A calcineurin homologous protein inhibits GTPase-stimulated Na-H exchange.

Activation of the ubiquitously expressed Na-H exchanger, NHE1, results in an increased efflux of intracellular H+. The increase in intracellular pH associated with this H+ efflux may contribute to regulating cell proliferation, differentiation, and neoplastic transformation. Although NHE1 activity is stimulated by growth factors and hormones acting through multiple GTPase-mediated pathways, little is known about how the exchanger is directly regulated. Using expression library screening, we identified a novel protein that specifically binds to NHE1 at a site that is critical for growth factor stimulation of exchange activity. This protein is homologous to calcineurin B and calmodulin and is designated CHP for calcineurin B homologous protein. Like NHE1, CHP is widely expressed in human tissues. Transient overexpression of CHP inhibits serum- and GTP-ase-stimulated NHE1 activity. CHP is a phosphoprotein and expression of constitutively activated GTPases decreases CHP phosphorylation. The phosphorylation state of CHP may therefore be an important signal controlling mitogenic regulation of NHE1.

Nuclear protein import: Ran-GTP dissociates the karyopherin alphabeta heterodimer by displacing alpha from an overlapping binding site on beta.

The alpha subunit of the karyopherin heterodimer functions in recognition of the protein import substrate and the beta subunit serves to dock the trimeric complex to one of many sites on nuclear pore complex fibers. The small GTPase Ran and the Ran interactive protein, p10, function in the release of the docked complex. Repeated cycles of docking and release are thought to concentrate the transport substrate for subsequent diffusion into the nucleus. Ran-GTP dissociates the karyopherin heterodimer and forms a stoichiometric complex with Ran-GTP. Here we report the mapping of karyopherin beta's binding sites both for Ran-GTP and for karyopherin alpha. We discovered that karyopherin beta's binding site for Ran-GTP shows a striking sequence similarity to the cytoplasmic Ran-GTP binding protein, RanBP1. Moreover, we found that Ran-GTP and karyopherin alpha bind to overlapping sites on karyopherin beta. Having a higher affinity to the overlapping site, Ran-GTP displaces karyopherin alpha and binds to karyopherin beta. Competition for overlapping binding sites may be the mechanism by which GTP bound forms of other small GTPases function in corresponding dissociation-association reactions. We also mapped Ran's binding site for karyopherin beta to a cluster of basic residues analogous to those previously shown to constitute karyopherin alpha's binding site to karyopherin beta.

Direct interaction of the Wiskott-Aldrich syndrome protein with the GTPase Cdc42.

Wiskott-Aldrich syndrome (WAS) is an X-linked immunodeficiency disorder with the most severe pathology in the T lymphocytes and platelets. The disease arises from mutations in the gene encoding the WAS protein. T lymphocytes of affected males with WAS exhibit a severe disturbance of the actin cytoskeleton, suggesting that the WAS protein could regulate its organization. We show here that WAS protein interacts with a member of the Rho family of GTPases, Cdc42. This interaction, which is guanosine 5'-triphosphate (GTP)-dependent, was detected in cell lysates, in transient transfections and with purified recombinant proteins. A weaker interaction was also detected with Rac1 using WAS protein from cell lysates. It was also found that different mutant WAS proteins from three affected males retained their ability to interact with Cdc42 and that the level of expression of the WAS protein in these mutants was only 2-5% of normal. Taken together these data suggest that the WAS protein might function as a signal transduction adaptor downstream of Cdc42, and in affected males, the cytoskeletal abnormalities may result from a defect in Cdc42 signaling.

In its active form, the GTP-binding protein rab8 interacts with a stress-activated protein kinase.

Rab8 is a small GTP-binding protein that plays a role in vesicular transport from the trans-Golgi network to the basolateral plasma membrane in polarized epithelial cells (MDCK), and to the dendritic surface in hippocampal neurons. As is the case for most other rab proteins, the precise molecular interactions by which rab8 carries out its function remain to be elucidated. Here we report the identification and the complete cDNA-derived amino acid sequence of a murine rab8-interacting protein (rab8ip) that specifically interacts with rab8 in a GTP-dependent manner. Rab8ip displays 93% identity with the GC kinase, a serine/threonine protein kinase recently identified in human lymphoid tissue that is activated in the stress response. Like the GC kinase, rab8ip has protein kinase activity manifested by autophosphorylation and phosphorylation of the classical serine/threonine protein kinase substrates, myelin basic protein and casein. When coexpressed in transfected 293T cells, rab8 and the rab8ip/GC kinase formed a complex that could be recovered by immunoprecipitation with antibodies to rab8. Cell fractionation and immunofluorescence analyses indicate that in MDCK cells endogenous rab8ip is present both in the cytosol and as a peripheral membrane protein concentrated in the Golgi region and basolateral plasma membrane domains, sites where rab8 itself is also located. In light of recent evidence that rab proteins may act by promoting the stabilization of SNARE complexes, the specific GTP-dependent association of rab8 with the rab8ip/GC kinase raises the possibility that rab-regulated protein phosphorylation is important for vesicle targeting or fusion. Moreover, the rab8ip/GC kinase may serve to modulate secretion in response to stress stimuli.

Nuclear export of late HIV-1 mRNAs occurs via a cellular protein export pathway.

The Rev protein of HIV-1 is essential for the nuclear export of incompletely spliced viral mRNAs. This action depends on the mutationally defined Rev activation domain, which both binds the nucleoporin-like human cellular cofactor Rab/hRIP and also functions as a nuclear export signal. Protein kinase inhibitor alpha (PKI) also contains a potent nuclear export signal. However, PKI plays no role in nuclear RNA export and instead induces the nuclear export of a specific protein target, the catalytic subunit of cAMP-dependent protein kinase. Here, it is demonstrated that the nuclear export signal of PKI not only binds the Rab/hRIP cofactor specifically but also can effectively substitute for the Rev activation domain in mediating the nuclear export of HIV-1 mRNAs. We conclude that HIV-1 Rev and PKI act through an identical nuclear export pathway and that Rev, rather than using a dedicated RNA export pathway, is instead acting as an adaptor that allows viral mRNAs to access a cellular protein export pathway.

The secreted Ipa complex of Shigella flexneri promotes entry into mammalian cells.

The bacterial pathogen Shigella flexneri causes bacillary dysentery in humans by invading coloncytes. Upon contact with epithelial cells, S. flexneri elicits localized plasma membrane projections sustained by long actin filaments which engulf the microorganism. The products necessary for Shigella entry include three secretory proteins: IpaB, IpaC, and IpaD. Extracellular IpaB and IpaC associate in a soluble complex, the Ipa complex. We have immunopurified this Ipa complex on latex beads and found that they were efficiently internalized into HeLa cells. Like S. flexneri entry, uptake of the beads bearing the Ipa complex was associated with membrane projections and polymerization of actin at the site of cell-bead interaction and was dependent on small Rho GTPases. These results indicate that a secreted factor can promote S. flexneri entry into epithelial cells.

An X chromosome-linked gene encoding a protein with characteristics of a rhoGAP predominantly expressed in hematopoietic cells.

An increasingly large number of proteins involved in signal transduction have been identified in recent years and shown to control different steps of cell survival, proliferation, and differentiation. Among the genes recently identified at the tip of the long arm of the human X chromosome, a novel gene, C1, encodes a protein that appears to represent a newly discovered member of the group of signaling proteins involved in regulation of the small GTP binding proteins of the ras superfamily. The protein encoded by C1, p115, is synthesized predominantly in cells of hematopoietic origin. It is characterized by two regions of similarity to motifs present in known proteins: GAP and SH3 homologous regions. Its localization in a narrow cytoplasmic region just below the plasma membrane and its inhibitory effect on stress fiber organization indicate that p115 may down regulate rho-like GTPases in hematopoietic cells.

Sequence similarity analysis of Escherichia coli proteins: functional and evolutionary implications.

A computer analysis of 2328 protein sequences comprising about 60% of the Escherichia coli gene products was performed using methods for database screening with individual sequences and alignment blocks. A high fraction of E. coli proteins--86%--shows significant sequence similarity to other proteins in current databases; about 70% show conservation at least at the level of distantly related bacteria, and about 40% contain ancient conserved regions (ACRs) shared with eukaryotic or Archaeal proteins. For > 90% of the E. coli proteins, either functional information or sequence similarity, or both, are available. Forty-six percent of the E. coli proteins belong to 299 clusters of paralogs (intraspecies homologs) defined on the basis of pairwise similarity. Another 10% could be included in 70 superclusters using motif detection methods. The majority of the clusters contain only two to four members. In contrast, nearly 25% of all E. coli proteins belong to the four largest superclusters--namely, permeases, ATPases and GTPases with the conserved "Walker-type" motif, helix-turn-helix regulatory proteins, and NAD(FAD)-binding proteins. We conclude that bacterial protein sequences generally are highly conserved in evolution, with about 50% of all ACR-containing protein families represented among the E. coli gene products. With the current sequence databases and methods of their screening, computer analysis yields useful information on the functions and evolutionary relationships of the vast majority of genes in a bacterial genome. Sequence similarity with E. coli proteins allows the prediction of functions for a number of important eukaryotic genes, including several whose products are implicated in human diseases.

Qiṣaṣ al-anbīyāʼ

[Nāṣir al-Dīn Burhān al-Dīn Rabghūzī] ; bi-ihtimām ʻAbd al-Qādir Makhdūm ibn Dāmullā Dhākir Akhūnd Tāshkandī.

Hādhā mukhtaṣar kitāb Qaṭf al-azhār min al-Khiṭaṭ wa-al-āthār, mukhtaṣar al-Khiṭaṭ lil-Maqrīzī / lil-Shaykh al-Imām al-ʻĀlim al-ʻAllāmah ... Sibṭ Āl al-Ṣiddīq Mawlānā Abū al-Surūr al-Ṣiddīqī al-Bakrī : manuscript, undated

Written in several hands, in one column, from 17 to 25 lines per page, in black ink, framed within double red lines.

Kitāb Laṭāʼif akhbār al-uwal fī-man taṣarrafa fī Miṣr min al-duwal / taʼlīf sayyidinā wa-mawlānā al-ʻālim al-ʻallāmah Muḥammad ibn ʻAbd al-Muʻṭī ibn Abī al-Fatḥ ibn Aḥmad ibn ʻAbd al-Ghanī ibn ʻAlī al-Isḥāqī al-Shāfiʻī : manuscript, 1733

بسم الله الرحمن الرحيم فهو حبي اكفي الحمد لله الملك العزيز في ملكه واقتذاره الذي ملك الوجود يقوته واوجد بارادته واختياره... :Incipit

Hādhā kitāb al-Iʻlām tārīkh Bayt Allāh al-Ḥarām wa-al-niṣf al-thānī Tawārīkh Āl ʻUthmān / taʼlīf Shaykh al-Islām al-Shaykh Quṭb al-Dīn al-Makkī : manuscript, undated

Bound in half leather and boards.

Kitāb Sharḥ al-Birjandī ʻalá al-Tadhkirah al-Ṭūsīyah fī al-hayʼah : manuscript, undated

بسم الله الرحمن الرحيم وبه نستعين الحمد لله الذي خلق السموات والارض ... :Incipit

Kitāb-i Bahāristān-i marḥūm Mullā Jāmī : manuscript, 1640

Title from caption.