Rizwan Akhtar

A locally developed 200 W CO2 laser with multi-mode output was used to study the surface hardening of different steels. Maximum hardness was achieved in the region where the microstructure was transformed to martensite. The microhardness was found to increase with carbon content. In a new experiment, AISI 1045 steel specimen was first annealed and then treated with laser. The

Summary Quantum dot (QD) conjugates have many immunohistochemical applications. The optical, excitation/emission, and photostable properties of QDs offer several advantages over the use of chromogens or organic fluorophores in these applications. Here, we describe the use of QD conjugates to detect primary antibody binding in fixed tissue sections. We also describe the use of QDs in simultaneous and sequential multilabeling

Neural precursor cells (NPCs) are highly sensitive to genotoxic injury, which triggers activation of the intrinsic mitochondria-dependent apoptotic pathway. This pathway is typically initiated by members of the BH3 (Bcl-2 homology 3)-only subgroup of the Bcl-2 (B-cell CLL/lymphoma 2) protein family, which are positioned upstream in the apoptotic pathway to respond to specific death stimuli. We have shown previously that NPCs deficient in the tumor suppressor protein p53 show significantly less death after exposure to genotoxic injury or to staurosporine (STS), a broad kinase inhibitor and potent apoptosis inducer. p53 has been shown to regulate the expression of both Noxa and Puma, two BH3-only proteins, although their involvement in p53-dependent cell death appears to be cell-type and stimulus specific. A systematic comparison of the relative contributions of Noxa and Puma to NPC apoptosis has not yet been performed. We hypothesized that p53-dependent transcription of Noxa and Puma...

ABSTRACT This paper presents a new strategy for smooth content distribution in a mobile social network. We proposed a hybrid mobile social network architecture with one social super node that has high capacity to provide the services of content distribution. We also proposed the criteria and an algorithm to select the social super node. Simulation results are conducted to verify the correctness and performance of the proposed method, which indicate that the accessing of nearby social super nodes rather than the content provider is helpful to improve network performance in terms of content delivery ratio, throughput and end-to-end delays.

Neural precursor cells (NPCs) are highly sensitive to genotoxic injury, which triggers activation of the intrinsic mitochondria-dependent apoptotic pathway. This pathway is typically initiated by members of the BH3 (Bcl-2 homology 3)-only subgroup of the Bcl-2 (B-cell CLL/lymphoma 2) protein family, which are positioned upstream in the apoptotic pathway to respond to specific death stimuli. We have shown previously that NPCs deficient in the tumor suppressor protein p53 show significantly less death after exposure to genotoxic injury or to staurosporine (STS), a broad kinase inhibitor and potent apoptosis inducer. p53 has been shown to regulate the expression of both Noxa and Puma, two BH3-only proteins, although their involvement in p53-dependent cell death appears to be cell-type and stimulus specific. A systematic comparison of the relative contributions of Noxa and Puma to NPC apoptosis has not yet been performed. We hypothesized that p53-dependent transcription of Noxa and Puma leads to death in telencephalic NPCs exposed to genotoxic stress. We found that genotoxic injury induces a rapid p53-dependent increase in expression of Noxa and Puma mRNA in telencephalic NPCs. Furthermore, deficiency of either Noxa or Puma inhibited DNA damage-induced caspase-3 activation and cell death in telencephalic NPCs in vitro. However, only Puma deficiency protected telencephalic ventricular zone NPCs from death in vivo. In contrast to genotoxic injury, STS produced a p53-independent increase in Noxa and Puma expression, but neither Noxa nor Puma was required for STS-induced NPC death. Together, these experiments identify Noxa and Puma as important regulators of genotoxin-induced telencephalic NPC death.

Regulation of cerebellar neural precursor cell (NPC) death is important for both normal brain development and prevention of brain tumor formation. The tumor suppressor p53 is an important regulator of NPC apoptosis, but the precise mechanism of p53-regulated cerebellar NPC death remains largely unknown. Here, by using primary cerebellar NPCs and a mouse cerebellar NPC line, we compared the molecular regulation of cerebellar NPC death produced by staurosporine (STS), a broad-spectrum kinase inhibitor, with that caused by genotoxic agents. We found that both STS- and genotoxin-induced cerebellar NPC death were markedly inhibited by p53 or Bax deficiency. Genotoxin-induced cerebellar NPC death required new protein synthesis and PUMA, a p53 transcriptionally regulated BH3-only molecule. In contrast, STS caused cerebellar NPC death without requiring new protein synthesis or PUMA expression. In addition, genotoxic agents increased nuclear p53 immunoreactivity, whereas STS produced rapid cytoplasmic p53 accumulation. Interestingly, STS-induced death of cerebellar granule neurons was p53-independent, indicating a differentiation-dependent feature of neuronal apoptotic regulation. These results suggest that STS-induced cerebellar NPC death requires a direct effect of p53 on cytoplasmic apoptotic mediators, whereas genotoxin-induced death requires p53-dependent gene transcription of PUMA. Thus, p53 has multiple death promoting mechanisms in cerebellar NPCs.

Procarbazine hydrochloride (PCZ), a chemotherapeutic agent used extensively to treat Hodgkins disease and other tumors, induces leukemia, lymphoma, mammary gland and other solid tumors in rodents and non-human primates and is strongly implicated as a leukemogen in humans. Lipotrope (choline and methionine) deficiency is a powerful potentiator of chemical carcinogenesis in liver and, under some conditions, in other tissues in rodents. Methotrexate (MTX), another commonly used chemotherapeutic agent, interferes with one-carbon metabolism and limits availability of lipotropes. Studies of PCZ carcinogenesis in lipotrope-deficient or MTX-treated male rats are reported, showing that both deficiency and MTX increased PCZ carcinogenicity in the mammary gland. In addition, PCZ was found to induce abnormalities of hepatic choline metabolism. Weanling male Sprague-Dawley rats were fed control (C) or lipotrope-deficient (D) diet. After 3 weeks, C and D rats were given PCZ, MTX, the two drugs together or 0.9% saline by i.p. injection. Doses were 0.2 or 0.5 mg MTX/kg or 25 mg PCZ/kg, given 2 or 3 days per week for 5 or 14 weeks. After 5 weeks of drug treatment livers were assayed for choline, phosphatidylcholine, phosphocholine (PCho), glycerophosphocholine and betaine. PCZ perturbed choline metabolism, increasing hepatic choline and PCho in deficient or MTX-treated rats and, to a smaller extent, in rats fed control diet. MTX markedly enhanced the effect of PCZ on choline metabolism. PCZ-induced mammary tumor incidence was increased 50-70% by lipotrope deficiency or by MTX. In PCZ-treated rats, cumulative probability of bearing a mammary tumor was significantly increased by lipotrope deficiency (P = 0.05), and was increased similarly but not significantly by MTX (P = 0.1). Cumulative tumor numbers per group in PCZ-treated rats were significantly greater in both deficient and MTX-treated rats compared to rats fed control diet (P less than 0.005). Incidences of leukemia, lymphoma and Zymbal's gland tumors induced by PCZ were not significantly altered by diet or MTX.