Absence of PTPN11 mutations in 28 cases of cardiofaciocutaneous (CFC) syndrome

CFC (cardiofaciocutaneous) syndrome (MIM 115150) has been considered by several authors to be a more severe expression of Noonan syndrome. Affected patients present with congenital heart defects, cutaneous abnormalities, Noonan-like facial features and severe psychomotor developmental delay. We have recently demonstrated that Noonan syndrome can be caused by missense mutations in PTPN11(MIM 176876), a gene that encodes the non-receptor protein tyrosine phosphatase SHP-2. In this report, we have evaluated the possible involvement of mutations in PTPN11 in CFC syndrome. A cohort of 28 CFC subjects rigorously assessed as having CFC based on OMIM diagnostic criteria was examined for mutations in the PTPN11 coding sequence by using DHPLC analysis. The results showed no abnormalities in the coding region of the PTPN11 gene in any CFC patient, nor any evidence of major deletions within the gene suggesting that mutations in other gene(s) are responsible for this syndrome.     

CFC1 Mutations in Patients with Transposition of the Great Arteries and Double-Outlet Right Ventricle

Recent investigations identified heterozygous CFC1 mutations in subjects with heterotaxy syndrome, all of whom had congenital cardiac malformations, including malposition of the great arteries. We hypothesized that a subset of patients with similar types of congenital heart disease---namely, transposition of the great arteries and double-outlet right ventricle, in the absence of laterality defects---would also have CFC1 mutations. Our analysis of the CFC1 gene in patients with these cardiac disorders identified two disease-related mutations in 86 patients. The present study identifies the first autosomal single-gene defect for these cardiac malformations and indicates that some cases of transposition of the great arteries and double-outlet right ventricle can share a common genetic etiology with heterotaxy syndrome. In addition, these results demonstrate that the molecular pathway involving CFC1 plays a critical role in normal and abnormal cardiovascular development.     

CFC syndrome: a syndrome distinct from Noonan syndrome

We report two children with a common pattern of birth defects. Both have very sparse, curly hair, nystagmus and mental retardation. The first one has Noonan syndrome habitus associated with keratosis plantaris and nystagmus; the second one has a slightly Noonan-like face, macrocephaly, keratosis pilaris, and hypertrophic cardiomyopathy. They represent the extreme of a spectrum of congenital defects recently reported independently as CFC syndrome by Reynolds and as "Noonan-like short stature syndrome with sparse hair" by Baraitser and Patton. The clinical features are reviewed and the autonomy of the syndrome with regards to Noonan syndrome, is disputed, since every sign seems to occur independently in Noonan syndrome. The father of the second case probably has a minor syndrome expression, pointing to probable autosomal dominant inheritance.     

Impact of Chlorofluorocarbon 113 on Chlorinated Ethene Biodegradation

The inhibition of tetrachloroethene (PCE) degradation in anaerobic, ethanol-fed PCE-enrichment cultures by chlorofluorocarbon 113 (CFC113) was a function of the initial CFC113 concentration. Typically, aqueous CFC113 concentrations up to 1 mg/L slowed, but did not stop PCE-degradation, but cis-1,2-dichloroethene (cDCE) degradation was inhibited by 0.2 mg/L CFC113. In some cultures, however, PCE degradation was stopped by as little as 0.15 mg/L CFC113. CFC113 also slowed the consumption of hydrogen and the concurrent methane production. CFC113 slowly degraded in PCE-enrichment cultures to hydrochlorofluorocarbon 123a (HCFC123a). Chlorotrifluoroethene was also detected. Although relatively non-toxic, CFC113 may nevertheless pose remediation challenges when present at sites that also contain PCE.     

Impact of Chlorofluorocarbon 113 on Chlorinated Ethene Biodegradation

The inhibition of tetrachloroethene (PCE) degradation in anaerobic, ethanol-fed PCE-enrichment cultures by chlorofluorocarbon 113 (CFC113) was a function of the initial CFC113 concentration. Typically, aqueous CFC113 concentrations up to 1 mg/L slowed, but did not stop PCE-degradation, but cis-1,2-dichloroethene (cDCE) degradation was inhibited by 0.2 mg/L CFC113. In some cultures, however, PCE degradation was stopped by as little as 0.15 mg/L CFC113. CFC113 also slowed the consumption of hydrogen and the concurrent methane production. CFC113 slowly degraded in PCE-enrichment cultures to hydrochlorofluorocarbon 123a (HCFC123a). Chlorotrifluoroethene was also detected. Although relatively non-toxic, CFC113 may nevertheless pose remediation challenges when present at sites that also contain PCE.     

Germline Mutations in Components of the Ras Signaling Pathway in Noonan Syndrome and Related Disorders

Ras proteins control a variety of critical cellular processes, and somatic mutations in RAS genes (and other members of signaling networks regulated by Ras) are common in human malignancies. Ras proteins are guanosine triphosphate (GTP)-binding proteins that cycle between active GTP-bound and inactive guanosine diphosphate (GDP) bound conformations. Cancer-associated Ras mutations typically alter amino acids G12, G13 or Q61. These mutant Ras proteins display impaired GTPase activity and are resistant to GTPase activating proteins (GAPs). We and others recently discovered novel germline KRAS mutations in individuals diagnosed with Noonan or cardio-facio-cutanous (CFC) syndrome, two clinically overlapping disorders characterized by short stature, distinct facial anomalies, heart defects, and other developmental abnormalities. We found that the mutant K-Ras proteins encoded by NS-associated alleles have less pronounced biochemical defects than known Ras oncoproteins, which likely explains why these mutations are tolerated in the germline. Together with the recent findings of mutations in other members of the Ras signaling cascade in CFC syndrome and in Costello syndrome, another clinically related disorder, it is now clear that Noonan-like features are common phenotypic consequences of systemic deregulation of the Ras pathway. The discovery of germline mutations in this group of related genetic disorders underscores the pivotal role of the degree and duration of Ras activation in cell fate decisions during embryonic development and morphogenesis.     

Enrichment of murine granulomonocytic progenitors using a continuous linear Ficoll-Isopaque gradient

Murine bone marrow was fractionated using a Ficoll-Isopaque continuous linear gradient characterized by an osmolarity of 290 mOsm constant throughout the gradient and a physiological pH of 7.4. The cellular peak detected prior to fractionation by means of a 405 nm light beam served as a guide for determining fraction collection. Under these conditions CFC enrichment was observed constantly for densities lower than that of the cellular peak. In 17 experiments the enrichment factor amounted to 3.6 +/- 1.4. Enrichment appeared to be due to both an increase in CFC concentration and an improvement in CFC cloning efficiency. A correlation between the concentration of CFC and that of undifferentiated blasts was observed. The CFC density distribution was dependent on the cell load. For cell loads lower than 25 x 10(6) the modal density of CFC was within the range 1.0615-1.0715. For cell loads higher than 25 x 10(6) there was a shift of the distribution curve towards higher density. Clu-CFC appeared to be denser than CFC. This increase in density may be due to a maturation process from CFC to Clu-FC as a maturation gradient with increasing density was found for the granulocytic series and for erythroblasts.     

Capillary filtration coefficient is independent of number of perfused capillaries in cat skeletal muscle

The capillary filtration coefficient (CFC) is assumed to reflect both microvascular hydraulic conductivity and the number of perfused capillaries at a given moment (precapillary sphincter activity). Estimation of hydraulic conductivity in vivo with the CFC method has therefore been performed under conditions of unchanged vascular tone and metabolic influence. There are studies, however, that did not show any change in CFC after changes in vascular tone and metabolic influence, and these studies indicate that CFC may not be influenced by alteration in the number of perfused capillaries. The present study reexamined to what extent CFC in a pressure-controlled preparation depends on the vascular tone and number of perfused capillaries by analyzing how CFC is influenced by 1) vasoconstriction, 2) increase in metabolic influence by decrease in arterial blood pressure, and 3) occlusion of precapillary microvessels by arterial infusion of microspheres. CFC was calculated from the filtration rate induced by a fixed decrease in tissue pressure. Vascular tone was increased in two steps by norepinephrine (n = 7) or angiotensin II (n = 6), causing a blood flow reduction from 7.2 +/- 0.8 to at most 2.7 +/- 0.2 ml x min(-1) x 100 g(-1) (P < 0.05). The decrease in arterial pressure reduced blood flow from 4.8 +/- 0.4 to 1.40 +/- 0.1 ml x min(-1) x 100 g(-1) (n = 6). Vascular resistance increased to 990 +/- 260% of control after the infusion of microspheres (n = 6). CFC was not significantly altered from control after any of the experimental interventions. We conclude that CFC under these conditions is independent of the vascular tone and number of perfused capillaries and that variation in CFC reflects variation in microvascular hydraulic conductivity.     

The effect of endotoxin on murine stem cells

Previous studies showed that after 5 μg of Salmonella typhosa endotoxin there was an increase in colony stimulating factor temporally related to a fall in murine marrow in vitro colony forming cells (CFC). This was followed by differentiation along the marrow granulocytic pathway. The present studies showed that after 5 μg of endotoxin the peripheral blood CFC fell by approximately 50% at one hour, rose to a level ten fold that of control at six hours and then returned to control values by 48 hours. There was a progressive increase in the number of splenic CFC to ten fold that of control from 24 to 72 hours after endotoxin. These data imply a migration of CFC from the marrow to the spleen along with an in-situ increase in splenic CFC. Thus, either migration or differentiation may explain the fall in marrow CFC after endotoxin. Spleen colony forming units (CFU) in the marrow were measured by a transplantation technique and the transplantation fraction (f Fx) determined. A decrease in marrow CFU at 24 hours after endotoxin was secondary to a change in the f Fx. from 11.1% to 7.6%. There was however, an increased percentage of CFU in DNA synthesis in the interval of 6–48 hours after endotoxin, as judged by the hydroxyurea technique. As the marrow CFC fell within 20 minutes of endotoxin administration, the data suggest the CFC may be affected initially and that changes in the generative cycle of the CFU may be of a secondary nature.     

Unusual presentation of biliary atresia splenic malformation syndrome with autosomal dominant hypospadias

Biliary atresia is associated with polysplenia in 2-10% of cases and is defined as Biliary Atresia Splenic Malformation syndrome (BASM). The main features of BASM syndrome include extrahepatic biliary atresia and polysplenia besides the characteristic findings of laterality anomalies, cardiac anomalies, intraabdominal vascular anomalies, pancreatic anomalies and malrotation. Here we present a 6-month-old male patient with BASM having atrial septal defect, umblical hernia, inguinal hernia, and hypospadias. Clinical history revealed that his father also had hypospadias which showed a rare form of autosomal dominant inheritance. The karyotype was normal and the molecular analysis of CFC1 gene revealed no mutation. We emphasize the importance of a detailed physical examination in cases with BASM.     

Radiosensitivity increases with differentiation status of murine hemopoietic progenitor cells selected using enriched marrow subpopulations and recombinant growth factors

The radiosensitivity of populations of colony-forming cells (CFC) in murine bone marrow was investigated using different recombinant colony-stimulating factors (CSFs; murine IL-3 and granulocyte-macrophage CSF and human granulocyte CSF), or purified murine macrophage CSF. With unfractionated normal bone marrow the CFC increased in radiosensitivity as they progressed through the granulocyte lineage. The D0 values ranged from 129 +/- 12 cGy for CFC stimulated with GM-CSF down to 42 +/- 2 cGy after stimulation with G-CSF. IL-3 stimulated a CFC population which gave the only survival curve with a shoulder (n = 1.9 +/- 0.3). With semipurified populations of primitive or bipotential CFC, D0 values were generally lower with respect to the equivalent values for unpurified bone marrow (range 62 +/- 7 cGy to 135 +/- 7 cGy). Changes in cluster/colony ratio and colony morphology together possibly with products of accessory cells influence the interpretation of the radiosensitivity parameters.     

Genetic control of lipopolysaccharide induced generation of serum colony stimulating factor and proliferation of splenic granulocyte/macrophage precursor cells.

Administration of bacterial lipopolysaccharides (LPS) to mice causes a rise in tissue and serum colony stimulating factor (CSF) levels and in bone marrow and splenic colony forming cells (CFC). Two inbred strains of mice differing in their response to LPS were used to study the genetic control of LPS induced granulopoietic responses: a high responder strain (C3H/eB) which reacts to LPS by an elevation in serum CSF and by an increase in splenic CFC levels, and a low responder strain (C3H/HeJ) which fails to show these responses. The ability to generate serum CSF after administration of LPS is controlled by a single autosomal dominant gene, while the splenic CFC response to LPS follows the characteristic patterns of a polygenic inheritance control. The associated relationships of CSF and CFC responsiveness have been investigated in backcross (F1 X C3H/Hej) and F2 mice. Most mice which generated high levels of CSF showed a high or intermediate CFC response and most mice which did not generate any detectable levels of serum CSF showed a low splenic CFC response. The results suggest that CSF may play a physiologic role in vivo as a granulopoietin. In addition it was shown that the genetic control mechanisms governing the CSF/CFC responses are determined by the lipid A-KDO portion of the LPS molecule, suggesting that lipid A is the active part of the LPS molecule in stimulating granulopoiesis.     

GROWTH OF STEM CELL CONCENTRATES IN DIFFUSION CHAMBERS (DC)

The growth in diffusion chamber (DC) of normal murine marrow and marrow separated by discontinuous albumin centrifugation was studied. The colony-forming cells (CFC) assayed in soft agar, total cell counts and differentials were measured in the DC over a 19 day period after intraperitoneal implantation into CF₁ mice. Growth of implants of normal marrow or fraction 3 (F3) in which CFC had been concentrated 1.7–3.9-fold were compared at an initial cell concentration of 1 × 10⁵. There was a good correlation between the number of CFC implanted with granulocyte production but not with macrophage production. When higher cell concentrations of normal unfractionated marrow were implanted growth was reduced as was recovery of CFC. In two experiments in which both CFU and CFC concentrations were measured there was a general correlation between the two.     

The generation of colony-forming cells (CFC) and the expansion of hematopoiesis in cultures of human cord blood cells is dependent on the presence of stem cell factor (SCF)

We have analyzed the effect of stem cell factor (SCF), alone or in combination with other growth factors, on the generation of colony-forming cells (CFC) and on the expansion of hematopoiesisin vitro from light density, soybean agglutinin^–, CD34⁺ cord blood cells under serum-deprived conditions. The growth factors were either added only once at the onset of the culture or added every few days when the cultures were demidepopulated and refed with fresh medium. No growth factor, alone, generated CFC or expanded hematopoiesis under these conditions. However, SCF, in combination with interleukin 3 (IL-3) or with late-acting factors (granulocyte colony-stimulating factor (G-CSF) or erythropoietin (Epo)), generated large numbers of mature cells as well as CFC. The number of CFC generated depended on the refeeding procedure adopted. In cultures never refed, the CFC numbers increased from > 160 CFC/culture at day 0 to > 3000 CFC at day 10. The CFC numbers stayed above the input levels for 25 days before declining. Almost no CFC were detectable after one month. In contrast, in cultures regularly refed, CFC were detectable for at least 40 days. The lineages of the mature cells and the types of CFC generated varied with the different growth factors. In the presence of SCF plus IL-3, erythroid burst-forming cells (BFU-E) and granulocyte/macrophage colony-forming cells (GM-CFC) were generated and erythroid as well as myelomonocytic precursors were present among the differentiated cells. In contrast, in the presence of SCF and G-CSF or Epo, the progenitor cells as well as the differentiated cells were dictated by the late-acting growth factor (i.e. mostly G-CFC and myeloid cells in the presence of SCF and G-CSF vs. BFU-E, erythroid colony-forming cells (CFU-E) and erythroblasts in the presence of SCF and Epo). Thus, marked expansion of erythropoiesis and granulopoiesis can be achievedin vitro by as few as two factors — SCF acting as the early factor along with the appropriate late-acting factor.Paper presented in part at the World Congress on Cell Cultures, Washington D.C., 21–24 June 1992.     

Effects of a dietary crude fibre concentrate on growth in weaned piglets

Many fibre sources can help the adaptation of piglets at weaning, improving the growth. In this study, the effects of a dietary crude fibre concentrate (CFC) on piglet’s growth was investigated. From 31 to 51 days of age, 108 weaned piglets (D×(Lw×L)), had access to two isofibrous, isoenergetic and isonitrogenous diets, supplemented with 1% of CFC (CFC group) or not (control (CON) group). From days 52 to 64 all piglets received the same starter diet. During the dietary treatment period the CFC group showed higher average daily gain, average daily feed intake and feed efficiency (P<0.001) than CON group. At 64 days of age, BW was higher in CFC group compared with CON group (P<0.001). Blood samples were collected at days 31, 38, 45 and 52 of age. From days 31 to 52 significant differences in the somatotropic axis between groups were observed. In particular, growth hormone levels were higher only at the end of the 1^st week of dietary treatment (P<0.05) in CFC group animals compared with CON group animals. The IGF-I trend was similar between groups even if the IGF-I levels were higher in the CFC group than CON group 1 week after starting treatment (P<0.01). The IGF-binding protein 3 (IGFBP-3) levels were higher in the first 2 weeks of dietary treatment and lower in the 3^rd week in CON group compared with CFC group (P<0.01). Specifically, the IGFBP-3 profile was consistent with that of IGF-I in CFC group but not in CON group. At the same time, an increase of leptin in CFC compared with CON group was observed (P<0.05). Piglets fed the CFC diet showed a lower diarrhoea incidence (P<0.05) and a lower number of antibiotic interventions (P<0.05) than CON diet from 31 to 51 days of age. Pig-major acute-phase protein plasma level (P<0.01) and interleukin-6 gene expression (P<0.05) were higher in CON group than CFC group at the end of 1^st week of dietary treatment. In conclusion, this study showed that CFC diet influences the hormones related to energy balance enhancing the welfare and growth of piglets. Furthermore, the increase in feed intake during 3 weeks of dietary treatment improved the feed efficiency over the entire post-weaning period.     

锂对小鼠高增殖潜能集落形成细胞和粒巨噬系祖细胞体外增殖的影响

本文观察了锂对ＢＡＬＢ／Ｃ小鼠骨髓高增殖潜能集落形成细胞（ＨＰＰ－ＣＦＣ）和粒巨噬系祖细胞ＣＦＵ－ＧＭ体外增殖的影响。ＨＰＰ－ＣＦＣ集落由ＩＬ－１、ＩＬ－６、ＷＥＨＩ３条件培养液（ＷＥＨＩ３－ＣＭ,含有ＩＬ－３）及Ｌ９２９条件培养液（Ｌ９２９－ＣＭ,含有Ｍ－ＣＳＦ）所支持,而ＣＦＵ－ＧＭ由ＷＥＨＩ３－ＣＭ所支持。结果显示,ＬｉＣｌ浓度在０．４－２ｍｍｏｌ／Ｌ时呈现剂量依赖性抑制ＨＰＰ－ＣＦＣ增殖;而在０．４－１ｍｍｏｌ／Ｌ的浓度范围内,则对ＣＦＵ－ＧＭ的增殖起剂量依赖性促进作用。这些结果提示ＬｉＣｌ对ＨＰＰ－ＣＦＣ和ＣＦＵ－ＧＭ的作用不同,可能锂有诱导ＨＰＰ－ＣＦＣ向成熟细胞分化的作用     

小鼠胚胎干细胞来源的HPP-CFC体外和体内造血活性分析

小鼠的造血系统起源于胚胎发育7d的卵黄囊胚外中胚层,研究表明胚胎干细胞（Embryonic stem cells, ES cells）体外分化模型能够模拟卵黄囊造血的发生过程;此外,诱导ES细胞体外定向造血细胞分化对于建立治疗性克隆以治愈多种血液病具有重要的研究和应用价值。高增殖潜能集落形成细胞（High proliferative potential colonyforming cells, HPPCFC）是体外培养的最原始的多潜能造血前体细胞之一。本研究发现：小鼠ES细胞在体外分化5～14d形成的拟胚体中含有HPP-CFC。其再生潜能与胚胎期9d的卵黄囊来源的HPP-CFC相似,与骨髓来源则不同。RT-PCR分析表明：ES细胞来源的HPP-CFC表达与造血干细胞增殖相关的特异性转录因子和多种造血生长因子受体。但分化12d的拟胚体细胞和HPP-CFC集落细胞移植受致死剂量照射的小鼠不能产生典型的脾结节。因此,ES细胞来源的HPP-CFC在体外和体内造血活性的差异值得更深入地研究。     

Demonstrating sexual selection by cryptic female choice on male genitalia: What is enough?

Rapid divergence in external genital structures occurs in nearly all animal groups that practice internal insemination; explaining this pattern is a major challenge in evolutionary biology. The hypothesis that species‐specific differences in male genitalia evolved under sexual selection as courtship devices to influence cryptic female choice (CFC) has been slow to be accepted. Doubts may stem from its radical departure from previous ideas, observational difficulties because crucial events occur hidden within the female's body, and alternative hypotheses involving biologically important phenomena such as speciation, sperm competition, and male‐female conflicts of interest. We assess the current status of the CFC hypothesis by reviewing data from two groups in which crucial predictions have been especially well‐tested, Glossina tsetse flies and Roeseliana (formerly Metrioptera) roeselii bushcrickets. Eighteen CFC predictions have been confirmed in Glossina and 19 in Roeseliana. We found data justifying rejection of alternative hypotheses, but none that contradicted CFC predictions. The number and extent of tests confirming predictions of the CFC hypothesis in these species is greater than that for other generally accepted hypotheses regarding the functions of nongenital structures. By this criterion, it is reasonable to conclude that some genital structures in both groups likely involved sexual selection by CFC.     

In vitro granulopoiesis in oligoblastic leukaemia: prognostic value, characterization and serial cloning of bone marrow colony and cluster forming cells in agar culture

The colony and cluster forming capacity of bone marrow cells (BM CFC and CluFC) in agar culture, was studied from 20 oligoblastic patients. 13 patients had a leukemic growth pattern and 12 of these died within one year after diagnosis. 7 patients had no leukemic growth and 4 are alive 16 to 90 months after diagnosis. Both the determination of the proportion of abnormally light buoyant density of CFC and CluFC and the study of their suiciding index were used to characterize more precisely the leukemic or nonleukemic status of patients. Because of the small number of patients involved in the later preliminary study, the prognostic significance cannot be valuated. Serial studies of individual patients showed different types of evolution in the growth pattern of BM CFC and CluFC. Either the increase of BM CFC and CluFC paralleled that of the myeloblasts, or there was a change in the growth pattern before AML transformation suggesting clonal evolution.