Gene conversions and rearrangements cause discordance between inheritance of forms of 21-hydroxylase deficiency and HLA types.

Congenital adrenal hyperplasia (CAH) can be caused by a variety of defects in the functional gene encoding 21-hydroxylase (P450c21), which lies in the midst of the human leukocyte antigen (HLA) locus on chromosome 6. As a result, Mendelian genetics permit clinically distinct forms of CAH to be traced genetically by HLA and complement typing of family members. The recent cloning of probes for P450c21 now permits tracing of the affected gene directly. A consanguineous family had three members affected with three clinically distinct forms of CAH. Two of these individuals had identical extended haplotypes, including nine HLA and complement loci. Despite this extensive identity, the patterns of genomic DNA fragments digested with endonuclease EcoRI and detected by a P450c21 cDNA probe differed greatly in these two individuals. Thus, the DNA diagnosis of allelic variation was much more sensitive than the HLA diagnosis. Genomic DNA digested with endonuclease TaqI and probed with P450c21 cDNA revealed the 3.2-kilobase (kb) band, which is generally associated with the nonfunctional P450c21 A pseudogene, in all family members, and also revealed the 3.7-kb band associated with the functional P450c21 B gene in all family members except the severely affected index case. Probing of the same blots with a genomic probe also permitted examination of the adjacent downstream TaqI fragments, showing retention of both the 2.4-kb (A pseudogene) and 2.5-kb (B gene) fragments. Similarly, BglII-digested genomic DNA from all individuals contained both the 12-kb (A pseudogene) and 11-kb (B gene) bands. These data indicate that the basis of 21-hydroxylase deficiency in the index case was due to a homozygous gene conversion event and not to gene deletion. These results show that the DNA in and around the 21-hydroxylase gene is genetically very active, so that the usual generalization concerning linkage and inheritance may yield incorrect conclusions and diagnoses.

In vivo localization and characterization of functional ciliary neurotrophic factor receptors which utilize JAK-STAT signaling.

The ciliary neurotrophic factor receptor is critically involved in embryonic motor neuron development. Postnatally, it may contribute to neuronal maintenance and regeneration. In addition, pharmacological stimulation of the receptor may slow the progression of several neurodegenerative disorders. The widespread nervous system expression of ciliary neurotrophic factor receptor components and the effects of low ciliary neurotrophic factor concentrations on a wide variety of cells in culture combine to suggest that functional ciliary neurotrophic factor receptors are expressed by many classes of neurons in vivo. However, the in vivo signaling properties and distribution of functional ciliary neurotrophic factor receptors have not been directly determined. We developed a novel in vivo assay of functional ciliary neurotrophic factor receptors which revealed that, in the adult nervous system, cranial and spinal motor neurons are very sensitive to ciliary neurotrophic factor and display a rapid, robust increase in phospho-STAT3 in their dendrites, cell bodies and nuclei, which is specifically blocked by the ciliary neurotrophic factor receptor antagonist, AADH-CNTF. In distinct contrast, several other classes of ciliary neurotrophic factor receptor expressing neurons fail to increase phospho-STAT3 levels following ciliary neurotrophic factor treatment, even when ciliary neurotrophic factor is applied at high concentrations. Leukemia inhibitory factor and epidermal growth factor elicit the same cell-type-dependent pattern of phospho-STAT3 increases. Responsive and non-responsive neurons express comparable levels of STAT3.Therefore, in vivo ciliary neurotrophic factor receptor-initiated STAT3 signal transduction is regulated in a very cell-type-dependent manner. The present data suggest that at least some of this regulation occurs at the STAT3 tyrosine phosphorylation step. These unexpected results also suggest that other forms of receptor-initiated STAT3 signal transduction may be similarly regulated.

The actinic comedonal plaque.

A case of actinic comedonal plaque is reported. We comment on the case as well as describe the skin surface microscopic features.

Spitz nevus: a case report.

The case of a 2-mm Spitz nevus is reported. We comment on the case and describe the skin-surface microscopy features.

Synthesis of complement components C2 and C4 by human monocyte-derived macrophages during in vitro differentiation in serum-free culture conditions.

In order to analyze the kinetics of complement component synthesis by human monocytes/macrophages, we have developed a system of defined culture conditions in the absence of serum. Moreover, the use of the polymerase chain reaction (PCR) provides a high sensitivity for the detection of mRNAs and the study of the regulation of complement component synthesis by these cells. Human blood monocytes were collected and purified by cytapheresis and elutriation, and then cultured in nonadherent cell culture bags for up to 3 weeks. Cells were grown in Iscove's modified Dulbecco's medium supplemented with alpha-phosphatidylcholine, transferrin, insulin, glutamine and antibiotics. The phenotypic and functional properties of macrophages differentiated under these serum-free culture conditions have been previously analyzed [1]. Secretion of complement component was measured by a hemolytic assay. mRNA was prepared using guanidine isothiocyanate extraction followed by cesium gradient ultra-centrifugation. cDNA was obtained by reverse transcription, then amplified by PCR. Fresh monocytes did not display any secretion of C2 as measured by hemolytic assay. However, C2 secretion was detected on and after the 3rd day of serum-free cultured unstimulated monocytes. The rate of C2 production increased along with macrophage differentiation up to the 3rd week of culture. We were not able to detect any functional C4 secretion. In preliminary studies, C2 and C4 mRNAs were detected in macrophages and in unstimulated fresh monocytes. These preliminary studies show that the serum-free culture conditions we have developed allow very satisfactory survival and differentiation of human monocytes, and provide optimal conditions for the study of their secretory activity.