduction of high-quality mammography screening. Uncertainties in the prognosis for patients with DCIS have caused a controversial discussion about adequate treatment, and it is suspected that most patients undergoing mastectomy may be overtreated. In order to improve treatment and treatment decision, it therefore is highly desirable to identify prognostic markers and therapeutic targets for DCIS. We here introduce a set of transgenic mice (WAP-T and WAP-T-NP lines) presenting with various morphological forms of DCIS-like lesions. In these mice the SV40 large tumor antigen is specifically induced in epithelial cells of the terminal duct lobular units (TDLU). As a consequence of continuous expression of the oncogene, the animals develop multifocal DCIS and consequently invasive carcinoma within strain specific periods of latency. DCIS lesions in transgenic mice exhibit distinct architectural and cytological features which closely resemble those commonly present in humans. We therefore propose these transgenic lines as an experimental model to study the underlying molecular events leading to DCIS and its progression to invasive disease.